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Top 80 Biochemistry Research Topics

Biochemistry research topics

Biochemistry is simply the study of life. Enrolling in a biochemistry course requires you to extensively study the biological and chemical functions of living organisms, which equips you with the best biochemistry research topic ideas as you progress with your study. But again, all this is not a walk in the park.

Are you a student looking forward to writing a research paper that your examiners or teachers would be happy to read and award you an excellent score? We’ve shared the biochemistry research topics list across various subjects in this article to help you know what the best topics look like. Be sure to go through this piece in its entirety.

Biochemistry Research for Students (Preparation and Ideas)

In most universities, a senior biochemistry research project is a must before you complete your biochemistry coursework. But that’s not all. At various points of your study, whether studying pure biochemistry or related courses like molecular biology, examiners will require you to write a biochemistry research essay, term paper, or thesis.

To show you are focused on your studies and understand biochemistry better, come up with interesting biochemistry topics, and structure your work perfectly. A biochemistry research paper should capture the examiner’s interest and allow you to prove the content extensively. Ensure the topic is also manageable and compliant with your research environment.

With that, you will get things done in the nick of time without compromising on the quality of your work. No examiner will have a problem with a research essay, assignment, or dissertation that has sense and follows the academic rules. In fact, well-proposed biochemistry research ideas attract lots of funding, and you might be lucky to have a breakthrough in your early career.

Most of the biochemistry topics for research ideas revolve around:

  • Structure and functioning of various body cells.
  • Biochemical reactions in humans and plants.
  • Heredity in living organisms.
  • Pharmacology and pharmacognosy.
  • DNA, RNA, and proteins in plants and animals.
  • Molecular nature of all the bio-molecules.
  • Micro-organisms.
  • Enzymes, bioenergetics and thermodynamics.

Interesting Topics in Biochemistry

Many students struggle to think of interesting topics for their courses, and that’s not exceptional in biochemistry. You’ll notice that most of the topics’ interests depend on what a student is passionate about. Here are some interesting biochemistry topics to check out:

  • Understanding the role of microbial itaconic acid production during fungi synthesis.
  • Membrane biology and ion transport process in the innate immune response.
  • Inhibition of sprouty2 in periodontal ligament cells and their extensive biological effects.
  • Peptide and protein structure in membranes: what role do they play in cell membrane formation?
  • Understanding the evolution of microbial infections and related effects in the existing surroundings.
  • The role of B cell receptors in infections and vaccine production.
  • Human health and bacteriophages of different kinds: How the two correlate.
  • AN analysis of biofilm formation: From therapeutics to molecular mechanisms, and everything in between.
  • Close comparison and analysis of nucleic acids (DNA and RNA) in mice and humans.
  • Understanding the relationship between NDR1/2 and mob-based proteins in cell cycle damage signaling.

Biochemistry Topics for Presentation

If you have an incoming presentation, you must pick your topics carefully. Presentations can be a challenge at times. While some individuals in the audience might not have extensive knowledge of the subject, you must have a detailed understanding of your topic to score better. Here are some of the best biochemistry presentation topics:

  • A stepwise understanding of the human immune system and the role played in cell regeneration during an infection.
  • A deep analysis of different plant pathologies with a focus on phytochemicals present and their roles.
  • A look at the biochemical process that leads to apoptosis in patients with stage IV breast cancer.
  • Understanding the close relationship in terms of practice in biochemistry and pathological psychiatry.
  • Understanding different types of polymorphism and how they affect the DNA of human beings.
  • How hormone formation in children is dependent on the environment and child’s health condition.
  • The role of human cloning in the production and consumption of various types of vaccines.
  • The relationship between human molecular adaptation and diet: Does diet play a role?
  • Understanding how biological processes are dependent on the functioning of the human central nervous system.
  • Comparison of mice and human circulatory system: Functioning, susceptibility, capacity, and features.

Hot Topics in Biochemistry

Biochemistry has a vast range of hot topics to explore. Since you might not have the chance to write about everything concerning the course, our suggestions narrow your search efforts. Take a look at some of the hot topics in biochemistry below:

  • How professional breast cancer detection and screening is changing the lives of university students.
  • The revolution of tissue clearing techniques for optical microscopy as witnessed for the past five years.
  • Clinical features of acute copper sulfate poisoning and role of biochemistry in management interventions.
  • The role of malt in various beer quality and effects on beer stability: Industrial biochemistry of beer making.
  • Solid and liquid-state fermentation in the production of biochemical supplements for human and animal consumption.
  • Controlled mixed fermentation as witnessed in pharmaceutical product making over the years and the new normal.
  • The roles of polyphosphate on the virulence of Erwina caratovora bacteria in a range of plants.
  • An extensive comparison of the significant aspects of biochemical studies at the college and university level in the last half-century.
  • Analysis of molecular genetics and its close relationship with muscular dystrophy in men and women.
  • Supporting evidence on children’s growth and development in countries using genetically modified organisms feeding products.

Project Topics for Biochemistry

Would you like to write a project topic on biochemistry that might change the world? Then you need to work on something that excites and allows you to develop a deep interest in your course. Project topics in biochemistry are not complicated, provided you are willing to challenge yourself and learn. Here are some of them for inspiration.

  • Breast cancer and obesity in women of younger age; the clinical analysis from a biochemistry perspective.
  • Understanding biochemistry of biomolecules and amino acids and their clinical application in drugs and supplement making.
  • The future of artificial intelligence and its relevance to biochemistry: The gradual changes witnessed over the last four years.
  • Understanding stability of 81 analytes in human blood, serum, and plasma during diagnosis in clinical biochemistry set up.
  • History of clinical biochemistry and why it matters to modern human medicine.
  • Transforming the liver function tests with new biochemistry diagnostic simple tools; how to make things result-oriented
  • The role of clinical biochemistry in helping us understand the human immune system.
  • Understanding and redefining the role of the human bones: How biochemistry transforms the narrative on human bones predisposition.
  • A detailed clinical biochemistry analysis during pregnancy: tests associated with pregnancies and early child development.
  • The rise of clinical biochemistry in the present times, from introductory chemistry of life to foundation on infections and disease interventions.

Biochemistry Research Topics for Undergraduates

Choosing an ideal biochemistry research topic as an undergraduate student taking biochemistry at the college or university level can be a complex process for you. We have ten topics that you can choose to base your research on. Let’s take a look at the best biochemistry research topics for undergraduates’ topics:

  • Microbial food spoilage, resulting disorders, and the best biochemistry control approach to leverage.
  • Comparative examination of serum calcium level among males using biochemistry testing techniques.
  • Phytochemical analysis of specific tomato products available in the market for public health safety.
  • The oxidative stress status of mice fed on oil bean seed meal and show the same applies to biochemical processes in humans.
  • How biochemical production of top-quality bar soaps compares with most detergents you see in the market today.
  • What are the health dangers associated with lead in water consumed in most universities?
  • Critical analysis of Pterocarpus mildbreadii (oha) seed: A detailed phytochemical review.
  • How to use biochemistry synthesis pathways to create a compound that prevents reactions from taking place.
  • Evaluation of bacteria components produced using pure starter culture in a biochemistry culture laboratory setup.
  • What’s the bacteriological quality of meat products in most butcheries in town?

MCAT Biochemistry Topics

You must always take your Medical College Admission Test seriously if you want to get a chance to join your favorite medical school. The test gives you a chance to show that you’re ready to handle the program and maintain an excellent performance throughout. Since you’re looking to get admission, here are the best MCAT biochemistry topics you might want to consider:

  • Application of mathematical concepts and techniques in biochemistry and their role in general medicine.
  • How catabolic and anabolic enzyme reactions contribute to cell functionality: Data-based enzymatic reasoning and graphical representations.
  • Chemical and physical foundations of biological systems that help us appreciate human anatomy.
  • How critical analysis and reasoning skills acquired in biochemistry play a significant role in medical schools.
  • How multiple biosynthetic pathways like the citric acid cycle and glycolysis influence human health and functionality?
  • A look at the psychological, social, and biological foundations of behaviors in relation to human biomolecules.
  • Understanding the biochemical basis of human psychology.
  • Critical analysis of biochemistry study areas and how they transform medicine.
  • Understanding the relationship between Omega-3 fatty acids and blood glucose levels in adults.
  • How fruits and vegetables regulate blood sugar in patients with diabetes: Biochemical pathways and mechanisms.

Popular Biochemistry Research Paper Topics

As a student pursuing biochemistry, you should be aware of some topics to expect during your program. Luckily, a lot is happening in the biochemistry field, giving you a chance to explore the subject even better. Take your time and go through these popular biochemistry research paper topics we have suggested below.

  • How does chemical energy flow in human cells during metabolism?
  • Understanding the primary chemical processes and their close relationship to the functionality of living organisms.
  • How biotechnology and molecular biochemistry continues to transform genetics and botany in the modern world.
  • How has the Coronavirus impacted the study and application of biochemistry for the last one year?
  • How common bleaching agents react with human skin and biochemistry interventions that solve the matter once and for all.
  • How do laboratory and medical-based practical experiments help undergraduate students understand biochemistry better?
  • How can factories leverage biochemistry and help achieve the goal of clean energy in cities and congested towns?
  • What biochemical activities are involved in drug production and testing? Pharmaceutical quality assurance and control
  • Discussing and analyzing the chemical properties of carbohydrates in energy formulation.
  • What factors necessitate fatty acids beta-oxidation? Fatty acids as super fuel in the human bodies functioning.

Current Biochemistry Topics

There’s no better way to show that you’re a sharp and informed student than knowing what’s happening in the biochemistry academic and practical world. Knowing current biochemistry topics is one way to showcase your awareness. We have compiled this list to help you create a top-quality research paper. Here we go!

  • How do hydrocarbons in amino acids impact biochemical reactions when the human body gets subjected to medication?
  • Why biochemistry research is promising when it comes to developing the best methods of initiating new medications to patients.
  • Understanding the covid-19 vaccines chemical properties and reactions in adult men and women.
  • Explaining various reactions to vaccines in the trial stage and how biochemistry has helped achieve the desired vaccines effectiveness.
  • What are the roles of biochemically developed rotavirus vaccines in acute gastroenteritis among infants?
  • How to best preserve plant extracts meant for experiments in biochemistry? Plant biochemistry and biotechnology research.
  • The relationship between different types of brain cancer with radiation exposure and genetics.
  • Understanding measles among infants and the most effective biochemistry based vaccine remedy
  • The role of biochemistry in governing cell motility during various stages of development.
  • The role of microscopy, scanning, and serum medical examinations in biochemistry.

Get Biochemistry Writing Help

Are you confused about the best biochemistry project topics to work on? The above topics are an ideal starting point. But completing your assignment with the huge workload that comes with biochemistry is a significant problem. Worry not because you can now get biochemistry writing help from us.

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202 Interesting Biochemistry Research Topics For Any Taste

Biochemistry Research Paper Topics

Science-related courses are not everyone’s favorite. The few passionate and enthusiastic minds that delve into this field can also attest to its technical nature. With the intensive research, one has to perform biochemistry; it is no secret that professional assistance is inevitable. We have collated a list of the crème de la crème biochemistry research paper topics for your inspiration. Keep reading this post to the end to identify them and use one of them in your project today!or buy thesis online

What Are Biochemistry Research Topics?

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  • Get Biochemistry Paper Writing Help Today
Biochemistry is a science-related field with roots in chemistry and biology – deals with the organic chemistry of compounds and processes occurring in organisms. This field seeks to understand biology within the context of chemistry.

Therefore when we talk about biochemistry research topics, we are dealing with all the relevant aspects of biochemistry. Such issues tend to identify problems in this field and try to bring out working solutions or recommendations in the end. Like any other research topic, these also seek to explore researched and least researched areas of biochemistry and add knowledge to the field.

Although most college and university students perceive this to be a daunting task, it is the reverse of it all. Biochemistry is something that we apply in our everyday life, and thus we can easily find such topics. Nonetheless, here are some concrete places you can begin your search from:

The biochemistry books on your library shelf Reputable online sites that major in biochemistry Articles, journals, conference papers, and orations on biochemistry Latest news headlines Previous theses and research papers on biochemistry

With all these sources, you are as prepared as a soldier for battle. Nothing can stop you from writing biochemistry topics that will yield top grades. For those who wish to have something to start them off, here are 202 of the best biochemistry project topics!

  • How chemical processes related to living organisms
  • Discuss the process of information flow through biochemical signaling
  • How does chemical energy flow through metabolism?
  • The role of biochemical processes in giving rise to the complexity of life
  • How biochemistry transformed botany and genetics in the 20 th century
  • Various health dangers of sodium chloride in food
  • The role of laboratory technicians in advancing research in biochemistry
  • How developing nations are making strides in the field of biochemistry
  • The impact of coronavirus on the study and application of biochemistry
  • The efficacy of catalysts and enzymes in biological reactions
  • Phytochemical analysis of the various dyes sold in the market today
  • How bleaching agents interact with the human skin
  • Effects of technological advances on the study of biochemistry in universities
  • The rate of employment among biochemistry graduates in the United States
  • Discuss the chemical compositions of potassium permanganate
  • An evaluation of the chemical processes involved in the extraction of oxygen from the air
  • Effects of methanol on the human lungs and liver
  • Factors that necessitate the oxidation of various metals
  • How factories can contribute to the Standard Development Goals on clean energy
  • Chemical activities involved in the rusting of metals
  • Why does steel remain stainless as compared to other metals?
  • The role of practical experiments in understanding biochemistry
  • How to detect Mycobacterium Ulcerans on the human skin
  • Discuss the environmental reservoirs of most biological enzymes and catalysts
  • Risks associated with researching in a biochemistry lab
  • The effect of ecological conditions on extracts used in the lab
  • Evaluate the alkaloidal isolates of a plant
  • Analyze the various anti-inflammatory medicinal plants found in the tropical regions
  • Investigate the process of producing pro-inflammatory eicosanoids
  • What is the therapeutic action of anti-inflammatory medicinal plants?
  • The impact of herbal preparations on treating skin diseases
  • How to destabilize Lysozyme activity
  • The impact of various temperature ranges on enzyme activity
  • What is the role of alpha crystalline in a concentration?
  • Factors that necessitate insulin resistance in human bodies
  • Biochemistry experiments that have helped in treating cardiovascular diseases
  • What is the relationship between T2DM and a high level of hepcidin?
  • Factors that necessitate the regulation of iron homeostasis
  • Evaluate the pathogenesis of diabetes and its complications
  • The impact of maternal serum on pregnant women
  • How to determine the amount of protein in the urine
  • Discuss the release of placental toxic factors and their impact on blood circulation
  • Evaluate the toxicological effects of Desmodium Adscendens in rats
  • The impact of high doses of the freeze-dried extracts on biochemical reactions
  • How to preserve plant extracts for biochemical experiments
  • Discuss the various pathogenic risks associated with breast cancer
  • An analysis of the multi-factorial diseases among women in the United States
  • Biological factors that necessitate promoting tumor growth
  • Evaluate the role of immunoglobulin G receptors in the study of clinical malaria
  • How to determine the antigen-binding capabilities of the receptors
  • A biochemical perspective of the gene encoding process for receptors
  • Molecular methods of investigating variations in genes: A case study of PCR
  • Biological processes that cause the inflammation of the intestinal mucosa
  • The role of Rotaviruses in causing Acute gastroenteritis (AGE) among children
  • How iron Chelators affect the various bloodstream forms of Trypanosoma Brunei
  • Discuss how clinicians determine the effectiveness of a particular drug
  • Evaluate the emergence of drug resistance among pregnant mothers
  • Alternative forms of therapy to drug toxicity in humans
  • How iron Chelators deferoxamine exhibits itself in Trypanosoma Brunei
  • Factors that inhibit cell growth and interfere with the activity of iron-dependent enzymes
  • Discuss the vitro effects of phenolic acids
  • The impact of variant frequencies in biochemical reactions
  • Biochemical processes that may lead to severe coronary malfunctions
  • Genetic factors associated with variability in individuals
  • How do different people respond to various vaccines during the clinical trials stage
  • The method of initiating a new drug in a patient
  • Evaluate the biochemical properties of the coronavirus
  • The role of sewage sources and disposal points in contributing to the survival of pathogens
  • How to determine relative molecular weights in the lab
  • The susceptibility of bacteria to antibiotics
  • Compare and contrast herbal preparations and scientific research processes
  • How to isolate pathogens from various food sources
  • Discuss the efficacy of using the indicator bacteria strains
  • How electron microscopy helps in isolating viruses and bacteria
  • The interrelationship between cellular and molecular biology
  • Discuss the genetic models for understanding regulatory mechanisms for homeostasis
  • What are the tools that regulate the cell population?
  • How to deal with pathologic disorders: A case study of Osteoporosis
  • Biochemical inferences to metastatic bone disease
  • How to discover embryonic malformations in pregnant women
  • Factors that disrupt signaling pathways and transcription factor networks
  • Evaluate various bone tissue from humans and animals
  • A technological analysis of genetic and proteomic processes
  • Discuss the various strides made in vivo molecular imaging
  • The role of scanning and electron microscopy in biochemistry
  • Effects of high-resolution micro-computed tomography in determining the accuracy of biochemical experiments
  • How to detect defects in cell biology: A case of soft tissue sarcoma
  • Investigate the advancements made in cell growth regulation
  • Discuss the epigenetic and genetic regulation of oncogenes
  • Analyze the factors that regulate the cell cycle
  • How to control the segregation of chromosomes
  • Why scientists need to govern cell motility
  • Discuss the relationship between nuclear structure and chromatin structure
  • Explore how the nucleus organizes nucleic acid metabolism architecturally
  • How to determine the atomic matrix of an RNA
  • What causes the nuclear lamina to have interconnected structures?
  • Discuss the process of DNA replication in a laboratory
  • What makes the RNA transcription process a complex one?
  • How to package DNA into active or silenced chromatin
  • How changes in the RNA and DNA cause diseases such as cancer
  • Discuss the kinetic characterization of the homeostasis process
  • How to determine the structure of new clotting factors
  • Effects of platelets in the identification of genetic risk markers
  • Why enzymes are necessary for almost every aspect of biochemistry
  • Discuss the process of recognizing a substrate by an enzyme
  • Evaluate the quantitative and structural approach to the study of enzymes
  • How to determine if selenium contains enzymes
  • Analyze the co-factors and enzymes involved in the coagulation cascade
  • Why structural biology should be a core research discipline in colleges
  • Analyze the X-ray structures of iron-binding in proteins
  • Factors that lead to the clotting of blood in humans
  • What are the DNA-protein complexes that are necessary for replication?
  • Discuss the regulation mechanisms of the transcriptional process
  • The role of synthetase – tRNA complexes
  • Discuss the assembling and regulation procedures of the DNA replication fork
  • How a synthetase distinguishes among dozens of tRNA species
  • The process of repairing DNA double-strand breaks
  • What goes on in the RNA transcription process?
  • The necessity of recombination in predicting the stability of genomes
  • Discuss the molecular processes involved in carcinogenesis
  • How to design new anti-tumor agents
  • Experimental approaches to determining the instability of genomes
  • Discuss site-directed mutagenesis of protein components
  • Biochemical analysis of DNA synthesis
  • Evaluate the properties of eukaryotic RNA polymerases
  • The role of transcription factors in biochemistry
  • What goes on in ATP-dependent chromatin remodeling?
  • Discuss the various structural proteins that comprise the chromatin
  • How to regulate transcription initiation and elongation
  • Factors that affect post-transcriptional regulation of gene expression
  • How to determine the active sweet components of artificial sweeteners
  • A comparative analysis of serum calcium levels in geriatric men
  • How to extract nutrients from plants
  • Evaluate the nutritional profile of vegetables: A case of spinach
  • How to produce starch from cassava
  • Evaluate the phytochemical properties of soap
  • Factors that lead to microbial food spoilers
  • How to determine biochemical parameters in the laboratory
  • A critical examination of Escherichia Coli in fecal pollution
  • Discuss the chemical compositions of water near a lead industry
  • Physic-chemical properties of yams and arrowroots
  • The impact of supplementing the body with vitamins
  • Effects of having fluorides in drinking water on the teeth
  • The implication of acid rain to surrounding building structures
  • Discuss the process of methanol leaf extraction
  • The role of high-fat diets in causing obesity and heart diseases
  • Concepts of analytical biochemistry
  • Biotechnology and applied biochemistry
  • How to produce deodorants using pawpaw leaves
  • What causes the spontaneous flow of active polar gels?
  • Discuss gene encoding in sorghum and cassava
  • What causes destabilization in lysosomes?
  • Evaluate some of the physicochemical processes that occur in living organisms
  • Discuss the conditions that necessitate antibacterial activity of Thymus Vulgaris
  • What are the optimum conditions for aqueous and ethanol extracts?
  • How Cadmium affects humans and the surrounding environment
  • Evaluate the fungal pathogens associated with tomatoes spoilage
  • The role of taxonomic groupings in biochemistry
  • How to produce protease using Aspergillus Flavus
  • The process of extracting medicinal components of plants
  • Effects of ethanol in causing corrosion
  • The role of watermelon in fighting viral activities
  • Plant science and medicine
  • Structure of molecules
  • Chemicals responsible for the immune system
  • Cells accountable for body defense
  • Why are pathogens dangerous?
  • Energy release from bonds
  • Structure of organelles
  • How coordination occurs in various components of cells
  • How the conversion of glucose occurs
  • Process of heat generation
  • Chemical effects of diseases
  • Functions of bio elements
  • The study of respiration
  • How to extract energy from food
  • Compounds necessary for body growth and development
  • How to diagnose diseases using various biochemical procedures
  • Why plant sugars are necessary for the process of photosynthesis
  • How carbon dioxide enters the leaves through stomata
  • The role of mitochondria, nucleus, Golgi bodies, and endoplasmic reticulum in the study of cell biology
  • Discuss the functioning of various molecules of life
  • Discuss the role of food additives in changing the way bacteria grows and develops
  • How to determine mutation in the structure of the DNA of bacteria
  • Discuss the process of deciding on a pregnancy test through urine samples
  • How to detect potential genetic defects in the fetus
  • Discuss the chromosomal abnormalities that lead to Down syndrome
  • How the absence of enzymes in the body leads to metabolic disorders
  • How biochemists insert the gene for human insulin into bacteria during genetic engineering
  • The process of creating genetically identical organisms through cloning
  • Evaluate the procedure of replacing a disease-causing gene through gene therapy
  • Analyze the various properties and reactions of compounds in animals
  • How to utilize compounds for body growth and development
  • The study of plant biochemistry: A case study of respiration and Glycolysis
  • How the structure of molecules affect metabolic reactions
  • Describe the process of speeding up reactions by enzymes
  • Discuss how catabolism and anabolism lead to the breaking down of larger molecules
  • What are the various mechanisms of reactions that cause pollution?
  • What are some of the emerging ethical and legal trends in biochemistry?
  • How the study of biochemistry supports our understanding of diseases and health
  • Discuss the contribution of biochemistry to innovative information and technological revolution
  • The role of biochemistry in determining policies and legal standards: A case study of coronavirus

