Applied Biochemistry Is The Study And Application Of Biochemical Processes And Substances In Everyday Life, At Any Stage Of Development, From Birth To Death. Applied Biochemists Work To Understand And Improve The Biochemical Systems That Affect The Biological And Physiological Functions In Living Organisms. People Who Specialize In This Field Of Study Use A Variety Of Biochemical Techniques, Such As Gene Sequencing, Proteomics And Metabolomics, To Investigate And Identify New Therapeutic Targets And Help Develop More Effective Treatments. Applied Biochemistry Also Helps Us Better Understand The Various Biochemical Processes Involved In Health And Disease. This Includes Detecting And Identifying Molecules That Cause, Or Are Associated With, Diseases. By Understanding The Biochemical Mechanisms Of Certain Diseases, Biochemists Can Then Develop Novel Therapies To Target Those Molecules And Regulate Their Activity In Order To Improve Patient Outcomes. In Addition, Applied Biochemistry Is Used In Developing New Drugs That Will Effectively Target Specific Diseases. Biochemists Use A Variety Of Techniques, Including Computational And Structural Drug Design, To Develop Drug Candidates That Will Interact Specifically With A Certain Molecule Or Cell Type. Such Drugs Are Then Tested In Clinical Studies To Assess Their Effectiveness And Safety. Applied Biochemistry Is Also Important In Biotechnology And Synthetic Biology, As It Is Used To Develop Efficient And Cost-Effective Systems For Making Useful Products From Natural Or Artificially Modified Components. For Example, Biochemists Can Use Genetic Engineering, Metabolic Engineering And Other Techniques To Create Novel Products From Existing Components Or To Modify Existing Products For Improved Performance And Greater Efficiency. Overall, Biochemistry Has Become An Incredibly Important Field In Modern Biology, And Applied Biochemistry Is Essential To Developers And Researchers In A Variety Of Different Industries. Its Importance Cannot Be Overstated, As Biochemists Are Constantly Pushing The Boundaries Of Medical Science To Develop More Effective Treatments And Save Lives.
Title : Eliminating implant failure in humans with nano chemistry: 30,000 cases and counting
Thomas J Webster, Brown University, United States
Title : Synthesis of chitosan composite of metal organic framework for the adsorption of dyes, kinetic and thermodynamic approach
Tooba Saeed, University of Peshawar, Pakistan
Title : Synthesis, ADMET, PASS, molecular docking, and dynamics simulation investigation of novel octanoyl glucoopyranosides & valeroyl ribofuranoside esters.
Hasinul Babu, University of Chittagong, Bangladesh
Title : Prospective polyoxometalate-based covalent organic framework heterogeneous catalysts
Arash Ebrahimi, Comenius University in Bratislava, Slovenia
Title : Utilizing Generative AI for Interactive Borane Modeling: Insights from Wade's Rule in Undergraduate Education
Mai Yan Yuen, The University of Hong Kong, Hong Kong
Title : Molecularly imprinted polymer-bimetallic nanoparticle based electrochemical sensor for dual detection of phenol iosmers micopollutants in water
Melkamu Biyana Regasa, Wollega University, Ethiopia