Molecular Basis of Inheritance : Molecular Basis of Inheritance - 2 Brief Revision (Crash Course)

Molecular Basis of Inheritance - 2 Brief Revision (Crash Course)

Explained: Molecular Basis of Inheritance - 2 Brief Revision

Molecular Basis of Inheritance - 1 Brief Revision (Crash Course)

Explained: Molecular Basis of Inheritance - 1 Brief Revision

Molecular Basis of Inheritance Lecture - 21

Explained: DNA Fingerprinting, RFLP, VNTR, Electrophoresis, DNA Probe, Southern Blotting, Minisatellite & Microsatellite, Polymorphism & Mutation

Molecular Basis of Inheritance Lecture - 20

Explained: Human genome project, Need for this mega project?, Methodology of HGP, Expressed sequence tags, Sequence annotation, Bioinformatics, Outcome of HGP, Future & Possibilities of HGP

Molecular Basis of Inheritance Lecture - 19

Explained: Repressible system, Eukaryotic gene regulation, Trp operon, TATA box, Pribnow box, CAAT box, Glucose effect on Lac Operon

Molecular Basis of Inheritance Lecture - 18

Explained: Inducible system, Repressible system, Lac Operon, Operations of Lac Operon, Operator - repressor interactions

Molecular Basis of Inheritance Lecture - 17

Explained: Basics of Gene regulation, Importance of Gene regulation, Promotor & Operator Gene, Operon

Molecular Basis of Inheritance Lecture - 16

Explained: Translation, Process of Translation, Charging of tRNA, Aminoacylation, Termination, Activated amino acids, Translocation

Molecular Basis of Inheritance Lecture - 15

Explained: RNA Processing in eukaryotes, Spliceosome, Eukaryotic RNA polymerases, Hn RNA

Molecular Basis of Inheritance Lecture - 14

Explained: Transcription unit, Promotor, Structural gene, Terminator, RNA Polymerase in Prokaryotes, Initiation, Elongation & Termination, Monocistronic & Polycistronic, Exon, Intron, Split gene, RNA types

Molecular Basis of Inheritance Lecture - 13

Explained: Central dogma, Reverse transcription, Reverse transcriptase, Reverse transcription in Viruses, Transcription unit, Template strand of DNA, Coding strand of DNA

Molecular Basis of Inheritance Lecture - 12

Explained: Genetic code, Important points on Genetic code, Synonym, Antonym, punctuation codons, missense, nonsense and silent mutation, Wobble hypothesis, Chain initiator codon and Stop signal codon, Contribution of H G Khorana

Molecular Basis of Inheritance Lecture - 11

Explained: tRNA, Anticodons, Cloverleaf model, Genetic code / Codons, Cracking of Genetic code, Characters of Genetic code, Degeneracy of Genetic codon

Molecular Basis of Inheritance Lecture - 10

Explained: mRNA, Codons & Transcription, Shine Dalgarno sequence, Split genes, Exon & Introns, RNA Splicing, Kozak sequence

Molecular Basis of Inheritance Lecture - 9

Explained: more clarity on helicase and topoisomerase, Important notes, Replicon & Replisome, RNA world, Types of RNA, rRNA, rDNA

Molecular Basis of Inheritance Lecture - 8

Explained: Mechanism of DNA Replication, Role of RNA primer, Lagging strand & Leading strand, Unbinding of DNA helix & formation of replication fork, The stabilisation of separated DNA strand for template activity, Working of DNA Polymerase, Okazaki fragments

Molecular Basis of Inheritance Lecture - 7

Explained: Enzymes involved in DNA Replication, Helicase & Gyrase, DNA Polymerase, SSBPs, Primase RNA Primer, DNA Ligase

Molecular Basis of Inheritance Lecture - 6

Explained: Solutions of Questions on the semiconservative model of DNA replication, DNA replication procedure (NCERT Based)

Molecular Basis of Inheritance Lecture - 5

Explained: Semiconservative mode of DNA Replication, The experiment conducted by Meselson & Stahl, Buoyant density centrifugation, Benzor model of DNA

Molecular Basis of Inheritance Lecture - 4

Explained: Nucleases, Exonuclease & Endonuclease, Palindromic sequences, ss DNA, DNA Replication - Introduction

Molecular Basis of Inheritance Lecture - 3

Explained: Bacteriophage Experiment, TMV Experiment, DNA Estimation Test, Forms of dsDNA, Sticky ends of DNA, Circular DNA, Z DNA

Molecular Basis of Inheritance Lecture - 2

Explained: Bacterial transformation experiment, Griffith effect & Avery's Findings, Biochemical nature of Gene

Molecular Basis of Inheritance Lecture - 1

Explained: Introduction to the topic, DNA & RNA Basic properties, Central dogma