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From the writing ideas above, you can note that topics in biochemistry are like the neighbor next door. They exist in almost every activity of our lives, from waking up to sleeping.

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Biochemistry Research Paper Topics

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  • Carbohydrate
  • Cholesterol
  • Fermentation
  • Human Genome Project
  • Nucleic acid
  • Photosynthesis
  • Respiration

Biochemists study the structure and properties of chemical compounds in the cells of living organisms and their role in regulating the chemical processes (collectively called metabolism) that are necessary to life. These chemical processes include transforming simple substances from food into more complex compounds for use by the body, or breaking down complex compounds in food to produce energy. For example, amino acids obtained from food combine to form protein molecules, which are used for cell growth and tissue repair. One very important type of protein are enzymes, which cause chemical reactions in the body to proceed at a faster rate.

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Complex compounds in food, such as proteins, fats, and carbohydrates, are broken down into smaller molecules in the body to produce energy. Energy that is not needed immediately is stored for later use.

Biochemistry also involves the study of the chemical means by which genes influence heredity. (A gene is a molecule of DNA, or deoxyribonucleic acid, which is found in the nucleus of cells. Genes are responsible for carrying physical characteristics from parents to offspring.) A gene can be seen as a sequence of DNA that is coded for a specific protein molecule. These proteins determine specific physical traits (such as hair color, body shape, and height), body chemistry (such as blood type and metabolic functions), and some aspects of behavior and intelligence. Biochemists study the molecular basis of how genes are activated to make specific protein molecules.

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210 Biochemistry Research Topics For Your Class

210 Biochemistry Research Topics

Biochemistry research topics demand practical experiments with samples and specimens that yield the desired results. Before approval, a title in this field must start with a proposal representing the typology that the study will eventually produce. Project coordinators or supervisors must screen the topics that students choose without exceptions. Therefore, topic ideas must arise from careful cross-examination of sample specimens and experiments that researchers have watched for some time.

What is Biochemistry?

As the name suggests, biochemistry is the fusion of chemistry and biology in living organisms. Nobody can overstate the essence of biochemistry because it explains the causes of illnesses in animals and humans. Also, biochemistry continues to help researchers and scientists determine how molecules like proteins and vitamins function within the body.

Writing excellent papers in the fields of biochemistry requires admirable knowledge and a good understanding of this scientific branch. Luckily, the internet has many resources with materials that students can research their topics. But students should select their topics carefully and structure their papers properly to impress educators to award them top grades.

Biochemistry Paper Outline

A good biochemistry paper comprises several sections that enable the audience to understand the topic and its information. Here’s is an outline of a quality biochemistry paper.

Title page : The title page comes first in a research paper, providing an overview of the study. This page should include the running head, paper title, student’s name and affiliations, and page number. Students should format this page depending on their writing style, whether MLA, APA, or Chicago. Intro : The introduction is the second section of a biochemistry research paper. And this part should have an abstract and an introduction. Nevertheless, this part places the work into context for the audience. It also tells the readers why the study is relevant. Literature review : In this section, the student examines the materials they consulted during research. A good paper comprises a comprehensive assessment to show that the author read several published works on the issue. It also shows why the current study is essential and different. Methodology : Here, the writer explains their methods to gather and analyze the information they convey to the audience. This section is essential because it enables the audience to evaluate the validity of the research. Researchers can use experiments, observation, case studies, and documentary methods in their research. Analysis and discussion : In this section, the writer conveys the results of their research work. They also expound on their methodology. This part can include tables and figures that are easy-to-understand and precise. Conclusion : This part of a biochemistry paper summarizes the research while suggesting further studies on the topic. Reference : This section lists the materials that the writer consulted during the research. Including a bibliography makes the work authentic.

College and university learners must pick interesting topics to enjoy working on their research projects. Without exciting topic ideas, learners can struggle to work on their papers from the beginning to the end. That’s why this article lists some of the best and popular topics in this scientific field. However, you should remember there is always a possibility to custom dissertation from our professional helpers team.

Remarkable Biochemistry Research Paper Topics

Maybe you’re looking for a topic that will leave the educator no option but to award you the best grade in your class. If so, consider the following ideas for your research paper.

  • Can watermelon help in the fight against viral activities?
  • Explain how ethanol causes corrosion
  • How scientists extract the medicinal components of a plant
  • Taxonomic groupings’ role in biochemistry
  • Investigating the fungal pathogens that science associates with tomato spoilage
  • The impact of Cadmium on humans and the environment
  • The optimum conditions for ethanol and aqueous extracts
  • How drinking water fluorides affect your teeth
  • How acid rain impacts building structures
  • The methanol leaf extraction process
  • How high-fat diets cause heart diseases and obesity
  • The analytical biochemistry concepts
  • Applied biochemistry and biotechnology- What’s the correlation?
  • How to use pawpaw leaves to produce deodorants
  • The active polar gels spontaneous flow and the causes
  • Analyzing gene encoding in cassava and sorghum
  • Destabilization’s causes in lysosomes
  • Evaluating physicochemical processes in living organisms
  • Investigating conditions that facilitate Thymus Vulgaris’ antibacterial activity

These are great topics that will impress your professor to award you a good grade. Nevertheless, prepare yourself to research any of these ideas extensively before writing.

Interesting Biochemistry Topics

When choosing a topic in this field, a vital consideration is ensuring that it’s exciting to hold the reader’s attention. Also, the learner should pick a topic they are interested in to write a winning piece. Here are exciting ideas to consider in biochemistry.

  • Comprehensive analysis of infectious diseases’ evolutionary biology
  • Photosynthesis and its functions
  • Reviewing plant disease management using modern technology
  • How oxytocin affects psychopathic disease treatment
  • Analyzing the factors causing genetic mutation
  • How addictive substances affect the human genes
  • Living organisms and their cell structures
  • The development of cellular technology
  • Gestation period and its function in mammals
  • Cellular biology functions in recognizing and identifying genetics
  • Studying chemical reactions in the body using hormones
  • Alzheimer’s disease and therapeutic advances in treating it
  • The regulation mechanisms of stem cell biology
  • Cancerous cells and their biology
  • Genetic mapping and linkage analysis
  • The nucleic acid structure
  • Coronavirus and epidemiology
  • Cellular membranes’ functions and their essence in life forms
  • Analyzing the capabilities of prokaryotic and eukaryotic cells
  • Studying the apoptosis significance in faulty cells’ growth
  • Understanding the role of microbial itaconic acid and the production of fungi synthesis
  • Analyzing MOBs and NDR1/2 relationship in signaling a defective cell cycle
  • Documenting and mapping morphogen signaling pathways and regulation of biological responses
  • Vaccines and diseases- Understanding B cell receptors targeting
  • Bacteriophages and human health
  • Microbial biofilm formation- Molecular mechanisms therapeutics
  • Comparing protein folding and design between humans and mice
  • Investigating the evolution of microbial diseases
  • The role of structural determinants of protein in human health
  • Analyzing ion transport and membrane biology in innate immune response
  • How protein-membrane structure and function affect drug distribution
  • Why is protein-membrane design so important?
  • Cellular basis and mapping biochemical glucose transport of the insulin action and resistance
  • Comprehending the role of peptide and protein structure in membranes
  • The essence of platelet function and dysfunction on injuries
  • Understanding Sprouty 2 inhibition impacts on periodontal ligament cells
  • How placental toxic factors’ release affects blood circulation
  • Determining the protein amount in urine
  • How maternal serum affects pregnant women
  • Evaluating diabetes’ pathogenesis and its impact
  • What necessitates iron homeostasis regulation?
  • The relationship between high hepcidin level and T2DM
  • How biochemistry experiments have facilitated cardiovascular illnesses treatment
  • Factors necessitating insulin resistance in the body
  • Ways to identify mycobacterium Ulcerans on the skin
  • Environmental reservoirs of biological catalysts and enzymes
  • The risks of biochemistry lab research
  • Ecological conditions’ impact on lab extracts
  • Evaluating alkaloidal isolates in plants
  • Analyzing anti-inflammatory medical plants in tropical regions
  • Investigating pro-inflammatory eicosanoids’ production
  • Anti-inflammatory medicinal plants- Understanding their therapeutic action
  • How herbal preparations affect skin disease treatment
  • Destabilizing the Lysozyme activity
  • How temperature ranges affect enzyme activity
  • Alpha crystalline role in a concentration

These are exciting topics to consider for a biochemistry paper. However, they require an extensive investigation to draft a winning essay.

Current Topics in Biochemical Research

Maybe you want to write about something latest. In that case, consider these current topic ideas.

  • Investigating the role of peptide and protein function in membranes
  • Analyzing the biological impact of periodontal ligament cells
  • Critical analysis of microbial diseases’ evolution
  • Understand the regulatory mechanisms in genetics
  • B cells receptors role in vaccines and diseases
  • The biology and pathology of cancer
  • What regulates the population of cells?
  • Factors that scientists associate with new drug initiation to a patient
  • Phenolic acids and their vitro effects
  • Evaluating the effects of maternal serum on women during pregnancy and children
  • Alkaloidal isolates effects of plants
  • Chemical composition effects of potassium permanganate
  • Preliminary investigation on Citrus Sinensis Seed and Coat screening
  • Metalloenzymes and metalloproteins- The contrast
  • Aspirin chemical quantity analysis
  • Exploring Polyphosphate role on Erwinia Caratovora Virulence
  • Reviewing the human genome mapping and its impact on disease prevention
  • Why information matters in predicting the protein dihedral angles
  • Central dogma exceptions
  • Investigating the functions and structure of amino acids
  • Why protein Kinase matters in cancer and drug resistance
  • Malignancies biology and skeletal complications
  • Studying cellular structure and function
  • Biology and cancer pathology
  • Biology and coagulation disease
  • Understanding physical biochemistry
  • Intestinal microbes- What is their role in human health and diseases
  • Developing and characterizing chemical compounds targeting colon, pancreatic, and lung cancers
  • Using microarray technology in describing P623 and P73 regulated genes in cancer
  • The genetics of cancer molecules: Understanding the genomics-based method for gene expression and association studies
  • Lipid metabolism in mitochondrial and metabolic diseases
  • Genetic regulatory and epigenetic mechanisms
  • Functional nucleic acid and protein interactions
  • Structural biology and enzymology
  • Understanding measles in infants and biochemistry-based vaccination
  • Biochemistry’s role in controlling cell motility in different developmental stages
  • Why scanning serum medical examinations and microscopy matter in biochemistry
  • How various brain cancers relate to genetics and radiation exposure
  • How to preserve plant extracts for biochemistry experiments
  • Biochemical-based rotavirus vaccines’ role in acute gastroenteritis in children
  • Explain trial stages vaccine reactions and the role of biochemistry in achieving the desired results
  • How amino acids hydrocarbons affect biochemical reactions after subjecting the human body to medication
  • The essence of biochemistry research in developing ways to initiate new treatments in patients
  • Understanding the chemical properties of the COVID-19 vaccines and reactions in males and females

Biochemistry research projects on these topics can help learners unearth the latest information in their study field. What’s more, students can use them to showcase their awareness and impress educators.

Cool Biochemistry Topics

Selecting a topic that you’re comfortable working with will simplify your project completion. Here are excellent biochemistry paper topics to consider for comfortable research and writing experience.

  • Immunoglobulin G Receptors and their role in a clinical malaria study
  • The effects and process of destabilizing Lysozyme activity
  • The flow of chemical energy through metabolism
  • Phosphates structure as the necessary synthesis from alcohol
  • Bacteria membranes and their dynamics
  • DNA synthesis complexities in the definition
  • Assessing the chemical quality in Aspirin production
  • A comprehensive investigation of hepatitis B prevalence
  • A review of Amyloid diseases
  • Muscular dystrophy and molecular genetics analysis
  • Analyzing the latest high blood pressure medications
  • How variant frequencies affect biochemical reactions
  • Explain the phenolic acids’ vitro effects
  • What inhibits cell growth while interfering with iron-dependent enzymes’ activity?
  • Explain ways to determine iron Chelators deferoxamine presence in Trypanosoma Brunei
  • Alternative therapy forms to drug toxicity
  • Evaluating drug resistance in pregnant women
  • How clinicians determine a drug’s effectiveness
  • The effects of iron Chelators on different Trypanosoma Brunei’s bloodstream forms
  • Explain the Rotaviruses’ role in causing acute gastroenteritis in children
  • Understanding the biological processes responsible for intestinal mucosa inflammation
  • Molecular ways to investigate gene variations
  • Evaluating the toxicological impacts of Desmodium Adscendens in mice
  • How high freeze-dried extracts affect biochemical reactions
  • Pathogenic risks that scientists associate with breast cancer
  • Analyzing the multi-factorial diseases among females
  • The biological factors promoting tumor growth
  • Evaluating the immunoglobulin G receptors’ role in a clinical malaria study
  • Determining the binding capabilities of the receptors’ antigen
  • Receptors’ gene encoding process- A biochemical perspective

These ideas can be excellent topics for biochemistry research papers. However, learners should spend sufficient time researching their ideas to develop winning papers.

Hot Topics in Biochemistry

Perhaps, you want to write about a hot issue in this academic field. In that case, this section has a burning idea that you can explore.

  • Non-enzymatic and enzymatic protein role
  • The Stability, interactions, and structure in protein
  • How effective is population health in improving aggregate health performance in emerging economies?
  • Is amyloid disease transmissible?
  • Describe protein quantification
  • Define frequency modulation and controlled signaling
  • The potential and challenges of recombinant spider silk and its implications in biomedical applications
  • The use of biomedical means by athletes seeking unfair advantage
  • How human genome mapping can affect society and medicine
  • Analyzing biochemistry advancements and their effects on new medications
  • Reviewing the reactions and structure of phosphates and esters and their synthesis
  • Purification and expression of proteins’ responses at different ENTH levels
  • Evidence for or against animal disease models and scientific values in seeking disease cures
  • Investigating B lymphocyte cell line and aggregation from temperature sensitivity and chicken
  • The role of polyphosphate on Erwinia caratovora’s virulence
  • Molecular functions and cellular dissection in the latest high blood pressure medications
  • Comparing biochemical studies over the last century
  • Analyzing DNA synthesis complexes in the definition
  • Analyzing molecular genetics in a single causative gene and muscular dystrophy
  • Investigating complex biochemical compounds’ revelations in the DNA mapping study
  • Detecting soft tissue sarcoma
  • How to determine new clotting factors’ structure
  • How to confirm the presence of enzymes in selenium
  • Ethanol chemical compositions and their impact on the human liver and lungs
  • Rusting metals and their chemical properties
  • Alpha-crystalline’s role in a concentration
  • Why iron homeostasis needs regulation
  • Investigating the RNA’s atomic matrix
  • What does RNA transcription involve?
  • Coagulation disease’s biology

These are excellent biochemistry project topics for learners at various study levels. Nevertheless, students must research them extensively before writing.

Topics for Biochemistry Science Fair Projects

Picking a science fair project title can be cumbersome because the task is more demanding than writing a research paper. Here are brilliant ideas to consider for this project.

