![]() ![]() Reactions of amino acids, sugars and lipids- quantitative reactionsĪnalysis of oils-iodine number, saponification value, acid number. methods for compositional analysis.Īnalytical techniques in biochemistry and biophysics for small molecules and macro- molecules for quantitation. Polysaccharides - types, structural features. Proteins - classification and separation, purification and criteria of homogeneity, end group analysis, hierarchy in structure, Ramachandran map. Lipids - classification, structure and functions. Separation techniques for different biomolecules. Heterocyclic compounds and secondary metabolises in living systems - nucleotides, pigments, isoprenoids. Overview of Bioinformatics applications -Automated gel reading, Primer Design, Restriction Endonuclease mappingĬhemical foundations of Biology - pH, pK, acids, bases, buffers, weak bonds, covalent bonds.Ĭlasses of organic compounds and functional groups - atomic and molecular dimensions, space filling and ball and stick models.Īmino acids and peptides - classification, chemical reactions and physical properties. Introduction to Molecular Modeling concepts and Applications Overview of Protein Secondary Structure Prediction Methods Secondary structure elements, Domains, Folds, Motifs ![]() Overview of Protein structure - Principles & characterization Multiple sequence Alignment- algorithms, Phylogenetic studies, dendrograms, phylograms, cladograms Sequence Alignments and Statistics- Introduction to identity, similarity, Homology, Sequence Alignment methods, Alignment programs, Pairwise sequence alignment, Heuristic alignment concept and tools (BLAST- all flavors), mutation matrix, global vs local alignment, Dot plots, PAM and BLOSUM matrices Protein Sequence Analysis -Physico-chemical properties of Amino acids, Protein sequence motifs, Signal and membrane Proteins Primer on: Proteins- Types, Functions and applications Introduction to Whole Genomic analysis, Elements of DNA Sequences, ORF finding, DNA Motifs and Patterns, Micro-satellite Repeat patterns, Gene Structure (promoter elements, splicing, termination, etc) Gene Identification: Gene identification methods: grail, genscan etc Protein Motifs and Patterns, Protein familiesĭNA Analysis- Strategies for sequencing genomes- Systematic approach, random approach, EST based approach Nucleic Acids, gene families, and DNA motifs Genomes and their Importance, genome sequencing, Physical Mapsīiological Databases: Definition, Purpose, Formats, Content, Access - PDB, Genbank, Swissprot, NR元D, PIR Introduction to Bioinformatics -History & Overview and applications Principles of Biochemistry A.Lehninger 1987. Plasma Membrane: Structure and Transport.īiochemistry White, Handler and R.B.Smith 7th Ed. Regulation of Metabolism for the production of Primary and Secondary Metabolites with Case studies. ![]() Metabolic Organization and Regulation of metabolism. Introduction to Enzymes, specificity, catalysis, kinetics, inhibition and allosteric enzymes. Structure of Biomolecules, Metabolism of Carbohydrates, Lipids, Proteins, Amino acids and Nucleic acids. ![]()
0 Comments
Leave a Reply. |
Details
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |