Welcome each of You to My molecular Biology class @博来字 Wuhan University
Welcome Each of You to My Molecular Biology Class
Molecular Biology of the Gene 5/E --Watson et al. (2004) Part I: Chemistry and Genetics Part: Maintenance of the genome Part ll: Expression of the Genome Part IV: Regulation Part v: methods 3/29/05 Wuhan University
Molecular Biology of the Gene, 5/E --- Watson et al. (2004) Part I: Chemistry and Genetics Part II: Maintenance of the Genome Part III: Expression of the Genome Part IV: Regulation Part V: Methods 3/29/05
Part ll: Maintenance of the genome Dedicated to the structure of DNA and the processes that propagate,maintain and alter it from one cell generation to the next @博字 Wuhan University
Part II: Maintenance of the Genome Dedicated to the structure of DNA and the processes that propagate, maintain and alter it from one cell generation to the next
Ch 6: The structures of dna and rna Ch 7: Chromosomes chromatins and the nucleosome Ch 8: The replication of DNA Ch 9: The mutability and repair of DNA ch 10: Homologous recombination at the molecular level Ch 11: Site-specific recombination and transposition of DNA 3/29/05
Ch 6: The structures of DNA and RNA Ch 7: Chromosomes, chromatins and the nucleosome Ch 8: The replication of DNA Ch 9: The mutability and repair of DNA Ch 10: Homologous recombination at the molecular level Ch 11: Site-specific recombination and transposition of DNA 3/29/05
Molecular iology course CHAPTER 10 Homologous recombination at the molecular evel @肃博去字 Wuhan Universit
CHAPTER 10 Homologous recombination at the molecular level •Molecular Biology Course
All dNA is recombinant dna a Genetic exchange works constantly to blend and rearrange chromosomes, most obviously during meiosis, when homologous chromosomes pair prior to the first nuclear division。 During this pairing, genetic exchange between the chromosomes occurs. this exchange, classically termed crossing over, is one of the results of homologous recombination
◼ All DNA is recombinant DNA. ◼ Genetic exchange works constantly to blend and rearrange chromosomes, most obviously during meiosis, when homologous chromosomes pair prior to the first nuclear division. ◼ During this pairing, genetic exchange between the chromosomes occurs. This exchange, classically termed crossing over, is one of the results of homologous recombination
OUTLINE 1. Models for Homologous Recombination(two models*x 2. Homologous Recombination Protein Machines (recBCD pathway xxk 3. Homologous Recombination in Eukaryotes(meiosis recombination, proteins 4. Mating-Type Switching (a gene conversion event) 5. Genetic Consequences of the Mechanism of Homologous Recombination (exchange or conversion
OUTLINE 1. Models for Homologous Recombination (two models)** 2. Homologous Recombination Protein Machines (RecBCD pathway)** 3. Homologous Recombination in Eukaryotes (meiosis recombination, proteins) 4. Mating-Type Switching (a gene conversion event) 5. Genetic Consequences of the Mechanism of Homologous Recombination (exchange or conversion)
CHAPTER 10 Homologous recombination at the molecular level 重点和难点 Topics 1&2 are the keys to understand homologous recombination and other topics. Completely understand two animations on your CD 3/29/05
重点和难点 3/29/05 Topics 1 & 2 are the keys to understand homologous recombination and other topics. Completely understand two animations on your CD CHAPTER 10 Homologous recombination at the molecular level
CHAPTER9 The mutability and repair of Na Homework Review your textbook
Review your textbook Homework CHAPTER 9 The mutability and repair of DNA