  • An electrolysis experiment
  • How to grow and use bacteria
  • Separating compound mixtures and their impact
  • Impact soft and hard water
  • Exploring different ways to extinguish fires without water
  • How temperature affects various liquids and their density
  • The effects and role of ethanol in erosions
  • The importance and impact of salt on melting points
  • Evaluating gasoline properties
  • Investigating the structure of enzymes
  • Anti-tumor agents and their design
  • The forms of x-ray of iron-binding in protein
  • Biochemistry and the necessary enzymes
  • Detecting invisible spills using backlight
  • How ultraviolet radiation affects bacteria growth
  • Plants crossbreeding
  • How smock pollution can affect plants’ transpiration rates
  • The DNA-protein complexes and their role in replication
  • How Ph and minerals’ concentration affect water and soil samples
  • How sunspots affect weather patterns

These biochemistry project topics are great ideas for a science fair. Nevertheless, they require time, effort, and research to convey relevant and quality information.

Easy Biochemistry Research Topics List

Maybe you need a simple topic to write about and score the top grade quickly. If so, here’s a list of easy ideas to consider for your paper.

  • How eukaryotic and prokaryotic cells create energy
  • The role of sunlight as the cells’ energy source
  • Analyzing cell membranes and protection mechanisms in living cells
  • Why investigating defective cells impact is important
  • Studying genetic materials role in differentiating cells
  • Organisms’ structure and physiological properties
  • Understanding cell’s composition and its functions
  • How cancer affects the cell growth
  • Current trends in molecular biochemistry
  • The microtubules’ role in the nervous system
  • Protein biosynthesis mechanics

All these are easy topics for academic papers. However, they still require some research before writing.

Get Professional Homework Help Online

Having a topic alone may not be enough to draft a winning paper. You also need skills, experience, and time to write a good essay. Unfortunately, some learners lack what it takes to compose a brilliant piece. That’s why we offer our affordable thesis writing service .

Once you seek our help, our trusted expert will research your topic and write a high-quality paper. Thus, you will beat the submission deadline and score the top grade in your class. Our service is cheap, reliable, and professional. Many learners have used it to excel academically. Contact us for quality help with your biochemistry paper.

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Senior Thesis

A senior thesis gives you a chance to dive deeper into a research topic of interest. It is the culmination of your undergraduate research career at one of the best biochemistry departments in the country. The thesis experience will help you develop your reading, research, and writing skills, and many students find this a rewarding experience in which to develop new skills through independent work. Senior theses are two-semester commitments, and senior honors theses are often required by Honors programs here at UW–Madison. Senior Thesis (691-692) and Senior Honors Thesis (681-682) are two-semester course sequences for students in the lab of a Biochemistry department faculty member. You must be a senior and you cannot take the two semesters concurrently.

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Getting permission to enroll

Work with your thesis advisor (the faculty member who is the PI of your lab) to complete

  • Your Senior Thesis Proposal Form (download here) , signed by your thesis advisor
  • Your Research Proposal

Turn in your completed Research Proposal Form and Research Proposal to the Biochemistry/Microbiology Undergraduate Advising Hub ( [email protected] ) by the end of the third week of class.

Thesis proposal guidelines

Your senior thesis or senior honors thesis proposal should be two to five double-spaced pages with 1-inch margins and 11-12 pt font. The abstract and references are included in the 5-page limit and the proposal should follow disciplinary guidelines and use headers appropriate to the field. If you are uncertain about how to format your proposal, talk to your thesis advisor. All proposals should contain the following:

  • An abstract of the proposed research (200 words or less, may be single-spaced)
  • Introduction and literature review, detailing the originality and significance of the proposed project
  • Methods section, describing plans for data collection and analysis
  • Timeline for completion of project
  • Conclusion/future directions
  • References (may be single-spaced)

These guidelines are adapted from the Hilldale/Holstrom Application with permission from the Office of Undergraduate Academic Awards. Your thesis advisor may have additional requirements or recommendations.

Thesis guidelines

Overall, your senior thesis should follow a similar format as a Masters or Doctoral thesis. Consult with your thesis advisor for guidance.

  • Title Page : Cover Page (download here) signed by your thesis advisor
  • Introduction and Literature Review : Provide a short introduction to the questions addressed in the thesis, including a review of the relevant literature. The literature review need not be extensive, but it should summarize the status of the field at the time the project was undertaken. This section should conclude with a clear, concise statement of the hypothesis to be tested or the questions to be answered.
  • Materials and Methods : In this section, you should report the materials (usually biological and/or chemical) used in the experiments and describe all techniques. If a technique has been used essentially as reported in the literature, it can be referenced without further description. You should note any significant modifications of the original report. Methods should be reported in enough detail to allow an interested colleague to reproduce the experiments.
  • Results : You should describe the major experimental findings, which are usually summarized in the form of tables or figures. Tables and figures should be numbered consecutively, with each on a separate page. They may be inserted into the text as needed (usually as the page immediately following the text page on which a given table or figure is first mentioned) or collected together at the end of the thesis.
  • Discussion and Conclusions : You should provide a discussion, interpretation, and summary of the thesis findings. The conclusions that can be drawn from the data should be stated clearly and defended concisely. It is often appropriate to discuss the results in relation to the findings of other investigators, particularly if the conclusions appear to be in conflict with those of others.
  • References : You should collect all references cited in the text together in a bibliographic listing at the end of the thesis. Use a consistent format for all references. References may be cited in the text by number (in parentheses or as superscripts) and listed in the Reference section in order of citation. Alternatively, references may be cited by name and listed alphabetically in the References section. In the latter case, papers with one or two authors are usually cited in the text by name(s) and year (i.e., Smith and Barnish, 1999), whereas papers with three or more authors are usually cited as the first author et al. with the year (i.e., Barnish et al., 1999).
  • Other Sections : It is helpful to include a short (≤1 page) abstract or summary and a table of contents at the beginning of the thesis. The thesis may also include a page of acknowledgments to express appreciation to those who were especially helpful in the work.
  • Appendices : Experimental details or findings that are only tangentially relevant to the thesis may be included as appendices, if it seems desirable to preserve a record of the information.

Additional resources:

  • ACS Style Guide – contains details on scientific writing, & guidelines for figures, tables, citations, references, etc.
  • Helpful writing guide: Scientific Writing
  • UW-Madison doctoral thesis guidelines: https://grad.wisc.edu/current-students/doctoral-guide/
  • UW-Madison Writing Center: https://writing.wisc.edu/

Final thesis submission

We recommend that you give a completed copy of your thesis to your thesis advisor three weeks before the semester ends, so they have enough time to review your work and assign a grade.

You also need to turn in your thesis with a signed Cover Sheet to the Biochemistry / Microbiology Undergraduate Advising Hub ( [email protected] )​​​ by the last day of class of your second Senior Thesis semester. If you are in an honors program, check with them to see if they have an earlier deadline.

If you anticipate needing additional time to complete your work, you must discuss this with your thesis advisor and have the advisor inform Biochemistry/Microbiology Undergraduate Advising Hub ( [email protected] )​. You will receive a grade of incomplete and you will not officially graduate until the thesis is reviewed and the incomplete grade is changed to a letter grade.

The grade for the thesis will be given by your thesis advisor. During the first semester, your thesis advisor will give you a grade of “P” for progress or “F” for non-attendance/non-contact. Your thesis advisor will assign the letter grade at the end of your second semester, and it will serve as both the first and second semester grade. The thesis advisor will assign the grade through MyUW.

Student checklist for Biochemistry Theses

Semester before thesis work begins:

  • Speak with a professor about doing a thesis in their lab.
  • Begin work on the research proposal, which includes an experimental plan, methods and procedures, expected results, and the significance of the work (2-5 pages).
  • Get authorized to enroll! Turn your Research Proposal Form and your Research Proposal in to the Biochemistry/Microbiology Undergraduate Advising Hub ( [email protected] ) this semester or by the end of the third week of class of your first semester of thesis work.
  • Enroll in BIOCHEM 681 or 691

Start of first semester of thesis work:

  • Turn in your Research Proposal Form and your Research Proposal to the Biochemistry/Microbiology Undergraduate Advising Hub ( [email protected] ) by the end of the third week of class.
  • Enroll in BIOCHEM 681 or 691 by the end of the third week of class, if you haven’t already.
  • Work on your thesis!

End of first semester and beginning of second semester of thesis work:

  • Enroll in the second semester of your Senior Thesis course (BIOCHEM 682 or 692). If you are not authorized to enroll, then contact the Biochemistry / Microbiology Undergraduate Advising Hub ( [email protected] ).​​​​
  • Your thesis advisor will issue you a “P” grade for “progress” for the first semester of thesis work. This is normal. The grade received for the second semester will automatically also apply to the first semester once it is issued.

Three weeks before end of second semester of thesis work:

  • Complete your thesis!
  • Have thesis advisor read your final thesis and sign your thesis cover sheet — the thesis advisor will then assign a grade electronically.
  • Submit one copy of the finished thesis with the signed cover sheet to the Biochemistry/Microbiology Undergraduate Advising Hub ( [email protected] ) before the end of the last week of class.
  • Note: Students in Honors programs may require earlier thesis submission and additional paperwork, depending on the program requirements and deadlines.

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Top 10 trending articles from Biochemical Society journals in 2023

News, Jan 10 2024

We’re delighted to share our 2023 report from Altmetric Explorer , which showcases the top 10 articles from across our journals , as ranked by Altmetric Attention Score . Taken from 1 January to 31 December 2023, our trending articles rank in the top 5% of all research outputs scored and include work on gut barrier integrity, Long Covid, Type 2 diabetes, and more.

Publishing with us enables authors to see first-hand the attention their work is gaining through integrated Altmetric data. Captured in the form of the Altmetric donut, Attention Scores indicate citations on Wikipedia, mainstream media coverage, mentions on social networks, discussions on research blogs, and many other online sources.

Top 10 trending articles

  • Restoration of the gut barrier integrity and restructuring of the gut microbiome in aging by angiotensin-(1–7)
  • Aetiology of Type 2 diabetes in people with a ‘normal’ body mass index: testing the personal fat threshold hypothesis
  • Are fibrinaloid microclots a cause of autoimmunity in Long Covid and other post-infection diseases?
  • Cyanobacterial membrane dynamics in the light of eukaryotic principles
  • A beginner’s guide to evidencing your teaching practice
  • Hallmarks of ageing in human skeletal muscle and implications for understanding the pathophysiology of sarcopenia in women and men
  • Mitochondrial DNA as inflammatory DAMP: a warning of an aging immune system?
  • Unboxing the treasure chest: tinkering proteins beyond the natural repertoire
  • By what molecular mechanisms do social determinants impact cardiometabolic risk?
  • A beginner's guide to supervising a PhD researcher

Read the report in full

Please note the information above captures articles published within the designated time period and is correct at the time of publishing; however, the full report captures live data and is therefore subject to change as articles continue to be discussed and gain attention online.

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New discovery reveals TRP14 is a crucial enzyme for cysteine metabolism, disease resistance

by Karolinska Institutet

New discovery reveals TRP14 is a crucial enzyme for cysteine metabolism, disease resistance

A new study recently published in The EMBO Journal by researchers from the Department of Medical Biochemistry and Biophysics at Karolinska Institutet (Sweden) in collaboration with several other research groups has brought the enzyme TRP14 (also called TXNDC17) into the spotlight, discovering its fundamental role in reduction of cystine to form cysteine, which is an essential process for various life forms.

The research team discovered that TRP14 (thioredoxin related protein of 14 kDa, also named TXNDC17 for thioredoxin domain containing 17) is the rate-limiting enzyme for intracellular cystine reduction, a critical step in providing cells with cysteine .

This amino acid is not only essential for protein synthesis but also for production of glutathione, the thiol-containing low molecular weight molecule present at high concentrations in cells providing reducing equivalents, supporting defense against oxidative damage and conjugation of toxic metabolites.

A once-mysterious enzyme gains notoriety

"For a long time, TRP14 didn't have a clear function assigned to it," says Dr. Martí-Andrés, the lead author of the study. "Our study not only clarifies its role in cysteine metabolism but can also help to explain its evolutionary conservation across species.

"I believe that our findings open up new paths for understanding how cells maintain their viability and protect themselves against oxidative stress."

The study also found that cells switch to the transsulfuration pathway when TRP14 is deficient, synthesizing cysteine from methionine and highlighting an adaptive mechanism to ensure cysteine availability.

Linking cysteine metabolism to disease

The findings seem to have broad biomedical implications. Genetic deletion of txndc17 in mice showed protection from inflammation during acute pancreatitis, suggesting a direct link between cysteine metabolism and disease.

"This could provide a foundation for novel strategies to treat diseases related to cysteine metabolism," remarks Prof. Arnér, one of the corresponding authors. "The protective effects observed in mice lacking TRP14 during acute pancreatitis are especially promising, as they could hint at new treatment principles for diseases linked to inflammation."

A multispecies investigation

The team's approach was comprehensive, spanning from worms to humans. "We used both genetic, pathophysiological, and biochemical methods to dissect TRP14's functions," explains Prof. Arnér. "Collectively, our findings in cell cultures and whole organisms like worms and mice were quite revealing."

In C. elegans, the absence of TRP14 affected growth and the ability to handle cellular stress. In mice, the enzyme's role in acute pancreatitis and its regulation of the proteome in the pancreas were evaluated. In human cells, TRP14 was identified as the rate-limiting enzyme involved in cystine reduction. The findings in these three animal species supported each other and gave a more comprehensive view of the cellular functions of TRP14.

Moving into the future

The implications of this research are potentially far-reaching, with TRP14 posed as a possible therapeutic target for pathophysiological conditions related to cysteine metabolism. The next steps may address a better understanding of TRP14's role in cell death pathways or drug responses, particularly in cancer therapy.

"The next step for us is to explore how we can apply our understanding of TRP14 to modulate the outcome of diverse cancer drug treatments," says Dr. Martí-Andrés. "Our goal is to bring this knowledge from the bench to the bedside, where it could potentially, in the end, make a real difference in patients' lives."

As the research continues, the collaboration between clinicians, computational chemists, and various experts should be crucial in potentially translating these findings into clinical applications.

"As we move forward, we're excited about the possibilities," Prof. Arnér reflects. "Could modulating TRP14 enhance the efficacy of different forms of chemotherapy or combat drug resistance? That's what we aim to find out."

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StatAnalytica

35+ Amazing Biochemistry Project Topics To Boost Your Skills

biochemistry project topics

Biochemistry is a rapidly-evolving field that has made incredible strides in understanding the molecular processes that underpin life. As such, there are a wealth of exciting and novel research projects available to students interested in pursuing a career in biochemistry.

In this blog, we’ll take a deep dive into some of the most cutting-edge biochemistry project topics that are currently being explored in labs around the world. We’ll explore everything from the latest techniques in synthetic biology and metabolic engineering to new drug design strategies, and discuss how these projects are helping to advance our understanding of the underlying biology.

What is Biochemistry?

Table of Contents

Biochemistry is the branch of science that studies the chemical processes and substances that occur within living organisms. It focuses on the chemical reactions and interactions that take place at the molecular level, including the structure and function of biomolecules such as proteins, carbohydrates, lipids, and nucleic acids.

Biochemists work to understand the mechanisms that govern the behavior of these biomolecules, and how they contribute to the overall functioning of living systems. They investigate everything from the synthesis and breakdown of complex biomolecules to the regulation of metabolic pathways and the interactions between different cellular components.

The knowledge gained from biochemistry research has numerous applications, including the development of new drugs and therapies, the design of new materials and biomolecules, and the optimization of industrial processes. Biochemistry also has important implications for understanding human health and disease, as many diseases are caused by abnormalities in biochemical processes.

On the other hand, if you face any difficulty in any type of assignment/homework, then do not worry you can get the best microbiology assignment help from us at an affordable price. You can also check nursing project topics .

Significance of Biochemistry Project Topics

Biochemistry projects are significant for a number of reasons, including:

Advancing scientific knowledge

Biochemistry projects provide opportunities for researchers to make new discoveries and gain a deeper understanding of the underlying biochemical mechanisms that govern living systems. This knowledge can be applied to a wide range of fields, from drug design to agriculture to environmental science.

Developing new technologies

Biochemistry projects often involve the development of new technologies and techniques, such as genetic engineering or protein synthesis. These technologies can have wide-ranging applications and may lead to the development of new products or processes.

Improving human health

Biochemistry projects can have a significant impact on human health by leading to the development of new drugs or therapies. For example, biochemists may investigate the molecular mechanisms underlying a particular disease and develop a drug that targets those mechanisms, leading to more effective treatments.

Addressing environmental challenges

Biochemistry projects can also be used to address environmental challenges, such as developing new methods for cleaning up pollutants or improving the efficiency of renewable energy sources.

Providing opportunities for education and career development

Biochemistry projects can provide valuable educational opportunities for students at all levels, from high school to graduate school. They can also lead to career opportunities in academia, industry, and government, as biochemists are in high demand in many fields.

6 Elements Of Biochemistry Project You Must Know

Biochemistry projects typically involve several key elements, including:

Background research

Before beginning a biochemistry project, it’s important to thoroughly research the topic to gain a solid understanding of the current state of knowledge in the field. This may involve reading scientific literature, attending lectures or seminars, and consulting with experts in the field.

Hypothesis development

Once background research is complete, researchers typically develop a hypothesis to guide their investigations. This hypothesis should be testable and based on the available evidence.

Experimental design

Biochemistry projects often involve conducting experiments to test the hypothesis. This may involve designing experiments to test the effects of different variables or to compare different treatments. Experimental design should be carefully thought out to ensure that the results are meaningful and informative.

Data collection and analysis

Once experiments are underway, data must be collected and analyzed to determine whether the hypothesis is supported or not. This may involve using statistical methods to analyze data and draw conclusions from the results.

Conclusion and interpretation

After the data is analyzed, researchers must draw conclusions from the results and interpret what they mean in the context of the hypothesis. This may involve developing new hypotheses or refining existing ones based on the results.

Communication

Finally, biochemistry projects typically involve communicating the results to others. This may involve writing a scientific paper, giving a presentation at a conference or seminar, or publishing findings in a scientific journal. Effective communication is critical to ensure that the results are understood and can be used to inform future research.

How to Choose Biochemistry Project Topics

Choosing a biochemistry project topic can be challenging, but there are several strategies you can use to identify a promising area of investigation. Here are a few tips:

Identify your interests

Start by thinking about the areas of biochemistry that interest you the most. This could be anything from protein synthesis to metabolic pathways to genetic engineering. By focusing on an area of interest, you are more likely to be motivated and engaged throughout the project.

Consider current research

Look at the latest research in biochemistry to identify areas that are currently being investigated. This can help you identify areas where there is a gap in knowledge or where new techniques or technologies are being developed.

Identify a research question

Once you have identified an area of interest, develop a research question that can guide your investigation. This should be a clear and specific question that can be answered through experimentation or analysis of existing data.

Consult with your advisor

T alk to your advisor or a mentor in the field to get their input on potential project topics. They may be able to provide valuable insights into areas that are particularly promising or areas where there is a need for further investigation.

Consider practical considerations

Finally, consider practical considerations such as the availability of resources or the feasibility of conducting experiments in a particular area. You want to choose a project topic that is challenging but achievable given the time and resources available.

Here in this section we will explain more than 35 biochemistry project topics that will boost your skills which are as follows:

Protein folding and misfolding

Investigating the molecular mechanisms underlying protein folding and misfolding, and how this can lead to diseases such as Alzheimer’s and Parkinson’s.

