Mechanisms of Enzyme Catalysis: Explore the mechanisms of enzyme catalysis and their function at the center of biochemical reactions.
Protein Folding and Misfolding: Elucidate protein folding and protein misfolding processes with diseases such as Alzheimer’s and Parkinson’s.
Metabolic Pathways and Regulation: The control of metabolic pathways and their roles in cellular metabolism and energy production.
Transduction Pathways: Study in depth the molecular mechanisms of transduction pathways and their functionally significant role in cell communication and sensitivity toward signals.
Role of the Lipids of the Cell Membrane: Discuss the structure and function of a membrane lipid in cellular membranes, embracing the role of the lipid in membrane fluidity and signaling.
Biochemical Basis of Genetic Disorders: Studies at the molecular and biochemical levels of the pathophysiological origin of genetic disorders and their possible interventions.
Bioenergetics with Mitochondrial Function: Understand bioenergetics and the role of mitochondria in the regulation of energy production and cellular metabolism.
Nucleic Acids: Learn the structure, function, and interactions of DNA and RNA in biological activities.
Biological Mechanism of Drug Action: Major includes the study of biochemical interactions that drugs have with their molecular targets and biochemical processes on which the drug action is based.
Oxidative Stress and Antioxidant Defense: Elaborate more on the sources of cellular oxidative stress and the underlying mechanism of action of the antioxidant defense system.
Biochemical Pathways in Cancer Metabolism: An investigation into alterations of biochemical pathways in cancer cells and the metabolic consequences in a cancer cell, plus their potential use in cancer therapy.
Roles of Cofactors and Coenzymes in Enzymatic Reactions: Research the roles of cofactors and coenzymes in the catalyzation of enzymatic reactions and carrying out metabolic processes.
Membrane Transport Proteins: Structure and function of membrane transport proteins, mechanism of nutrient uptake, ion transport.
Glycobiology and Glycoproteins: Dealing with the structure, function, and biosynthesis of glycoproteins, interrelations, and their designation in cell signalling and presentation of immune reactions.
Applications of CRISPR-Cas9 in Biochemistry: Discover how CRISPR-Cas9 is used in gene editing and its potential for therapeutic interventions.
The Biochemical Mechanisms of Apoptosis: This paper seeks to investigate the molecular and biochemical mechanisms of regulation for apoptosis, known as programmed cell death.
Role of Small Molecules in Cell Signaling: Understand the role of small molecules, such as second messengers, in the context of cellular signaling pathways.
Metabolomics and Biomarker Discovery: The identification of biomarkers for the diagnosis and treatment of diseases using metabolomics.
The study of protein–protein interactions in cellular processes and their biological significance.
Enzyme Engineering and Industrial Applications: Learn the principles of enzyme engineering and industrial applicability in biotechnology.
Structural Biology and X-ray Crystallography: In solving the structures of biomolecules, use X-ray crystallography and other techniques in structural biology.
Nutrient Sensing and Metabolic Regulation: How cells monitor changes in nutrient availability and regulate metabolic pathways.
Biochemical Basis of Immune Responses: Study the molecular and biochemical mechanisms that underlie immune responses and their regulation.
Explain the role of essential vitamins and minerals in a number of biochemical processes and how they affect health.
Proteomics: Techniques used under proteomics to determine protein expression, modification, and interaction.
Biochemistry related research any topic
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