Analysis of data is an integral part of biology, both in academic research and the Industry. With the advent of high-throughput techniques, biological data analysis has cr
The aim of the course is to create a surface chemical way of thinking when considering biomedical approaches, products and applications. The course will focus on surface and s
Introduction to Proteomics Course - Central Dogma: Basics of DNA, RNA, Proteins - Genomics and Transcriptomics: Why proteomics - Proteins: Amino acids and structural levels of
Overview - What is bioelectricity - Historical perspective - Examples in nature - Bioelectrical phenomenon in mammals, insects, and fishes : Bioelectric potentials - Ion chann
Contents:
Introduction and course contents - Bioprocess case studies/flow sheet - Characteristics of biomolecules and their differences - Various down stream process steps -
Contents:
Functions : Introduce the idea of functions using examples from Biology. Eg. Velocity of molecular motors as a function of ATP concentration
Derivative of a funct
Introduction and Review - Need for Analysis Additional Thermodynamic Functions State and Path Variables - Equations for a Closed system Chemical Potential Concept Gibbs-Duhem
This course provides an overview of medical devices, FDA regulatory issues, biocompatibility and sterilization technology. It examines biomechanical properties: isotropy/aniso
Contents:
Future of the Pharmaceutical Industry - keynote conference speaker on health trends-Student life expectancy and future ageing research - Future of genetic engineeri
Contents:
Introduction and Scope to Enzyme Science & Engineering - Characteristic Features of Enzymes -Enzymes as Biocatalysts - Enzymatic Catalysis - Specificity of Enzyme