Enzyme kinetics

Studying the kinetics of enzyme-catalyzed reactions, and how factors such as temperature and pH affect enzyme activity.

Metabolic pathways

Investigating the regulation of metabolic pathways in living systems, and how this can be used to develop new drugs or therapies.

Lipid metabolism

Exploring the mechanisms underlying lipid metabolism, including the synthesis and breakdown of lipids, and how this relates to metabolic disorders such as obesity and diabetes.

Molecular imaging

Developing new methods for visualizing molecules and molecular processes in living systems, including the use of fluorescent tags and advanced microscopy techniques.

Studying the function and regulation of proteins on a large scale, including the use of mass spectrometry to identify and quantify proteins in complex mixtures.

DNA damage and repair

Investigating the molecular mechanisms underlying DNA damage and repair, and how this relates to cancer and other diseases.

Genetic engineering

Developing new methods for manipulating genes and genomes, including the use of CRISPR-Cas9 and other genome editing technologies.

Glycobiology

Studying the structure and function of carbohydrates and their role in biological processes, including the development of new glycan-based therapies.

Investigating the physical properties of biological molecules and their interactions, including the use of techniques such as X-ray crystallography and nuclear magnetic resonance (NMR) spectroscopy.

Bioinformatics

Developing new computational methods for analyzing biological data, including the use of machine learning and other artificial intelligence techniques.

RNA biology

Studying the structure and function of RNA molecules, including their role in gene expression and regulation.

Cell signaling

Investigating the molecular mechanisms underlying cell signaling pathways, and how these pathways can be manipulated to treat diseases.

Cancer metabolism

Exploring the metabolic changes that occur in cancer cells, and how these changes can be targeted for therapy.

Drug discovery

Developing new drugs and therapies based on a better understanding of biological processes and molecular mechanisms.

Biomaterials

Developing new materials for use in biomedical applications, including drug delivery, tissue engineering, and biosensors.

Studying the metabolic pathways involved in energy production in living systems, including the development of new methods for producing biofuels.

Protein-protein interactions

Investigating the molecular mechanisms underlying protein-protein interactions, and how these interactions can be manipulated for therapeutic purposes.

Mitochondrial biology

Studying the function and regulation of mitochondria, including their role in energy production and metabolism.

Nanobiotechnology

Developing new nanoscale materials and devices for use in biological applications, including drug delivery and sensing.

Structural biology

Investigating the structure and function of biological molecules at the atomic level, including the use of X-ray crystallography and cryo-electron microscopy.

Biochemistry of aging

Exploring the molecular mechanisms underlying aging and age-related diseases, and how these processes can be targeted for therapeutic interventions.

Protein engineering

Developing new methods for engineering proteins with specific functions or properties, including the use of directed evolution and computational design.

Plant biochemistry

Studying the biochemical processes that occur in plants, including photosynthesis, respiration, and secondary metabolite biosynthesis.

Biomolecular simulations

Using computational simulations to model and predict the behavior of biological molecules and systems.

Drug metabolism

Investigating the metabolic pathways involved in drug metabolism, including the role of enzymes such as cytochrome P450, and how this can affect drug efficacy and toxicity.

Epigenetics

Studying the mechanisms by which gene expression is regulated, including the role of epigenetic modifications such as DNA methylation and histone acetylation.

Synthetic biology

Developing new biological systems or organisms with specific functions, including the engineering of biosensors, bioreactors, and biocomputers.

Neurochemistry

Investigating the chemical processes that occur in the nervous system, including the mechanisms underlying neurotransmitter synthesis and release.

Environmental biochemistry

Studying the biochemical processes that occur in the environment, including bioremediation, nutrient cycling, and the degradation of pollutants.

Membrane biochemistry

Investigating the structure and function of biological membranes, including the transport of molecules across membranes and the role of membrane proteins.

Studying the molecular mechanisms underlying the immune system, including the production and function of antibodies and the role of cytokines and chemokines in immune response.

Microbial biochemistry

Investigating the biochemistry of microorganisms, including their metabolism, growth, and adaptation to different environments.

Metabolomics

Studying the metabolic profile of biological systems, including the use of mass spectrometry and other analytical techniques to identify and quantify metabolites.

Nutritional biochemistry

Investigating the role of nutrients and other dietary factors in human health and disease, including the metabolism of macronutrients such as carbohydrates, fats, and proteins.

Enzyme engineering

Developing new methods for engineering enzymes with specific functions or properties, including the use of directed evolution and protein engineering techniques.

Metalloprotein biochemistry

Studying the role of metal ions in biological processes, including the function of metalloproteins such as hemoglobin, myoglobin, and cytochrome c.

These are just a few examples of the many potential biochemistry project topics. The field of biochemistry is vast and constantly evolving, offering many exciting avenues for investigation and discovery. The key is to identify an area of interest and develop a research question that can guide your investigation.

What To Consider When Choosing Biochemistry Project Topics

When choosing a biochemistry project topic, there are several factors to consider. Here are a few things to keep in mind:

Your interests

Choose a topic that you find interesting and engaging. This will help keep you motivated throughout the project and ensure that you enjoy the research process.

Feasibility

Consider the feasibility of your project in terms of time, resources, and equipment. Make sure that you have access to the necessary materials and equipment, and that you have enough time to complete the project within your timeframe.

Choose a topic that has not been extensively studied before, or one that builds on previous research in a new and innovative way. This will help your project stand out and contribute to the field of biochemistry.

Choose a topic that is relevant to current issues in the field of biochemistry, such as emerging research trends or topics of public health importance.

Collaborations

Consider opportunities for collaboration with other researchers or organizations in the field. Collaborations can enhance your project and provide new perspectives on your research question.

Ethical considerations

Consider ethical issues related to your project, such as the use of human or animal subjects, and ensure that your research follows ethical guidelines and regulations.

How To Make Your Biochemistry Project Worth It

Making your biochemistry project worth it involves several key steps:

Set clear goals

Identify the specific goals and objectives of your project, and ensure that they align with your research question and hypothesis. This will help keep your project focused and ensure that you are making progress towards a specific outcome.

Develop a solid research plan

Create a detailed research plan that outlines the methods and techniques you will use to gather data, analyze results, and draw conclusions. This will help ensure that your project is well-structured and that you are collecting high-quality data.

Utilize appropriate methods and techniques

Use appropriate methods and techniques for data collection and analysis that are relevant to your research question. This will help ensure that your results are reliable and accurate.

Collaborate with other researchers

Communicate your findings.

Communicate your research findings effectively through scientific publications, presentations, or other forms of outreach. This will help ensure that your research has a broader impact and contributes to the field of biochemistry.

Reflect on your experience

Reflect on your research experience and identify areas for improvement or future research questions. This will help ensure that your project has lasting value and can inform future research in the field.

This is the end of this post which is about Biochemistry Project Topics. On the other hand, undertaking a biochemistry project is an excellent opportunity for students to gain valuable experience in scientific research and contribute to the field of biochemistry. 

By selecting the right project topic, developing a solid research plan, and effectively communicating your findings, you can make a meaningful contribution to the field and enhance your skills and knowledge in biochemistry. Furthermore, in this post we mentioned more than 35 Biochemistry Project Topics so that you can enhance your skills.

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a research topic in biochemistry

290 RESEARCH TOPICS FOR BIOCHEMISTRY

The research areas in biochemistry require the use of samples and specimens to produce the desired outcomes. Before being approved, a title in this field should begin with a plan that outlines the types of research that the study will ultimately produce. Project coordinators or supervisors should scrutinize the topics students pick without exception. So, the topic ideas should be derived from careful cross-examination of specimens from samples and research that researchers have been watching for a while.

WHAT IS BIOCHEMISTRY?

As the name suggests, biochemistry is the combination of biology and chemistry in living organisms. It is impossible to overstate the importance of biochemistry since it provides the reasons behind illnesses both in humans and animals. Additionally, biochemistry continues to assist scientists and researchers in discovering how vitamins and proteins function in the human body.

Writing great essays in the field of biochemistry requires impressive knowledge and knowledge of science. The internet is a boon as it has plenty of resources and materials which students can use to research their subjects. But, they must select their subjects carefully and format the papers correctly to impress instructors to give them the highest grades.

BIOCHEMISTRY PAPER OUTLINE

A quality biochemistry paper includes various sections that help readers to comprehend the subject matter and the details. Here's an outline for the best biochemistry papers.

  • Title page: The title page appears first in research papers and provides a summary of the research. The page should include the paper's running head, title, the student's name and affiliations, as well as the page numbers. Students should design this page according to their writing style, which could be they are using MLA or APA and Chicago.
  • Introduction: The introduction section is the 2nd section of biochemistry research papers. This section should include an abstract as well as an introduction. This section, however, puts the study in context for readers. The article also explains to the reader why the study is important.
  • The literature review part is where the student reviews the resources they used in their research. A great paper will include an extensive assessment that shows that the writer has read a variety of publications on the subject. It also clarifies how the present study is significant and distinct.
  • Methodology, The writer discusses their methods of collecting and evaluating the information they provide to the public. This is important because it permits the audience to judge the quality of the study. Researchers may employ research, observation or case studies as well as documentary techniques in their research.
  • Discussion and analysis Discussion and analysis: In this part, the writer outlines the findings of their research. They also explain their method of research. The table can contain figures and tables that are simple to comprehend and precise.
  • Conclusion: This section of a biochemistry report summarizes the findings while suggesting more research on the subject.
  • Reference The following section lists sources that the author consulted in the course of his research. A bibliography helps make the work genuine.

University and college students have to select interesting topics to be able to thoroughly enjoy the research assignments they are working on. Without exciting topics, students may struggle to complete their assignments from beginning to final. This article will provide the top and popular topics in this area. It is important to remember you have the option to purchase a dissertation on a custom basis with our expert helpers.

REMARKABLE BIOCHEMISTRY RESEARCH PAPER TOPICS

  • Can watermelon be of help in fighting viral activity?
  • Discuss how Ethanol can cause corrosion.
  • How do scientists extract the therapeutic constituents of plants
  • Taxonomic groups' roles in biochemistry
  • Examining the fungal pathogens associated with the spoilage of tomatoes by
  • The effects of Cadmium's toxicity on humans as well as the environment
  • The optimal conditions for Ethanol and extracts from aqueous solutions
  • How does fluoride-rich water affect your teeth
  • What impact does acid rain have on the structure of buildings?
  • The process of extracting methanol leaves
  • How high-fat diets can cause heart disease and overweight
  • The concepts of analytical biochemistry
  • Biotechnology and applied biochemistryWhat's the relationship between them?
  • Use pawpaw leaves to create deodorants
  • The active gels polarize spontaneously flow and causes
  • Examining gene codes in sorghum and cassava
  • Lysosomes are the main cause of destabilization.
  • Evaluation of physicochemical processes within living organisms
  • Finding conditions that aid Thymus Vulgaris's antibacterial properties

INTERESTING BIOCHEMISTRY TOPICS

  • Complete analysis of the evolution of infectious diseases' biology
  • Photosynthesis and the functions it serves
  • Monitoring plant diseases using the latest technology
  • How does oxytocin impact psychopathic illness treatment?
  • Examining the causes of genetic mutation
  • What addictive substances impact the human gene pool?
  • The living and the cell structure of their cells
  • The growth of cellular technology
  • Gestation period and its role in mammals
  • Cellular biology plays a role in the recognition and identification of genetics.
  • Investigating chemical reactions within the body by using hormones
  • Alzheimer's disease and the latest advances in the treatment of it
  • The stem cell biology regulatory mechanisms of cell biology
  • The cancerous cells and their biochemistry
  • Genetic mapping and Linkage Analysis
  • The structure of nucleic acid
  • Epidemiology and Coronavirus
  • Cellular membranes' roles and the role they play in living forms
  • Investigating the abilities of prokaryotic as well as Eukaryotic cells
  • Investigating the role of apoptosis in damaged cells' growth
  • Understanding the role played by itaconic acid from microbial sources and the production of fungi.
  • Investigating the relationship between NDR1/2 and MOBs in the signalling of a damaged cell cycle
  • The documentation and mapping of the signalling pathways for morphogens and the controlling biological responses
  • Immunizations and diseases: Understanding the B cell receptors that target
  • Bacteriophages and the health of humans
  • Microbial biofilm formation - Molecular mechanisms of therapeutics
  • Comparing the folding and design of proteins between mice and humans
  • Examining the development of microbial illnesses
  • The importance of structural factors of human health is a function of proteins.
  • Examining the ion transport process as well as membrane biochemistry in the innate immune response
  • What is the role of proteins in protein membranes, and how do they influence the distribution of drugs?
  • Why is the protein-membrane design vital?
  • Cellular base and mapping biochemical glucose transport that is associated with resistance to insulin and the insulin action
  • Understanding the role of protein structure and peptides in membranes
  • The basis of platelet function and dysfunction in injuries
  • Knowing how Sprouty 2 inhibition impacts periodontal ligament cells
  • The placental toxic factor's release can affect the circulation of blood.
  • The amount of protein in the urine
  • How does maternal serum affect pregnant women?
  • Assessing the pathogenesis of diabetes and the impact it has on patients
  • What is the reason for iron homeostasis regulation?
  • The connection between high Hepcidin levels and T2DM
  • Biochemistry research has aided the treatment of cardiovascular diseases.
  • Indications that can cause insulin resistance in the body
  • How to detect Mycobacterium ulcerans in the face
  • Repository for biological catalysts in the environment and enzymes
  • The dangers of lab biochemistry research
  • The impact of environmental conditions on laboratory extracts
  • Analyzing alkaloidal isolates of plants
  • Examining anti-inflammatory medicinal plants in tropical regions
  • Examining the pro-inflammatory effects of eicosanoids
  • Plants that are anti-inflammatory- Understanding their therapeutic actions
  • What herbal remedies influence skin disease treatment
  • Stabilizing Lysozyme activity
  • What temperature variations influence the activity of enzymes?
  • Alpha crystalline role in a concentration

CURRENT TOPICS IN BIOCHEMICAL RESEARCH

  • Examining the role of peptides and protein functions in membranes
  • The impact of the biological process on periodontal ligament cells
  • An analysis critical of microbes' infections" evolution
  • Learn about the regulatory mechanisms of genetics
  • B cells are the receptors for the development of vaccines and diseases.
  • The pathology and biology of cancer
  • What is the process that regulates the number of cells?
  • The factors that scientists consider when determining the introduction of new drugs to the patient
  • Phenolic acid and its effects in vitro
  • Examining the impact of maternal serum on pregnant women and children
  • The effects of alkaloidal isolates on plants
  • Chemical compositional impacts of potassium permanganate
  • Initial investigation of Citrus Sinensis Seeds and Coat screening
  • Metalloenzymes and metalloproteins The difference
  • Quantity of Aspirin Chemical Analysis
  • Investigating Polyphosphate role in Erwinia Caratovora Virulence
  • Examining the human genome mapping and its effect on the prevention of disease
  • The importance of information in determining the protein dihedral angles
  • Central dogma exceptions
  • Examining the function and structure of amino acids.
  • Protein Kinase is a key factor in fighting cancer and resistance to drugs.
  • Biology of malignancies and skeletal issues
  • Investigating the function and structure of cells
  • Biology and pathology of cancer
  • Biology and coagulation diseases
  • Understanding the physical biochemistry
  • Intestinal microbes - What is their role in human health and illness
  • Research and development of chemical compounds that target pancreatic, colon, and lung cancers.
  • Utilizing microarray technology to describe P623 and the P73 gene regulation in cancer
  • The genetics of cancerous molecules The understanding of the method of genomics that is used for studies on gene expression and associations
  • Lipid metabolism in metabolic and mitochondrial diseases
  • Epigenetic and genetic regulatory mechanisms
  • Functional nucleic acids and protein interactions
  • Enzymology and structural biology
  • Understanding the measles epidemic in infants as well as biochemistry-based vaccines
  • The role of biochemistry in controlling cell movement in various developmental stages
  • What is the reason why medical exams that scan serum and microscopy play a role in biochemistry?
  • What are the different brain cancers that relate to radiation exposure and genetics?
  • How can plant extracts be preserved for biochemistry research?
  • The role of biochemical-based rotavirus vaccinations in the acute gastroenteritis of children
  • Explain the trial stages of vaccination reactions and the importance of biochemistry to achieve the desired outcomes
  • How do amino acids and hydrocarbons impact biochemical reactions when subjecting the human body to medications?
  • Biochemistry research's primary goal is the development of methods to initiate the development of new treatments for patients.
  • The chemical components of COVID-19 vaccines and the reactions they cause both in females and males

COOL BIOCHEMISTRY TOPICS

  • The Immunoglobulin G Receptors and the role they play in a study on clinical malaria
  • The process and effects that destabilize Lysozyme activity
  • The movement of chemical energy through metabolism
  • Phosphate structure is the primary process for the synthesis of alcohol.
  • Membranes of bacteria and their dynamics
  • DNA synthesis is a complex process within the definition
  • Assessing the chemical purity of Aspirin production
  • A thorough examination of the hepatitis B prevalence
  • A brief overview of the Amyloid disease
  • Genetics of molecular and muscular dystrophy research
  • Examining the most recent medication for high blood pressure
  • How do variant frequencies impact biochemical reactions?
  • Define the effect of phenolic acids' in vitro effects
  • What blocks cell growth by interfering with the activity of iron-dependent enzymes?
  • Discuss ways to determine the presence of iron Chelators deferoxamine in Trypanosoma Brunei
  • Alternative therapies to drugs toxicity
  • Analyzing drug resistance in pregnancies of women
  • How do clinicians assess a drug's effectiveness?
  • Iron Chelators' effects' effects on various forms of Trypanosoma Brunei's bloodstream
  • Define what you know about Rotaviruses' function in the genesis of acute gastroenteritis among children.
  • Understanding the biological mechanisms involved in the inflammation of the intestinal mucosa
  • Methods to study gene variation
  • Analyzing the toxicological impact of Desmodium Adscendens
  • How can high freeze-dried extracts impact biochemical reactions?
  • The pathogenic risk that scientists link with breast cancer
  • Examining the multi-factorial illnesses that affect females
  • The factors that promote the biological causes of the growth of tumours
  • Evaluation of an immunoglobulin G receptors' contribution to the clinical malaria study
  • The determination of the binding abilities of the receptor's antigen
  • The gene encoder process for receptors' biochemical perspective

HOT TOPICS IN BIOCHEMISTRY

  • Proteins with non-enzymatic and enzymatic roles
  • The Stability, Interactions, and structure of the protein
  • How effective is the role of population health in improving overall health outcomes for emerging countries?
  • Are there any risk factors for amyloid-related disease?
  • Describe protein quantification
  • Definition of frequency modulation, controlled signalling and control
  • The possibilities and challenges of recombinant spider silk, as well as its implications for biomedical applications
  • Utilization of biomedical techniques by athletes in search of unfair advantages
  • Human genome mapping is a way to impact medicine and society.
  • Examining biochemistry developments and their impact on the development of new medicines
  • Examining the structure and reactions of esters and phosphates as well as their syntheses
  • Expression and purification of protein responses at various ENTH levels
  • Evidence to support or disprove animal models of animal diseases and the scientific value in seeking out cures for diseases
  • Examining B lymphocyte cell lines and aggregation based on the sensitivity to temperature and chicken
  • The impact of polyphosphate on Erwinia caratovora's virulence
  • Cellular dissection and the role of Molecular Functions in the most current high blood pressure medication
  • Comparing biochemical research over the past century
  • Analyzing DNA complexes for synthesis within the sense of
  • Investigating molecular genetics in one causative gene and muscular dystrophy.
  • The study of the biochemical secrets of complex compounds during DNA mapping study DNA mapping study
  • Detecting soft tissue sarcoma
  • How do you determine the structure of new clotting factors?
  • How can you determine the presence of enzymes in selenium?
  • Chemical compositions of Ethanol, as well as their effects on human lungs and liver
  • Metals with rusting and chemical properties
  • The role of alpha-crystalline in concentration
  • Why iron homeostasis needs regulation
  • Examining the atomic matrix of RNA
  • What exactly is RNA transcription?
  • The biology of Coagulation Disease

TOPICS FOR BIOCHEMISTRY SCIENCE FAIR PROJECTS

  • An electrolysis experiment
  • How do you grow and utilize bacteria
  • Separating compound mixtures and the impact they have on
  • Hard and soft water from the impact
  • Investigating different methods to put out flames with no water
  • How does temperature affect the density of various liquids as well as their volume
  • The role and effects of Ethanol in erosion
  • The impact and importance the salt has on melting point
  • Evaluating gasoline properties
  • Examining structures of enzymes
  • Anti-tumour agents and their designs
  • The forms of x-rays of the iron-binding protein
  • The biochemistry of the body and the enzymes that are required
  • The detection of invisible spills is done by using backlight
  • How do ultraviolet radiations affect the growth of bacteria
  • Plants crossbreeding
  • What effects can smock pollution have on the rate of transpiration in plants
  • The DNA-protein complexes and their function in replication
  • How do Ph and mineral concentrations impact the soil and water samples?
  • The sunspots' influence on the weather patterns

EASY BIOCHEMISTRY RESEARCH TOPICS LIST

  • How do prokaryotic and eukaryotic cells produce energy?
  • The function of sunlight as cells' energy source
  • Monitoring cell membranes and protecting mechanisms found in living cells
  • Why analyzing defective cells' impact is vital.
  • Studying genetic materials' role in differentiating cells
  • The structure of organisms and their physiological characteristics
  • Understanding cell's composition and function
  • What happens to the cells affected by cancer? growth
  • Recent developments in molecular biochemistry
  • The role of microtubules in the nervous system.
  • Protein biosynthesis mechanics

BIOCHEMISTRY RESEARCH FOR STUDENTS (PREPARATION AND IDEAS)

  • Function and structure of different body cells.
  • Biochemical reactions in humans as well as plants.
  • Living organisms have a tendency to inherit.
  • The pharmacology of pharmacognosy and the pharmacognosy.
  • DNA and proteins in both animals and plants.
  • The molecular nature of all bio-molecules.
  • Micro-organisms.
  • Thermodynamics, bioenergetics, and enzymes.

INTERESTING TOPICS IN BIOCHEMISTRY

  • Membrane biology, as well as ion transport processes in the immune system's natural response.
  • Inhibition of the sprouty2 gene in periodontal ligament cells and their numerous biological impacts.
  • Protein structure and peptides in membranes: what roles are they playing in cell membrane development?
  • Understanding the development of microbial infections as well as their impacts in the current environment.
  • The role played by B cell receptors in the process of preventing infections and the production of vaccines.
  • The health of the human body and bacteria from different types: How they are related.
  • AN study of biofilm formation from therapeutics to the molecular mechanism and everything in between.
  • Close comparison and analysis of the nucleic acid (DNA and RNA) in mice and in humans.
  • Understanding the connection between mob-based mob proteins and NDR1/2 in the signalling of cell cycle damage.

BIOCHEMISTRY TOPICS FOR PRESENTATION

  • An understanding that is progressive of the immune system of humans and the role that it plays in the regeneration of cells after an infection.
  • An in-depth analysis of various plant diseases with a concentration on phytochemicals and their functions.
  • A closer look at the biochemical pathway that triggers apoptosis in patients suffering from stage IV breast cancer.
  • Understanding the intimate relationship to practice the fields of pathological and biochemical psychiatry.
  • Understanding the various types of polymorphism and how they impact human DNA.
  • The way that children's hormones are formed depends on the environment as well as the child's health conditions.
  • The significance of human cloning is in the creation and consumption of different kinds of vaccines.
  • The relation between human molecular adaptation and diet. Does diet have a role to play?
  • Understanding the way biological processes depend on the functions of the central nervous system of humans.
  • Comparative study of the mouse and the human circulation system functioning susceptibility, capacity and other characteristics.
  • How breast cancer detection by professionals and screening are improving the lives of college students.
  • The revolution in methods for clearing tissue in optical microscopy has been evident over the last five years.
  • Clinical signs and symptoms that indicate acute poisoning with copper, and the significance of biochemistry in the management interventions.
  • Malt's role in varying beer quality and its effects on the stability of beer The role of industrial biochemistry in the production of beer.
  • Liquid-state and solid-state fermentations in the manufacturing of biochemical supplements for animals and humans.
  • Controlled mixed fermentation, as seen in the production of pharmaceutical products throughout time and in the current norm.
  • The role of polyphosphate in its virulence Erwinia caratovora bacteria within different plants.
  • A thorough review of the major aspects of biochemical research at the university and college levels over the last 50 years.
  • Genetic analysis of molecular genes and its connection to muscular dystrophy among men and women.
  • The evidence is in supports the growth and development of children in countries that use genetically modified organisms as food products.

PROJECT TOPICS FOR BIOCHEMISTRY

  • Obesity and breast cancer in women who are younger A clinical study from a biochemistry standpoint.
  • Understanding the biochemistry of biomolecules, amino acids, and their application to the development of supplements and pharmaceuticals.
  • Artificial Intelligence: The future and its significance to biochemistry: the gradual shifts that have been observed over the past four years.
  • Understanding the stability of 81 analytes in serum, blood and plasma in the course of the diagnosis of clinical biochemistry set-up.
  • Biochemistry in clinical practice and the importance it plays in modern medicine for humans.
  • The liver function tests are being transformed by using new biochemistry diagnostic instruments and techniques for making things outcome-oriented
  • The importance of clinical biochemistry in aiding us in understanding how the immune system of humans works.
  • Understanding and redefining what is the function of human bones: Biochemistry is changing the story regarding the predisposition of human bones.
  • A thorough analysis of biochemistry in the clinic during pregnancy. Tests associated with pregnancy and the early development of children.
  • The growth of clinical biochemistry in the modern era, from an introduction to the chemistry of life to the foundation of infections and treatments for disease.

BIOCHEMISTRY RESEARCH TOPICS FOR UNDERGRADUATES

  • Food spoilage is caused by microbes, the resulting diseases, and the most efficient biochemistry control method to take advantage of.
  • Examining the comparative levels of serum calcium in males by using biochemistry testing methods.
  • Analyzing the phytochemical properties of particular tomato products on the market to ensure the security of the public's health.
  • The oxidative stress levels of mice fed the oil-bean seed meal confirm that the same can be said for biological processes in humans.
  • The biochemical production process of the best bar soap compares to the vast majority of detergents on the market at present.
  • How can we reduce the health hazards caused by lead in water that is consumed by the majority of universities?
  • Critical study of Pterocarpus mildbreadii (oha) seeds A thorough phytochemical review.
  • How can you utilize biochemistry synthesis pathways in order to produce a compound which blocks reactions from taking place?
  • The evaluation of the components of bacteria produced by a pure starter culture in an experimental biochemistry lab.
  • What's the bacteriological grade of the meat products sold in the majority of butcheries around town?

MCAT BIOCHEMISTRY TOPICS

  • The application of mathematical concepts as well as techniques in biochemistry and their use in general medical practice.
  • The way catabolic and anabolic enzymes can contribute to the cell's functionality The reasoning of enzymes is based on data as well as graphic representations.
  • The physical and chemical basis of biological systems aids us in understanding the human anatomy.
  • How can critical thinking and analysis skills develop in biochemistry play a major part in medical schools?
  • What are the biosynthetic pathways that can be used in conjunction with the cycle of citric acid as well as glycolysis to affect the human body's health and function?
  • An examination of the psychological, social and biological basis of behaviour in relation to biomolecules of the human body.
  • Understanding the biochemical roots of the human mind.
  • Critical analysis of biochemistry study areas and how they impact the field of medicine.
  • Understanding the connection between Omega-3 fats and the blood glucose level in adults.
  • How do fruits and vegetables affect blood sugar in patients suffering from diabetes: biochemical processes and mechanism.

POPULAR BIOCHEMISTRY RESEARCH PAPER TOPICS

  • What happens to the flow of energy through human cells through metabolism?
  • Understanding the chemical processes that are the most fundamental and their intimate connection to the functioning that living cells have.
  • Biotechnology and molecular biology continue to revolutionize botany and genetics in the current world.
  • What has the Coronavirus done to the research or application of biochemistry over the past year?
  • What are bleaching agents commonly used? How do they affect human skin, and what biochemistry treatments that can solve the problem one-for-all?
  • How can laboratory and medical-based practical exercises help students learn more about biochemistry?
  • How can factories harness biochemistry to achieve the goal of renewable energy for cities and urban areas that are crowded?
  • What biochemical functions are involved in drug manufacturing and testing? Control and quality assurance for pharmaceuticals.
  • Analyzing and discussing the chemical characteristics of carbohydrates in the energy formulation.
  • What are the factors that trigger the beta-oxidation of fatty acids? Fatty acids as super-fuel within the human body.

CURRENT BIOCHEMISTRY TOPICS

  • What are the effects of amino acids affect biochemical reactions when a human body is subjected to medications?
  • The biochemistry research field is promising in creating the most efficient methods of starting new medicines for patients.
  • Understanding the chemical properties and the reactions they cause in women and men.
  • Explaining the various reactions that vaccines can cause during the trial phase and how biochemistry can help in achieving the desired level of effectiveness for vaccines.
  • What is the role of biochemically-developed rotavirus vaccines in the treatment of acute gastroenteritis in infants?
  • How do you most effectively preserve extracts of plants for biochemistry research? Research in biochemistry and plant biochemistry.
  • The connection between various types of brain cancer is related to radioactivity and the genetic cause.
  • Understanding the measles outbreak among infants as well as the best biochemistry-based vaccine
  • The role played by biochemistry in controlling cell motility at different phases of development.
  • Microscopy's role in scanning and medical exams in biochemistry.

Frequently asked questions

Which topic is best for research in biochemistry .

Top Biochemistry Research Topics.

The following case report describes pregnancy, diabetes insipidus, and adrenal insufficiency following surgical treatment for clinically non-functioning pituitary adenoma.

Acute Copper Sulphate Poisoning Clinical Features.

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What are the topics under biochemistry ?

What are the areas of research in biochemistry .

Principal Research Areas.

  • Science of cancer.
  • experimental medicine.
  • Information technology and systems biology.
  • Biology and enzymology in structural.
  • Metabolism and nutrition.
  • Genetics, nucleic acid chemistry, and chromatin biology.
  • Neurobiochemistry and Neurobiology.

What are the top 10 research topics ?

The top 07 research areas for 2022.

  • a contagious illness.
  • nutrition-based immunity.
  • music treatment
  • false information in politics.
  • science of plants.
  • sustainable farming.
  • mental well-being

What is the best topic for research paper ?

Other Outstanding Research Paper Subjects

  • Technology.
  • societal media
  • social problems
  • Environment.

What is the best source of research topics ?

A fantastic place to get in-depth, up-to-date information on a subject is scholarly publications. You can try looking for more particular themes because scholarly articles have a more focused emphasis than novels.

Where can I find topics for research ?

Which is the best field in biochemistry .

career options for those with a biochemistry degree.

  • Technician in forensic science.
  • forensic expert.
  • Chemical engineering.
  • Professor of Biochemistry
  • Biochemist.
  • medical researcher.
  • study scientist.

What are the 5 areas of research ?

Five Fundamental Research Study Types

  • Case analyses.
  • correlative research.
  • Long-term research.
  • Experimental Research.

What is the main focus of biochemistry today ?

a research topic in biochemistry

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Top Research Topics in Biochemistry

As we all know there are lots of chemical reactions going on within the body of living organisms. The study of these chemical reactions is called biochemistry. It is the combination of biology and chemistry is sometimes called as biological chemistry. It involves all the chemical processes that go on in living organisms.

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At present all over the world several researches are being conducted in the field of biochemistry, with some are far-reaching and some are more specified. Therefore, while choosing a topic for research in biochemistry it is good to select a broad topic and apply it to a narrow or inter punitive focus. Here are few topics which can be taken into consideration for research in biochemistry.

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The Hitchhiker’s Guide to Research in Clinical Biochemistry

Introduction.

Research within Clinical Biochemistry is at a crossroads. There is currently a degree of navel gazing about what the future academic direction for our profession should be. However, our speciality is distinctive in many ways: it occupies a unique position in medicine at the interface between laboratory testing and clinical diagnosis; we have a closer understanding of the concepts and limitations of diagnostic testing than most others in medicine; we have a history of being at the forefront of using information technology within healthcare; we are also probably a self-selected group whose abilities include being able to rigorously evaluate complex sets of data and then to draw conclusions.

Taken together, these talents mean our discipline should be integral to the development of ‘evidence-based’ medicine and be central in converting research findings into clinical practice, as is now called ‘translational research’. With some lateral thinking we can also help answer some of the fundamental questions related to Clinical Biochemistry and within the many specialities with whom we liaise.

This article gives a personal view of how anyone, whether in an academic centre or not, can make valuable research contributions to Clinical Biochemistry without having to assume they need large funding beforehand. Rather, they just need an inquisitive mind and an enjoyment of the speciality. A number of examples are given of my own experience, but the intention is just to be illustrative rather than to bolster my ego or my number of citations.

Why Do Research?

We are often told that research is a central part of our jobs, as it is for any healthcare professional, without usually understanding why or how it can possibly be achieved. The author of this article has certainly not always been enamoured with the thought of doing research. As a medical student, I could not understand why someone would wish to devote so much time to get, at best, a single line in a textbook written about their work.

But I was missing the point. To be thefirsthuman to have thought of an idea, no matter how unimportant, and have found a way of answering a research question is very satisfying personally. Indeed the satisfaction is often completely disproportionate to the achievement made. In addition, any employing institution is also likely to be pleased by the profile given to the organisation. However, beyond self-satisfaction, we need to remember that the main purpose of the research is that we may actually report on something which will help - either directly or indirectly - the patients that we look after.

When applying for my first medical student scepticism, why research seemed to be such an important part of a curriculum vitae. Should doing your current job, and doing it well, I thought, not be sufficient on its own? Having sat on the other side of the interview table several times I have finally been able to answer my own question. A research record is one way of marking someone out as being able to develop ideas, to formulate these ideas into plans and to be able to express their thoughts clearly. It means they are likely to be a good communicator (in writing, at least), a finisher of tasks and probably a good teamworker. Also, since research can seldom be done solely during working hours, and assuming they are not deficient in their day job, it also distinguishes them as someone who probably works harder than most. Lastly, as we would all wish to have colleagues we know we can work with, a research record just might indicate that the candidate is a likeminded person.

Of course, all these qualities can be demonstrated in ways other than through research, but I think I now understand why achievement in this area was as valued as it was.

Rules of Research

If research can be satisfying, important and probably only of help in career progression then it follows that there should be equal exposure to it. However, not everyone works in a centre of academic excellence where there is a culture of research, so it is not always obvious how to even start to be involved. In this case I would recommend following what I’ve modestly called ‘Kilpatrick’s Seven Rules of Research’ ( Table ). The following gives some examples of how some of these ‘rules’ can be put into practice.

Kilpatrick’s Seven Rules of Research.

Don’t be Afraid of Asking Daft Questions

Simply because they are probably not daft after all. ‘Daft’ questions are also often the ones that vex people who are even specialists in that area of the laboratory. When I first started to develop an interest in diabetes, the glucose test strip market was beginning to burgeon with glucose oxidase-based meters. I asked the simple question ‘where does the oxygen come from?’, by which I meant, did the enzyme use oxygen from the atmosphere or from the blood sample itself? Trying to think laterally, there then followed plenty of tinkering with rubber tubing to connect a Boyle’s anaesthetic machine to a tonometer in order to be able to dial up a desired pO 2 and pCO 2 in a blood sample. We established that some contemporary tests strips obviously used sample rather than atmospheric oxygen and so could give inaccurate results in hypoxic patients or in those on oxygen treatment. 1

Don’t Assume Someone has Already Studied It

When training, it is easy to assume that all the research questions worth answering have already been done so, or that solving the difficult ones will be impossible without large grants. The further along the career you travel, the more obvious it becomes that many of the fundamental issues in a medical subspeciality have still to be addressed. A simple example of my own followed on from the glucose meter experiments. I asked how we knew whether a whole blood sample for point-of-care-testing instruments was haemolysed or not. As it transpired, no one had ever looked at this, even though in retrospect it should probably have been one of the first questions asked of these systems. So by deliberately haemolysing blood to various extents with a sonicator, we showed that this could be a significant source of error for some glucose meter systems. 2

Jump on Unusual Findings

Many a discovery and career has been made either because of sheer luck or because the potential of an observation has been realised by someone but not others. Such events are unpredictable and infrequent, but when they do happen it is important not to let a busy routine job mean that they are never followed up. Such a moment happened when assessing the renal function of patients with hypo- and hyperthyroidism before and after treatment. Creatinine concentrations were high in hypothyroidism, low in hyperthyroidism and both normalised on treatment. There was still a lingering doubt that the creatinine may not be giving an accurate indication of glomerular filtration rate (GFR), so the samples were sent to another laboratory to measure cystatin C which, at that time, was a marker of GFR with apparently few, if any, limitations. 3 The results suggested the samples had been transposed as the cystatin C was, in fact, high in hyperthyroidism and low in hypothyroidism. Tempting though it was to just accept the transposition and not ask the laboratory to rerun the samples - especially as they had been done as a favour - there was the realisation that hyperthyroidism was possibly leading to an overproduction of cystatin C and vice versa with hypothyroidism. This ultimately proved to be the case and was reported as the first major limitation of cystatin C to be found. 4

Armchair Research

This expression was coined by a colleague to describe my appetite for interrogating large databases to try to answer some basic questions related to Clinical Biochemistry, and to perhaps debunk conventional wisdom along the way. We have, at our disposal, a wealth of data recorded in our laboratory computers just waiting to be examined. Take the simple question of whether hypothyroidism is associated with hyponatraemia. Of course it is, because we have often been told so, 5 but on closer inspection the evidence for this strays little from simple case reports. Some data had disputed the relationship, but also had its limitations. 6 From our laboratory database, we were able to identify 999 patients who were newly diagnosed with hypothyroidism by their family doctors (so presumably were not also acutely unwell) and found that the concurrently measured serum sodium distribution was virtually identical to the distribution in euthyroid patients. 7 It seems, therefore, that any association is unlikely to be causal.

If our laboratory data can be somehow linked with other databases then they can become even more powerful tools. We already know that as estimated GFR (eGFR) falls from normal values, mortality increases. 8 By linking to the register of deaths in our population, we were able to determine that patients with high eGFR (>90 mL/min/1.73m 2 ) are also at higher risk than the ‘sweet-spot’ of 60–89 mL/min/1.73m 2 , such that the distribution is actually ‘U’ shaped. 9 Sticking with eGFR, an ongoing debate in the UK is whether urea measurement is of any value now that we report this calculation. Most people assume that urea gives additional evidence of hydration, but there is little data to support this. However, we were able to link admission urea and creatinine measurements with the urine specific gravity of patients recorded by automated urine analysers in our Accident and Emergency (A&E). It showed that urea measurement did add to creatinine in predicting this urine marker of hydration, albeit not especially strongly. 10

Medical Freakonomics

‘Freakonomics’ is the title of a book written by the US economist Steven Levitt. He too has asked unusual questions of large datasets, but has also examined how human nature can impact on the business economy. 11 As a laboratory speciality, we are in a strong position to be able to determine how human nature can impact on our health economy.

When we moved to having ward terminals to access results in wards, we stopped telephoning abnormal results to those clinical areas in the knowledge they would have them available to look at. Human nature said to me that if I worked on these wards and had the choice of having a coffee or looking at laboratory results, I would be tempted by the coffee. Sure enough, we found that not only was there a delay between the time results became available and being accessed, but nearly half of A&E results were never viewed, including a significant number which were likely to have led to an immediate change in patient management. 12 We now telephone very abnormal results again.

It is already known that women have a poorer outcome than men post myocardial infarction (MI), and this is at least partly due to the fact that they appear to be less aggressively treated with lipid lowering or other drugs and fewer undergo cardiac rehabilitation. We linked our troponin measurements to the discharge diagnosis database for our hospital and found, not surprisingly, that as troponin concentrations increased the chances of being discharged with a myocardial infarction diagnosis increased as well. What was less predictable was that, on average, a man was 50% more likely to go home with that diagnosis than a women with the same troponin level. 13 Human nature seemed to be making the clinician act differently depending on gender, and so in addition to being managed less well post MI, women seemed to be at less chance of being diagnosed with an MI in the first place.

Other Databases

If your own laboratory system does not satisfy your wishes there may be another database that does. The Diabetes Control and Complications Trial was the seminal study in type 1 diabetes that showed for the first time that improving glycaemic control could reduce the risk of developing the microvascular complications of the disease. This database was made public in 2003 and has since allowed independent investigators, such as ourselves, to help address questions which the original study never envisaged answering. These have ranged from showing that increased glucose variability does not seem to influence the risk of developing microvascular complications, 14 to more eccentric observations demonstrating that tall patients develop neuropathy before small ones. Many other datasets have been made publicly available and could well prove to be relevant to Clinical Biochemistry, such as those of the National Institute of Diabetes and Digestive and Kidney Diseases. 15

Get It Published

Standing by your first poster presentation at a national meeting is a proud moment for every researcher. However, for the work to get its widest (and usually deserved) dissemination, it is important that every effort is put towards publishing the article. Despite this, only a minority of abstracts at meetings make it to full publication. 16

Guaranteeing a larger audience is not the only reason for writing up an article for publication. A salutary lesson involved the cystatin C study already described above. This serendipitous finding, 17 years after the initial paper proposing its use as a marker of GFR, 17 was presented as a poster at the Association for Clinical Biochemistry meeting in the UK in 2002 and published in April of the following year. 4 Within six months, three further groups independently reported the same finding. 18 – 20 Needless to say, it would have been disheartening if their publications had been the first to break the news. Moreover, being the fourth, rather than the first, would have meant it was far more difficult for the paper to be accepted for publication at all.

Issues Presenting Barriers to Research

Fear of the unknown.

There is now a plethora of regulations related to research governance, and knowing how to comply with these is no easy task for inexperienced non-academics. It may be, in the UK at least, that the project does not need to undergo a full Research Ethics Committee submission if it is being done as part of a clinical audit. This is defined as an analysis where care is being assessed against clearly defined standards. Since, for example, it is recommended that patients with raised cardiac troponin concentrations be diagnosed as having had a myocardial infarction, it was appropriate that the troponin study mentioned earlier be an audit of local practice, even though it ultimately unearthed the differences between genders. Approval for a clinical audit can usually be obtained from the local hospital in a manner that is much less involved than that required for a full research study.

For other projects, ethical approval will undoubtedly be required. Having someone to help with this who has previously gone through the process is invaluable. There is no particular need for them to be laboratory-based and they may well be employed within the Research and Development infrastructure of the hospital. As might be expected, having done the submission once, subsequent applications are much more straightforward. Indeed, that person should be expected (or even compelled) to help others with their own proposals. My own experience is that the types of studies I am recommending, by not involving drugs or patient intervention, seldom give rise to ethical committee concerns beyond maintaining patient confidentiality. However, the submission can lead to a delay of 2–3 months in starting the study.

Time and Other Resources

These seem to be in increasingly short supply in clinical laboratories throughout the world and this is especially true when it comes to prioritising research. However, it is not a coincidence that the words ‘Research’ and ‘Development’ are often used together since the laboratories at the forefront of the former tend also to those at the forefront of implementing new technologies, reconfiguring services and being respected (and therefore supported) by clinical colleagues. Having a research ethic in a department may make further financial sense as the interest it engenders often promotes the recruitment and retention of the most talented staff. Having mentors to help direct and advise junior staff is also important in order to make sure the culture is not the sole preserve of senior staff members.

Conclusions

Being able to conduct research is one reason why many of us chose Clinical Biochemistry as a career, but in recent years, for various reasons, it has become more difficult for this source of job satisfaction to be accommodated. I hope this article has shown that large grant application success is not always required to perform meaningful research in our speciality. Although the approach described could be accused of being simplistic and naïve, I feel that this is still one way in which our discipline can continue to make a unique and relevant contribution to healthcare research.

Competing Interests : None declared.

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As climate change advances, the ocean’s overturning circulation is predicted to weaken substantially. With such a slowdown, scientists estimate the ocean will pull down less carbon dioxide from the atmosphere. However, a slower circulation should also dredge up less carbon from the deep ocean that would otherwise be released back into the atmosphere. On balance, the ocean should maintain its role in reducing carbon emissions from the atmosphere, if at a slower pace.

However, a new study by an MIT researcher finds that scientists may have to rethink the relationship between the ocean’s circulation and its long-term capacity to store carbon. As the ocean gets weaker, it could release more carbon from the deep ocean into the atmosphere instead.

The reason has to do with a previously uncharacterized feedback between the ocean’s available iron, upwelling carbon and nutrients, surface microorganisms, and a little-known class of molecules known generally as “ligands.” When the ocean circulates more slowly, all these players interact in a self-perpetuating cycle that ultimately increases the amount of carbon that the ocean outgases back to the atmosphere.

“By isolating the impact of this feedback, we see a fundamentally different relationship between ocean circulation and atmospheric carbon levels, with implications for the climate,” says study author Jonathan Lauderdale, a research scientist in MIT’s Department of Earth, Atmospheric, and Planetary Sciences. “What we thought is going on in the ocean is completely overturned.”

Lauderdale says the findings show that “we can’t count on the ocean to store carbon in the deep ocean in response to future changes in circulation. We must be proactive in cutting emissions now, rather than relying on these natural processes to buy us time to mitigate climate change.”

His study appears today in the journal Nature Communications .

In 2020, Lauderdale led a  study that explored ocean nutrients, marine organisms, and iron, and how their interactions influence the growth of phytoplankton around the world. Phytoplankton are microscopic, plant-like organisms that live on the ocean surface and consume a diet of carbon and nutrients that upwell from the deep ocean and iron that drifts in from desert dust.

The more phytoplankton that can grow, the more carbon dioxide they can absorb from the atmosphere via photosynthesis, and this plays a large role in the ocean’s ability to sequester carbon.

For the 2020 study, the team developed a simple “box” model, representing conditions in different parts of the ocean as general boxes, each with a different balance of nutrients, iron, and ligands — organic molecules that are thought to be byproducts of phytoplankton. The team modeled a general flow between the boxes to represent the ocean’s larger circulation — the way seawater sinks, then is buoyed back up to the surface in different parts of the world.

This modeling revealed that, even if scientists were to “seed” the oceans with extra iron, that iron wouldn’t have much of an effect on global phytoplankton growth. The reason was due to a limit set by ligands. It turns out that, if left on its own, iron is insoluble in the ocean and therefore unavailable to phytoplankton. Iron only becomes soluble at “useful” levels when linked with ligands, which keep iron in a form that plankton can consume. Lauderdale found that adding iron to one ocean region to consume additional nutrients robs other regions of nutrients that phytoplankton there need to grow. This lowers the production of ligands and the supply of iron back to the original ocean region, limiting the amount of extra carbon that would be taken up from the atmosphere.

Unexpected switch

Once the team published their study, Lauderdale worked the box model into a form that he could make publicly accessible, including ocean and atmosphere carbon exchange and extending the boxes to represent more diverse environments, such as conditions similar to the Pacific, the North Atlantic, and the Southern Ocean. In the process, he tested other interactions within the model, including the effect of varying ocean circulation.

He ran the model with different circulation strengths, expecting to see less atmospheric carbon dioxide with weaker ocean overturning — a relationship that previous studies have supported, dating back to the 1980s. But what he found instead was a clear and opposite trend: The weaker the ocean’s circulation, the more CO 2 built up in the atmosphere.

“I thought there was some mistake,” Lauderdale recalls. “Why were atmospheric carbon levels trending the wrong way?”

When he checked the model, he found that the parameter describing ocean ligands had been left “on” as a variable. In other words, the model was calculating ligand concentrations as changing from one ocean region to another.

On a hunch, Lauderdale turned this parameter “off,” which set ligand concentrations as constant in every modeled ocean environment, an assumption that many ocean models typically make. That one change reversed the trend, back to the assumed relationship: A weaker circulation led to reduced atmospheric carbon dioxide. But which trend was closer to the truth?

Lauderdale looked to the scant available data on ocean ligands to see whether their concentrations were more constant or variable in the actual ocean. He found confirmation in GEOTRACES, an international study that coordinates measurements of trace elements and isotopes across the world’s oceans, that scientists can use to compare concentrations from region to region. Indeed, the molecules’ concentrations varied. If ligand concentrations do change from one region to another, then his surprise new result was likely representative of the real ocean: A weaker circulation leads to more carbon dioxide in the atmosphere.

“It’s this one weird trick that changed everything,” Lauderdale says. “The ligand switch has revealed this completely different relationship between ocean circulation and atmospheric CO 2 that we thought we understood pretty well.”

To see what might explain the overturned trend, Lauderdale analyzed biological activity and carbon, nutrient, iron, and ligand concentrations from the ocean model under different circulation strengths, comparing scenarios where ligands were variable or constant across the various boxes.

This revealed a new feedback: The weaker the ocean’s circulation, the less carbon and nutrients the ocean pulls up from the deep. Any phytoplankton at the surface would then have fewer resources to grow and would produce fewer byproducts (including ligands) as a result. With fewer ligands available, less iron at the surface would be usable, further reducing the phytoplankton population. There would then be fewer phytoplankton available to absorb carbon dioxide from the atmosphere and consume upwelled carbon from the deep ocean.

“My work shows that we need to look more carefully at how ocean biology can affect the climate,” Lauderdale points out. “Some climate models predict a 30 percent slowdown in the ocean circulation due to melting ice sheets, particularly around Antarctica. This huge slowdown in overturning circulation could actually be a big problem: In addition to a host of other climate issues, not only would the ocean take up less anthropogenic CO 2 from the atmosphere, but that could be amplified by a net outgassing of deep ocean carbon, leading to an unanticipated increase in atmospheric CO 2 and unexpected further climate warming.” 

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Biology Dictionary

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Biochemistry Definition

Biochemistry is the study of the chemical reactions that take place inside organisms. It combines elements from both biology and chemistry. Biochemistry became a separate discipline in the early 20 th Century. Biochemists study relatively large molecules like proteins, lipids, and carbohydrates, which are important in metabolism and other cellular activities; they also study molecules like enzymes and DNA.

History of Biochemistry

Biochemistry research has been done for around the past 400 years, although the term biochemistry itself was only coined in 1903 by the German chemist Carl Neuberg. The study of biochemistry essentially began with the invention of the microscope in 1665 by Robert Hooke. He was the first person to observe cells under a microscope, but they were dead cells; later on in 1674, Anton van Leeuwenhoek saw live plant cells under a microscope. Now that scientists had seen cells for the first time, they were eager to study them and discover more about the processes that occurred inside them. In the 18 th Century, the French scientist Antoine Lavoisier proposed a reaction mechanism for photosynthesis, which is the process by which plants make their own food out of carbon dioxide, water, and sunlight, releasing oxygen in the process. He also was the first person to investigate the process of cell respiration, the process of making the energy molecule adenosine triphosphate (ATP) in the mitochondria of the cell.

In the 19 th Century, a prevailing belief was that protoplasm, the jelly-like inside of the cell, carried out all of the processes involved with breaking down food molecules. It was believed that the chemistry of living organisms was inherently different from that of non-living ones. In 1897, Eduard Buchner performed an experiment that would change this view. He prepared an extract from yeast that he called zymase. Although zymase did not contain any living yeast cells, it could still ferment glucose to produce carbon dioxide and ethanol. Following Buchner’s convention, enzymes began to be named for the reaction they carried out; for example, DNA polymerase polymerizes DNA. (Zymase was later found to be multiple enzymes.)

In the 20 th Century, further advancements were made. Hans Krebs discovered the citric acid cycle (which would also become known as the Krebs cycle), a series of chemical reactions during cellular respiration where glucose and oxygen are converted to ATP, carbon dioxide, and water. Also, DNA became known as the genetic material of the cell and its structure was identified by James Watson and Francis Crick from previous research done by Rosalind Franklin. Presently, newer technology such as recombinant DNA, gene splicing, radioisotopic labelling, and electron microscopy are advancing scientific knowledge further than ever before.

Biochemistry Research

Topics in biochemistry research include enzyme mechanisms and kinetics, the making of proteins from DNA, RNA, and amino acids through the processes of transcription and translation, and the metabolic processes of cells. Biochemistry is closely related to molecular biology, which is the study of biological molecules such as DNA, proteins, and other macromolecules. Molecular biology techniques are often used to study biochemistry, along with techniques from other fields like immunology and physics. Since all life can be broken down into small molecules and chemical reactions, biochemistry is a broad science that is used in studying all types of biology, from botany to molecular genetics to pharmacology. Chemical reactions in cells are emphasized, but specific research topics can vary widely. For example, biochemists may be interested in researching the chemical reactions that occur in the brain (thereby connecting biochemistry with neurochemistry), how cells divide and differentiate, cell communication, the chemical basis of genetic inheritance, or how diseases such as cancer spread.

Biochemistry Careers

Biochemist working in biochemical laboratory

Biochemistry is a laboratory science. To work in the field of biochemistry, an individual must be interested in conducting research, and should obtain at least a bachelor’s degree. Many biochemists teach and are principal investigators of research laboratories at universities; these positions require PhDs. While most biochemists with PhDs conduct research, some are academic lecturers and solely teach at universities. However, these biochemists also had to do research throughout graduate school in order to complete their PhD thesis. Other biochemists are lab managers, which requires a master’s degree. With a bachelor’s degree, one may become a scientific research technician. The more education an individual has, generally the more independence they will have in a lab. Technicians carry out bench work and help perform experiments that a principal investigator designs. A lab manager has more responsibilities than a technician and may do independent research projects under the guidance of a principal investigator. Aside from academia, biochemists also work in industry positions. They may work in government laboratories or for a variety of companies including agricultural, pharmaceutical, public health, or biotechnology companies. Others provide specific services such as toxicology or forensics.

In order to be a competent biochemist, one must be interested in biology or chemistry research and learn proper laboratory skills and safety procedures. It is also important to have an aptitude for mathematics and statistics, and be able to analyze the data generated from experiments. The ability to think outside the box and brainstorm new ideas is important for designing experiments. Biochemists must also keep up with the scientific literature by reading recent publications in scientific journals and attending conferences. Although it takes a lot of hard work, training, and study, biochemists are able to uncover new information about the chemistry of living things and contribute to advancing scientific knowledge.

Biochemistry Major

Students interested in becoming biochemists need to take many science courses during their time as an undergraduate. General knowledge of both biology and chemistry is essential. Many schools offer biochemistry as a specific major. It is also possible to become a biochemist after obtaining a biology or chemistry bachelor’s degree, but one needs to make sure that they have a good background in the subject they are not majoring in; i.e., an undergraduate majoring in biology needs to take chemistry courses (this is usually a requirement of all undergraduate biology majors), and an undergraduate majoring in chemistry should also take biology courses. Of course, there are also specifically biochemistry courses that students should take. Additionally, it is important to be well versed in mathematics and physics.

As students advance in their undergraduate career, they will take more specific science courses based on their specific interests. For example, they could take classes in botany, molecular biology, biophysics, biomedical sciences, or structural biology (how molecules are organized into cells and tissues), depending on where their research interests lie.

n.a. (n.d.) “Biochemistry.” Merriam-Webster. Retrieved 2017-04-25 from https://www.merriam-webster.com/dictionary/biochemistry. n.a. (n.d.) “Biochemistry Major.” MyMajors. Retrieved 2017-04-27 from https://www.mymajors.com/college-majors/biochemistry/. n.a. (n.d.) “History of Biology: Biochemistry.” BiologyReference.com. Retrieved 2017-04-26 from http://www.biologyreference.com/Gr-Hi/History-of-Biology-Biochemistry.html. n.a. (n.d.) “Molecular Biology.” The American Heritage® New Dictionary of Cultural Literacy, Third Edition. Retrieved 2017-04-26 from http://www.dictionary.com/browse/molecular-biology. n.a. (n.d.) “What is Biochemistry?” McGill University. Retrieved 2017-04-26 from https://www.mcgill.ca/biochemistry/about-us/information/biochemistry. n.a. (2017-08-04). “History of Biochemistry.” Bio Explorer . Retrieved 2017-04-26 from http://www.bioexplorer.net/history_of_biology/biochemistry/. AGCAS Editors. (2016-08). “Biochemistry”. Graduate Prospects Ltd. Retrieved 2017-04-27 from https://www.prospects.ac.uk/careers-advice/what-can-i-do-with-my-degree/biochemistry. Zeigler, Mary (Rev.). (n.d.). “Guide to Biochemistry Careers.” InnerBody.com . Retrieved 2017-04-27 from http://www.innerbody.com/careers-in-health/guide-to-biochemistry-careers.html.

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90 Biochemistry Essay Topic Ideas & Examples

🏆 best biochemistry topic ideas & essay examples, 🎓 interesting topics to write about biochemistry, ⭐ simple & easy biochemistry essay titles, ❓ biochemistry essay questions.

  • Common Biochemical Cycles Carbon is also an important element for the living organisms; hence the carbon cycle which is a gaseous cycle takes place to recycle the carbon and make it available for the living organisms.
  • Biochemical Oxygen Demand Measurement The Population of the aquatic microbes is directly correlated to the amount dissolved organic compound in water; that is to say, the higher the amount of organic compounds the larger the microbe population.
  • Biochemical and Technological Basis Behind COVID Vaccines The background image represents the virus model where the blue color denotes the surface area of the virus and the red color symbolizing the spike protein.
  • Biochemical Metabolism: Foreign DNA Molecule The virtual gel should show the band pattern that would result from incubating the plasmid with restriction enzymes as indicated below.
  • The Teenage Experience and Biochemical Changes It is most likely that for teenagers of all generations, the strive to be independent and free will be relevant in one shape or form.
  • “Biochemistry of Love” by Carter & Porges The key concepts explored in the chapter include the role of oxytocin and vasopressin in the creation of emotional bonds. The other two notable concepts described in the chapter are the impact of love on […]
  • COVID-19 Vaccines’ Biochemical and Technological Basis Various types of vaccines have been developed in the United States and Europe to mitigate the effects of the coronavirus disease pandemic.
  • Spectrophotometry Used in Biochemical Settings The work of a spectrophotometer is based on this law to calculate the amount of light, its absorption, and concentration. Spectrophotometry is necessary to demonstrate how non-destructive methods help check the condition of the water, […]
  • The Universal Nature of Biochemistry If the power between the two atoms is the same they share the electrons and form a covalent bond, but if one atom’s power exceeds the other, then one loses the electron or electrons to […]
  • Biochemical Oxygen Demand Measurement The essence of the method of measuring BOD is to establish the concentration of molecular oxygen in the water sample immediately after the selection and after incubation periods of the sample.
  • Green Fluorescent Protein – Applications in Biochemistry While undertaking the isolation, the authors noted in their study that one of the distinctive properties of the Aequoria aequoria is that it had the ability to emit a greening luminescence.
  • Musical Exposure and Its Effect on Biochemical Changes Last, to policymakers and nursing practitioners, the effect of specific music types on various biochemical messengers lays solid ground for understanding music’s function in physiological mechanisms.
  • Vitamin B6: Biochemical Overview In order to maintain the proper percentage of Vitamin B6 in the patient’s body, it is imperative that the dietary allowances of the vitamin should be in direct proportion to the patient’s age; more to […]
  • Biochemistry: Protein Translocation Types & Forms The occurrence of this channel occurs due to the existence of a preserved heteromeric membrane protein complex. The result of this is forward translocation movement.
  • Water and Its Role in Biochemical Processes The goal of this paper is to discuss the chemical properties of water that are most important for life on Earth.
  • Michael Smith: Nobel Prize-Winning Biochemist In the late 1980s, he helped found the Biotechnology Laboratory located at the University of British Columbia. Since he was a firm believer in genomic research, he accepted the appointment by Victor Ling to become […]
  • Biochemistry and Volunteer Work In particular, I was the volunteer at ophthalmology center to work with patients and learn more about physiology and biochemistry of the eye and its parts.
  • Biochemistry Dogmas and Their Impacts on Biotechnology Unlike in the past, people have seen the importance of studying life sciences, and with the support from private and public sectors, the number of students enrolling in life science courses is on the rise. […]
  • Biochemistry of Metabolism in Health & Disease
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  • Is It Possible to Make a Career in Biochemistry?
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Collection  15 August 2018

Top 10 in Biochemistry and Molecular Biology

Explore our most highly accessed biochemistry and molecular biology articles in the first quarter of 2018. Featuring authors from around the World, these papers highlight valuable research within biochemistry and molecular biology from an international community.

a research topic in biochemistry

Peptide ion channel toxins from the bootlace worm, the longest animal on Earth

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Plasmodium dihydrofolate reductase is a second enzyme target for the antimalarial action of triclosan

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Abundant fish protein inhibits α-synuclein amyloid formation

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a research topic in biochemistry

Natural polyphenols as sirtuin 6 modulators

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In vivo fluorescence bioimaging of ascorbic acid in mice: Development of an efficient probe consisting of phthalocyanine, TEMPO, and albumin

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Towards high throughput GPCR crystallography: In Meso soaking of Adenosine A 2A Receptor crystals

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a research topic in biochemistry

Structural basis of thalidomide enantiomer binding to cereblon

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a research topic in biochemistry

Reduction in hepatic secondary bile acids caused by short-term antibiotic-induced dysbiosis decreases mouse serum glucose and triglyceride levels

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a research topic in biochemistry

Development and characterization of a novel luciferase based cytotoxicity assay

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a research topic in biochemistry

Malaria infected red blood cells release small regulatory RNAs through extracellular vesicles

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Nutritional Biochemistry

Nutritional Biochemistry

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This title includes a number of Open Access chapters. Nutrition is becoming ever more central to our understanding of metabolic processes. Nutritional biochemistry offers insight into the mechanisms by which diet influences human health and disease. This book focuses on five aspects of this complex field of study: nutritional genomics, clinical nut

TABLE OF CONTENTS

Part | 2  pages, part i - nutritional genomics, chapter 1 | 18  pages, - bellagio report on healthy agriculture, healthy nutrition, healthy people, chapter 2 | 40  pages, - diet, genetics, and disease: a focus on the middle east and north africa region, part ii - clinical nutritional biochemistry, chapter 3 | 22  pages, - consumption of fructose and high fructose corn syrup increase postprandial triglycerides, ldl-cholesterol, and apolipoprotein-b in young men and women, chapter 4 | 20  pages, - treatment of metabolic syndrome by combination of physical activity and diet needs an optimal protein intake: a randomized controlled trial, chapter 5 | 12  pages, - a prospective study of nutrition education and oral nutritional supplementation in patients with alzheimer’s disease, part iii - vitamins and minerals, chapter 6 | 26  pages, - pharmacokinetics of a single oral dose of vitamin d3 (70,000 iu) in pregnant and non-pregnant women, chapter 7 | 26  pages, - causal relationship between obesity and vitamin d status: bi-directional mendelian randomization analysis of multiple cohorts, chapter 8 | 16  pages, - the relationship between folic acid and risk of autism spectrum disorders, part iv - macronutrient composition, energetics, and energy balance, chapter 9 | 18  pages, - consumption of fructose-sweetened beverages for 10 weeks reduces net fat oxidation and energy expenditure in overweight/obese men and women, chapter 10 | 4  pages, - effects of high carbohydrate or high protein energy-restricted diets combined with resistance-exercise on weight loss and markers of health in women with serum triglyceride levels above or below median values, part v - cell function and metabolism, chapter 11 | 20  pages, - the inhibition of the mammalian dna methyltransferase 3a (dnmt3a) by dietary black tea and coffee polyphenols, chapter 12 | 20  pages, - treatment of human muscle cells with popular dietary supplements increase mitochondrial function and metabolic rate.

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Ultra-processed food addiction is a distinct disorder characterized by the typical symptoms of substance use disorders, such as cravings, tolerance, loss of control, withdrawal, and continued use despite negative consequences, in relation to certain foods. There is a growing body of research and clinical experience concerning the biochemistry of the condition, the differentiation from other disorders, and the clinical assessment and intervention protocols which warrant further study. The issue of addiction-like symptoms in relation to food has remained controversial despite the documented prevalence and harms of the condition. In part, this is due to debates relating to: the naming of the disorder, suitable definitions and assessment protocols to distinguish it from similar conditions such as eating disorders, whether the condition is a behavioral or a substance use disorder, and what if any are effective treatment approaches. A group of international academics and clinicians specializing in ultra-processed food addiction recently completed a Delphi process to move toward consensus on the above questions which was celebrated at a London conference. This Research Topic will include the outcome of the consensus exercise and contributions from participants on the latest science and best practices relating to ultra-processed food addiction. Furthermore, the most recent thinking and data on mechanisms, definitions, assessment, and interventions will be presented by experts in the field. Papers are sought on the following topics: • Underlying biological and psychological mechanisms in ultra-processed food addiction as a substance use disorder • Defining and distinguishing ultra-processed food addiction in relation to other conditions, for example, eating disorders such as binge eating disorder and obesity • Screening and assessment protocols for ultra-processed food addiction in clinical practice • Intervention protocols for ultra-processed food addiction including long-term outcomes • The phenomenology of ultra-processed food addiction including the natural history of the disorder, lived experience, and risk factors • Exploring the topic of prevention and public health initiatives in relation to ultra-processed food addiction.

Keywords : ultra-processed food, addiction, substance use disorder

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a research topic in biochemistry

100 Biochemistry Topics For Research Paper Writing

biochemistry topics

It is not easy to write a research paper for a high grade. M any students struggle to find interesting biochemistry topics to write about. That’s because the final year’s research project is crucial to the student’s life. And selecting the right topic determines how this project goes. If struggling to find biochemistry research paper topics, this list comprises interesting ideas to consider.

Interesting Biochemistry Topics

Maybe you want to write a research paper about something interesting. That means you’re looking for ideas you can enjoy exploring. In that case, consider this list of interesting biochemistry topics.

  •  Understanding fungi synthesis production and microbial itaconic acid’s role
  • Analyzing NDR ½ and MOBs relationship in damaged cell cycle signaling
  • Mapping and documenting Morphogen signaling pathways and complex biological response regulation
  • Analyzing the Sprouty 2 Inhibition biological effects in periodontal ligament cells
  • Analyzing the Platelet function’s role and dysfunction on wounds coting
  • Understanding protein and peptide structure’s role in membranes
  • Mapping biochemical and cellular basis’ glucose transport of insulin resistance and action
  • Understanding the function and structure of protein membrane
  • Understanding how the function and structure of protein-membrane affects drugs distribution in the body
  • Investigating the membrane biology and ion transport role in innate immune response
  • The protein’s structural determinants role in human health
  • Research of the microbial disease evolution
  • A comparison of protein design and folding between mice and humans
  • Formation of microbial biofilm: Therapeutics from molecular mechanisms
  • Human health and bacteriophages
  • B cells receptors targeting in diseases and vaccines

These are interesting biochemistry topics to write about. However, be ready to spend time researching and writing about any of these ideas to come up with a solid paper. You can also buy research papers cheap if you’re running out of time. If you’re not, please follow the list.

Current Topics in Biochemistry for Research

Perhaps, you want to research and write about something current. In that case, you’re looking for current topics in biochemistry. Consider these ideas for your study.

  • Skeletal complications and bone biology of malignancies
  • A study of cellular function and structure
  • Cancer pathology and biology
  • Coagulation disease and biology
  • Physical biochemistry- What is it?
  • Enzymology and structural biology
  • Protein interactions and functional nucleic acid
  • Epigenetic and genetic regulatory mechanisms
  • Lipid metabolism is metabolic and mitochondrial diseases
  • Cancer molecular genetics- Genomics-based approach to association and gene expression studies
  • Protein kinase signaling in drug resistance and cancer progression
  • The use of microarray technology to characterize P73 and P63 regulated gene in cancer
  • Characterizing and developing chemical compounds for targeting lung, pancreatic, and colon cancers
  • Intestinal microbes’ role in disease and human health.

Research and write about any of these biochemistry research topics if looking for something recent. However, take your time to read and investigate recent literature in biochemistry to come up with an interesting and relevant paper.

MCAT Biochemistry Topics for Research Papers

Pre-medical students have to study MCAT subjects in advance. MCAT stands for medical college admission test. If you’ve been asked to write a research paper on the MCAT, here is a biochemistry research topics list to consider.

  • Physical and chemical foundations in biological systems
  • Biochemical and biological foundations in living systems
  • Sociological, biological, and psychological foundations in behavior
  • Describe the protein structure, stability, and interactions
  • Describe the formation and hydrolysis of peptide bonds
  • Explain the structure and classification of amino acids
  • What are the functions of non-enzymatic protein?
  • Describe signaling proteins
  • Describe the general characteristics of enzymes
  • Explain enzyme inhibition and kinetics
  • What regulates the enzyme activity?
  • Describe the DNA structure
  • What is central dogma and what are its exceptions?
  • Describe imprinting and epigenetics
  • Describe cancers and disorders in DNA
  • Describe the RNA structure
  • What are the differences and similarities of DNA and RNA?
  • Describe the RNA functions
  • Explain the useful reactions of carbohydrates
  • What are the sugar structures in carbohydrates?

These are great MCAT biochemistry paper topics. Take your time to research any of these ideas to come up with a paper that will impress your educator.

Hot Topics in Biochemistry

Maybe you’re looking for some of the best biochemistry project topics to explore in your paper. In that case, this list comprises some of the hot biochemistry topics for research that you should consider.

  • Exploring B lymphocyte cell line aggregation from a chicken and temperature sensitivity
  • Polyphosphate role on the virulence of Erwinia caratovora
  • Cellular dissection and molecular functions in the latest medications in high blood pressure treatment
  • Chemical shift data and information used in predicting protein dihedral angles
  • A comparison of the major biochemical studies aspect in the last century
  • Analysis of protein complexes in DNA synthesis definition
  • Molecular genetics analysis in a single causative gene with muscular dystrophy in mind
  • Research into revelations of complex biochemical compounds study towards DNA mapping
  • How human genome mapping helps with disease prevention and redesigning of humans before life starts
  • Evidence against or for animal disease models for scientific value in finding disease cures in humans
  • Expression and purification of proteins’ reaction when interacting with different ENTH levels
  • A review of the basic structure and reactions of esters and phosphates and the required synthesis from alcohols
  • Analysis of recent biochemistry research advancements that may lead to the creation of new medications
  • Effects that human genome mapping would have on medicine and society
  • How athletes use biomedical means in their search for unfair advantage
  • The challenges and potential of recombinant spider silk use in biomedical applications
  • What is frequency modulation controlled signaling?
  • What is protein quantification in organisms?
  • Are amyloid diseases possibly transmissible?
  • Is population health effective in enhancing aggregate health performance for emerging economies?

These are interesting topics in biochemistry that will capture the attention of most readers. However, you need time to research any of these ideas and analyze information to come up with a solid paper. Therefore, d on’t be afraid to get research paper help from our professional writers. 

Biochemistry Research Topics for Undergraduates

Are you pursuing your undergraduate biochemistry studies? If so, you may want to write research papers about topics related to biochemistry. Here are interesting research paper topics in biochemistry that you can consider for your undergraduate research.

  • Chemical composition of cooked and raw walnut
  • A study of hepatitis B prevalence
  • The profile of antibiotics resistance in Escherichia coli-isolated from healthy domestic animals
  • Analysis of bitter leaf extract’s use in extending sorghum beer’s shelf life
  • Analysis of honey’s physiochemical properties
  • Eremomastax speciosa phytochemical screening
  • Chemical quality and production assessment of aspirin
  • Gastroenteritis study- How it affects children in primary schools
  • Purification and isolation of 3-mercaptopyruvate sulfur transferase from rhinoceros larva gut
  • How kaka bitters affect the Wister rats’ lipid profile after feeding them with a high-fat diet.
  • Identification and isolation of Escherichia coli as a sign of fecal pollution in rivers
  • Enzymes critical study
  • Analyzing the level of alpha-protein in hepatitis patients in accessing its generation to HCC
  • A thorough examination of inflammation and autoimmunity
  • The ethanolic extracts hepatotoxicity of enantia chlorantha root in Wister albino mice
  • Phytochemical and proximate analysis of nsukka soursop
  • Velvet bean coat and seed’s proximate analysis
  • Antimicrobial and preliminary phytochemical screening of citrus sinensis coat and seed
  • Starch production from cassava and cross-linked derivatives
  • Preliminary study of the Burantashi extract effects on albino Wistar rats’ lipoproteins

This category also has some of the best research topics in nutritional biochemistry. You can also consider some of these ideas if looking for research topics in medical biochemistry. However, you need time to research any of these ideas to come up with an interesting paper.

Special Topics in Biochemistry

Perhaps, you want to work on special biochemistry research paper topics. This category can also include some of the most complicated topics biochemistry students can write about.

  • Describe the scientific data in python prog
  • Describe the enzymatic reaction mechanism’s chemistry
  • Describe physical biochemistry
  • Compare and contrast metalloproteins and metalloenzyme
  • An investigation of advanced microbial-physiology
  • Describe biological and NMR systems
  • What is biochemical toxicology?
  • Describe the biomolecule apld spctrscopy
  • Describe the mechanisms of enzymatic reaction
  • Explain the discovery and development of a vaccine

This is a list of cool biochemistry topics to consider when writing a research paper. Nevertheless, each of these ideas requires extensive research and information analysis to write a brilliant paper. Check out our biology topics if you need more ideas Students have many ideas to consider when researching and writing academic papers. This is also a good biochemistry seminar topics list. Whether you need biochemistry topics related to hemoglobin, animal studies, or foods, you can find ideas to explore. The most important thing is that learners should select topics they are interested in. That’s because a learner spends a lot of time researching and writing about the topic they choose. Therefore, choosing the wrong topic will make this academic task boring. Additionally, educators award the top grades to learners that pick and write about unique topics. Remember, you always can c ontact us with a “ do my research paper for me” request for quality assistance. Our professional writers will write a winning paper for you really fast. 

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Ozempic v. Mounjaro? There's a clear winner for weight loss, study finds.

One next-generation weight loss drug jumps ahead of the other in terms of effectiveness, but remains extremely hard to access..

a research topic in biochemistry

People lost substantially more weight when they took Eli Lilly's diabetes drug Mounjaro than Novo Nordisk's Ozempic, with roughly the same side effects, drop-out rate and benefit for diabetes, according to the first major head-to-head study.

Both drugs are in the same class, known as GLP-1s, but Lilly's drug, tirzepatide, sold under the brand names Mounjaro for diabetes and Zepbound for weight loss, includes a second action that seems to boost its effectiveness. Separate studies had suggested tirzepatide led to more weight loss than semaglutide, which Novo Nordisk sells as Ozempic, for diabetes and, Wegovy, at a higher dose, for weight loss.

The new study, published Monday in JAMA Internal Medicine , compared data on more than 18,000 patients who began taking one of the two medications between May 2022 and September 2023. The study relied on electronic health records from Truveta, a collective of health systems across the country with access to data on more than 100 million patients.

At the time, tirzepatide hadn't yet been approved for weight loss, just diabetes, so the study looked only at people who had prescriptions for the two drugs for type 2 diabetes, although not everyone had the disease.

By November of last year, more than half of the people on both medications ‒ 56% of those taking tirzepatide and 53% of those taking semaglutide ‒ had stopped taking them. Although the study didn't confirm a reason, many have reported side effects from the drugs, typically gastrointestinal, including vomiting and nausea.

The study didn't report whether the people who dropped out regained any weight they lost. Research has shown that so-called yo-yo dieting can cause more health problems than simply carrying extra pounds.

But GLP-1s are by far the most effective and safest class of weight loss drugs ever developed. More than 70% of Americans meet the medical definition for being overweight and 40% for obesity.

"As we've tracked GLP-1 use over the last couple of years, we've just seen these dramatic increases of use," said Tricia Rodriguez, who led the study for Truveta Research, and both drugs are "really revolutionizing the treatment of both diabetes and obesity."

Clear winner? Not so fast, Novo says

Novo Nordisk disputed the study's conclusion.

"The ideal way to compare two treatments is an adequately powered head-to-head randomized clinical trial (RCT) in obesity. Currently, no head-to-head trials have been completed comparing tirzepatide and semaglutide 2.4 mg," the company said in a statement sent by Allison Schneider, the company's director of media relations and issues management.

The 2.4 mg dosage is the highest of semaglutide typically used for weight loss. The highest dose used to address diabetes is lower, so the dosage used by people in the study, which focused on people diagnosed with diabetes, would have been below the optimal dose for weight loss.

For tirzepatide, the highest dosage is the same, whether for weight loss or diabetes.

Specific takeaways from the study

People taking tirzepatide were nearly twice as likely to lose 5% of their body weight as those taking semaglutide; 2.5 times as likely to lose 10% of their body weight; and more than three times as likely to lose 15% of their body weight, the study showed.

After three months on each drug, those taking tirzepatide had lost an average of about 6%, while those taking semaglutide had lost just under 4%. At six months, those on tirzepatide had lost 10%, while those on semaglutide had lost 6%. And at a year, those on tirzepatide had lost 15% of their body weight, compared with 8% for those on semaglutide.

As has been found in other studies, people with diabetes lost less weight on the medications than people who had obesity but not diabetes.

Among the 18,386 people studied, 70% were female, 77% were white, 11% were Black and just over half had type 2 diabetes. Their average body-mass index was 39 and their average age was 52. More than 1 in 5 also had been diagnosed with depression.

Obesity, diabetes and depression often overlap, in part because they are all so common, in part because medications for mental health conditions are associated with weight gain and diabetes onset, and in part because they contribute to one another, said Dr. Katherine Saunders, an obesity medicine expert at Weill Cornell Medicine in New York.

"Obesity and diabetes can worsen depression, and depression can worsen obesity and diabetes," she said.

Why they're dropping out

Many patients stop taking these extremely effective medications because of side effects and trouble accessing them, say doctors who prescribe them.

The side effects can typically be controlled with adequate medical oversight and proper ramping up of the medication, experts say.

"Patients require more than a prescription for a GLP-1 medication in the last few minutes of a busy appointment," said Saunders, also co-founder of Intellihealth, which provides medical obesity treatment.

Personalized care, time and "tons of education and support" are needed to help people start and stick to these medications, she said.

Both drugs are meant to be taken in steps, starting at a low dose and advancing slowly to higher doses. If a patient cannot tolerate a higher dose, they are typically left at a lower one indefinitely or until side effects lessen, said Dr. Fatima Cody Stanford, an obesity medicine specialist at Massachusetts General Hospital in Boston.

Cody Stanford said her only patients who discontinue a GLP-1 for medical reasons are the 1 in 1,000 or so who develop pancreatitis, a painful inflammation of the pancreas, and the 15% or so who don't see any substantial weight loss after a significant period of time.

For those people, Cody Stanford said, she often has to convince them the drug others describe as a "miracle" simply isn't going to work for them.

"This isn't a 'try harder' situation," she said. "If it works, it works."

Cost and access problems

A much more common reason for discontinuing a GLP-1, Cody Stanford said, is an inability to get access to a reliable and consistent supply.

Both drugs have been hard to access because of supply constraints .

Novo Nordisk says it has provided Wegovy to more than 1 million Americans since 2021, and the highest dose strengths of 1.7 mg and 2.4 mg are now fully available, "which aligns to our goal of doing our best to ensure existing patients have continuity of care as they dose escalate per the label," according to a company statement.

"At this time, we can’t speculate when Wegovy will become fully available at all dose strengths but we are doing everything we can to build manufacturing capacity and supply to meet patient needs," the statement said.

Supply updates are available at WegovySupply.com .

Lilly, which declined to comment saying they were not involved in the new research, has struggled to keep up with demand for tirzepatide, particularly since it was approved for weight loss under the brand name Zepbound.

For her patients, Fatima Cody Stanford said she now has been able to access Novo's semaglutide but not Lilly's tirzepatide.

Both drugs cost about $1,000 a month for the highest dose, and Wegovy, Novo Nordisk's semaglutide formulation for weight loss, costs more than Ozempic, its diabetes drug, because the highest dose is higher.

Cody Stanford said the high price and access problems mean people who need the medications most have the hardest time getting them.

Most of the study participants were middle-class white women ‒ and those prescribed tirzepatide were even more likely to be white and female, Rodriguez said. There's a difference between the patients on tirzepatide and those on semaglutide, and some patients can't access either one, she said.

Black, Hispanic and Native women have the highest rates of obesity and diabetes but typically don't get coverage for GLP-1s. "There's a mismatch in who gets coverage with these more novel therapies and who doesn't," Cody Stanford said.

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Research: Speed Matters When Companies Respond to Social Issues

  • Alison Wood Brooks,
  • Maya Balakrishnan,
  • Julian De Freitas

a research topic in biochemistry

An analysis of Instagram posts by Fortune 500 companies after George Floyd’s murder found that customers were skeptical of those who waited too long to make a statement.

Companies and their leaders face new pressures to make public statements about controversial and sometimes divisive social and political issues. New research shows that timing matters: consumers perceive a relationship between speed and authenticity, and discount statements from companies that wait too long to respond. Leaders can use four questions to understand when and how they should shape their response.

In the wake of George Floyd’s killing by Minneapolis police officers in 2020, individuals began protesting racial injustice both in person and online. But it wasn’t just individuals — many well-known companies in corporate America seemed to publicly align themselves with protestors, rather than staying silent or neutral.

  • Alison Wood Brooks is the O’Brien Associate Professor of Business Administration at Harvard Business School.
  • JN Jimin Nam is a doctoral candidate in marketing at Harvard Business School.
  • MB Maya Balakrishnan is a doctoral candidate in technology and operations management at Harvard Business School.
  • Julian De Freitas is an assistant professor in the marketing unit at Harvard Business School.

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a research topic in biochemistry

Latest Research Topics in Biochemistry (for Degree, Masters Projects and Dissertations)

latest research topics for biochemistry students

We have seen lots of biochemistry research projects and dissertations uploaded on our academic research database in the past couple of years. If you are looking specifically for suitable and new research topics for Biochemistry degree or masters projects and dissertations this compilation should be of some help.

Aphrodisiac Potential of Calotropis procera (Rooster Tree) Stem Aqueous Extract on Some Reproductive Markers in Male Albino Rats

The trade in traditional aphrodisiacs on the street of Nigeria is at all-time high. Several types are on display or advertised by vendors. One of such is Calotropis procera. The aphrodisiac potential of Calotropis procera aqueous stem extract was investigated on some reproductive markers in matured sexually active male albino rats. Read/Download

Effect Of Chronic Exposure To Petroleum Hydrocarbon Pollution On Some Biochemical Parameters Of Individuals Native To Ebocha, Niger Delta

The impact of pollution due to gas flaring on individuals native to Ebocha in Niger Delta Area was investigated. One hundred and five apparently healthy individuals between 21-70years who consented for the study were screened, seventy five individuals from Ebocha and thirty from Nsukka-a control location with no history of petroleum hydrocarbon pollution. Read/Download

In Vitro Antioxidant Activities Of Dichloromethane Extracts Of Strychnos Henningsii G. And Ficus Sycomorus L.

Most of biochemical reactions in the body generates Reactive Oxygen Species (ROS), which are involved in the pathogenesis of oxidative stress-related disorders like diabetes, nephrotoxicity, cancer, cardiovascular disorders, inflammation and neurological disorders when they attack biochemical molecules like proteins, lipids and nucleic acid.  Read/Download

Prevalence Of Hypoglycemia In Newborn At Kenyatta National Hospital And The Response To Glucose Supplementation In Low Birth Weight

Hypoglycaemia in neonates is defined as blood glucose concentration below 1.1mmol/l for term neonates. A common abnormality in neonates, it is associated, with neurological damage and death when it occurs in the first few days of life.  Read/Download

In Vivo Anti-Inflammatory, Analgesic And Antipyretic Effects Of Dichloromethane Stem Bark Extract Of Acacia Mellifera In Mice And Rat Models

Inflammation is a reaction to irritants that causes an injury to the body. Pain is a physical discomfort caused by injury or illness while pyrexia is an increase in body temperature above the normal range (36.5°C–37.5°C). Commonly used conventional drugs against inflammation, pain and pyrexia are effective but due to long term use, these drugs tend to be costly and are associated with adverse side effects. Read/Download

In Vivo Hypoglycemic Activity And Safety Of Selected Medicinal Plants Used In The Management Of Diabetes Mellitus In Elgeiyo-Marakwet County, Kenya

Diabetes Mellitus is a group of metabolic disorders sharing a common underlying feature of hyperglycemia with disturbances of carbohydrate, protein and fat metabolism. Read/Download

Comparative And Functional Analysis Of Tsetse Fly Aquaporins

Tsetse flies (Glossina sp) are the vector of African trypanosomes, the causative agents of sleeping sickness in man and Nagana in cattle. The insect is strictly hematophagous, taking in significantly high quantities of water during bloodmeals that present a considerable osmotic challenge. Read/Download

Check out Hundreds of more Biochemistry Thesis, Dissertations and Research Projects

Antiplasmodial Activities And In Vivo Safety Of Extracts And Compounds Of Seven Indigenous Kenyan Medicinal Plants Used Traditionally To Treat Malaria

Among human parasitic diseases, malaria is the most important and it has global incidence of 300 to 500 million cases per year with about 1.5 million deaths among African children. Recently the disease has been subjected to massive control efforts with varying degrees of success. Read/Download  

Comparison Of Malaria Rapid Diagnostic Tests At Health Facilities And Community Level In Siaya County Kenya

Malaria remains a major public health problem affecting an estimated 40% of the world’s population and resulting in more than 650,000 deaths worldwide every year. The emergence and rapid spread of parasite resistance to affordable, easy to use and widely available anti-malarial drugs such as chloroquine and sulfadoxine-pyrimethamine (SP) has prompted many countries in endemic areas to switch to the more effective artemisinin-based combination therapies (ACTs). Read/Download

Evaluation Of Passive Immunity To Schistosomiasis In Mice Transfused With Hyper-Immune Baboon Serum

Schistosomiasis is a tropical disease caused by worms in the genus Schistosoma. It remains one of the most prevalent parasitic infections and has significant economic and public health consequences. Read/Download

Bioprospecting For Hypoglycemic Activities And Safety Of Selected Traditionally Used Plants In The Management Of Diabetes Mellitus

Diabetes mellitus is a group of metabolic diseases characterized by high blood sugar levels that result from defects in insulin secretion, or action, or both. The disorder completely throws the metabolism of dietary carbohydrates, lipids and proteins into disarray. Read/Download

Analgesic, Antipyretic And Anti-Inflammatory Potential Of Dichloromethanolic Root Extract Of Clutia Abyssinica Jaub And Spach In Rats And Mice Models

Various diseases and injuries are always presented with pain, fever and inflammation. These are considered as symptoms associated with various pathological processes in an animal body. Drugs that are used to alleviate pain, fever and inflammation such as non-steroidal anti-inflammatory drugs exhibit adverse effects for example cardiac abnormalities, peptic ulcers, liver toxicity and kidney failure. Read/Download

Evaluation Of In Vivo Toxicity Of Dichloromethane: Methanolic Leaf Extracts Of Prosopis Juliflora In Rat Models

Prosopis juliflora (Mathenge) is an exotic, evergreen leguminous plant found in the dry Coastal, Rift Valley and Northern parts of Kenya. It is tolerant to extreme environmental conditions, declared a deleterious weed in Kenya and is among top 100 most invasive species worldwide. Read/Download

Identification and Characterization of Variant Surface Glycoprotein (VSG) Genes with diagnostic potential for Trypanosoma brucei rhodesiense

Human African Trypanosomiasis (HAT) is present in 36 sub-Saharan African countries. The disease is easier to treat in early stage than late stage when treatment with melarsoprol is responsible for significant fatality. Read/Download

Anti-Obesity, Cognitive Enhancing, Neurobehavioral, Antioxidant Effects And Phytochemical Profile Of Dichloromethane Leaf Extract Of Gnidia Glauca (Fresen)

Obesity is a chronic metabolic disorder characterized by increased adipose tissue mass due to positive energy balance. The epidemic of obesity is currently on the rise probably due to increasingly sedentary lifestyles combined with easy availability of palatable, high-fat foods. It presents modifiable risk factor for cognitive impairements, anxiety and motor deficits. Read/Download

In Vitro Antioxidant Effects Of Dichloromethane –Methanol Leaf Blend Extracts Of Clutia Abyssinica And Maytenus Obscura

Oxidative stress is a state of imbalance between free radicals and antioxidants in the body. It is the main cause of several disease conditions such as diabetes, different types of cancers, cardiovascular diseases, inflammation and aging. Read/Download

Production Of Hybrid Rice Using Environment Sensitive Genic Male Sterile (Egms) And Basmati Rice Lines

Rice is the third major food crop in Kenya and, its production is estimated at 129,000 tons which is below the annual national demand of 548,000 tons. Kenya rice yields per hectare are very low compared to major producers like China. Basmati (B) varieties, B370 and B217, are preferred by most rice consumers and are cultivated as a cash crop by 98.8% of Mwea rice farmers. Read/Download

Find out More Dissertations, Research Projects and Thesis in Biochemistry

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July 8, 2024

This article has been reviewed according to Science X's editorial process and policies . Editors have highlighted the following attributes while ensuring the content's credibility:

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To boost ocean research, some scientists are turning to superyachts

by Laurel Chor, Bloomberg News

To boost ocean research, some scientists are turning to superyachts

For almost two years, Robert Brewin collected data from the bow of a superyacht as it sailed pristine waters from the Caribbean Sea to the Antarctic Ocean.

The Archimedes, a 222-foot "adventure" yacht then owned by the late hedge funder James Simons, boasts a gym, a jacuzzi and an elevator. But between 2018 and 2020, Brewin was concerned only with the boat's Sea-Bird Scientific Solar Tracking Aiming System, installed to measure light reflecting off of the water. A senior lecturer at the UK's University of Exeter, Brewin and his colleagues were analyzing microplankton—microscopic organisms at the base of the marine food chain—by studying the ocean's color. The Sea-Bird's readouts helped them verify satellite imagery.

Brewin's was not your typical superyacht itinerary, but he is one of hundreds of scientists to have used an adventure yacht—also known as expedition or explorer yachts—to conduct research on the ocean. In a paper published in Frontiers in Remote Sensing , Brewin and his co-authors touted the potential of "harnessing superyachts" for science, concluding that "reaching out to wealthy citizen scientists may help fill [research capability] gaps."

It's a view shared—and being pushed—by the Yacht Club of Monaco and the Explorers Club, a New York City-based organization focused on exploration and science (of which, full disclosure, I am a member). In March, the groups co-hosted an environmental symposium that included an awards ceremony for yacht owners who "stand out for their commitment to protecting the marine environment ." The Archimedes won a "Science & Discovery" award.

"If a yacht is operating 365 days a year, rather than having it sit idle it'd be much better for it to contribute a positive return through science and conservation," says Rob McCallum, an Explorers Club fellow and founder of US-based EYOS Expeditions, which runs adventure yacht voyages.

EYOS charters yachts from private owners for its excursions, and is a founding member of Yachts for Science, a four-year-old organization that matches privately owned yachts with scientists who need time at sea. (Other members include yacht builder Arksen, media firm BOAT International, and nonprofits Nekton Foundation and Ocean Family Foundation.) Yachts for Science will enable about $1 million worth of donated yacht time this year, McCallum says, a figure he expects to hit $15 million by 2029.

"There's a personal satisfaction that we are contributing to something that is bigger than us," says Tom Peterson, who co-owns an insurance underwriting company in California and has what he jokingly refers to as a "mini superyacht."

Every year for the past decade, Peterson has donated about 15 to 20 days of time and fuel on the 24-meter Valkyrie to scientists, who he takes out himself as a licensed captain and former scuba dive operator. He often works with the Shark Lab at California State University Long Beach, and allows researchers to stay aboard for days at a time instead of having to constantly make the 1.5-hour trip to and from shore.

To link up with scientists, Peterson works with the International SeaKeepers Society, a Florida-based nonprofit that engages the yachting community to support ocean conservation and research. "The more we understand things about the ocean in general, the better we all are in the long run," he says.

When "superyacht" and "the environment" appear in the same sentence, it's usually in a different context. In 2019, one study estimated that a single 71-meter superyacht has the same annual carbon footprint as about 200 cars. In 2021, another paper found that superyachts were the single greatest contributor to the carbon footprint of 20 of the world's most prominent billionaires, accounting for 64% of their combined emissions.

"If you really want to respect the environment, you can just go surf," says Grégory Salle, a senior researcher at the French National Center for Scientific Research and author of the book Superyachts: Luxury, Tranquility and Ecocide. Salle is open to the idea that superyachts could be used to advance scientific research, but says it's contradictory for anyone to buy a superyacht and claim to be truly concerned about the environment.

McCallum says people who own adventure yachts tend to be younger than your standard superyacht owner, and have a particular interest in remote and pristine places. "They're not the sort of people that are content to just hang out in the Mediterranean or the Caribbean," he says. "Antarctica, the Arctic, the remote Indian Ocean, the remote Pacific Ocean, the Subantarctic islands… that's where you're going to find us delivering our services."

Explorer yachts aren't the only way scientists can reach those destinations, but demand for dedicated research vessels does outstrip available supply. The U.S. National Oceanic and Atmospheric Administration (NOAA), arguably the world's greatest collector of oceanographic data, has a fleet of 15 research and survey vessels for the use of its scientists.

Academic researchers can also apply to use the fleet, often at a subsidized rate. But scientists request roughly 15,000 to 20,000 days of boat time every year. In 2019, NOAA was able to fill just 2,300 of them, according to an internal study.

That gap is particularly problematic as the planet warms. Oceans provide services that scientists call "existentially important," producing more than half of the oxygen we breathe and serving as the world's largest carbon sink. They also absorb 30% of our carbon emissions and 90% of the excess heat generated by them.

G. Mark Miller, a retired NOAA Corps officer who was in charge of several of the agency's research vessels, has a different solution in mind when it comes to bolstering ocean research: smaller boats, fit for purpose. Superyachts can cost north of $500 million, he says, "why don't we build a hundred $5 million vessels and flood the ocean science community?"

After leaving NOAA, Miller in 2021 launched Virginia-based Greenwater Marine Sciences Offshore with a vision of building a global fleet of research vessels and offering their use at affordable prices. He says hiring a NOAA boat can cost scientists between $20,000 and $100,000 per day. GMSO plans to charge less than $10,000 a day for most missions. The company says it's close to acquiring its first three vessels.

Miller hopes his business model will help scientists conduct the work they need to—particularly in under-served regions like the Asia-Pacific—without worrying about getting a luxury yacht covered in "muddy worms, plankton goo, dead fish [and] whale snot." He describes yacht owners donating boat time to scientists as "better than nothing," and says it can help get regular people interested in science and exploration.

Christopher Walsh, captain of the Archimedes, says he and his crew love taking part in science initiatives, especially when there's an educational component. "I get a real thrill when we can stream to the classrooms—you can't imagine the enthusiasm the kids display," Walsh says. "That gives me a lot of hope for the future."

Journal information: Frontiers in Remote Sensing

2024 Bloomberg News. Distributed by Tribune Content Agency, LLC.

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