Presentation is loading. Please wait.

Presentation is loading. Please wait.

Homologous recombination

Published byFlorine Dumont Modified over 5 years ago

Similar presentations

Presentation on theme: "Homologous recombination"— Presentation transcript:

1 Homologous recombination
Kevin Hiom  Current Biology  Volume 10, Issue 10, Pages R359-R361 (May 2000) DOI: /S (00)

2 Figure 1 (a) Double-strand break repair model for homologous recombination. The double-strand break (DSB) is 5′ to 3′ resected, producing DNA ends with 3′ ssDNA tails. The 3′ ends invade a homologous DNA duplex, forming a DNA crossover or Holliday junction that provides a primer to initiate new DNA synthesis. Branch migration of the Holliday junction extends the region of heteroduplex away from the initial site of crossover. Holliday junctions are resolved by endonucleolytic cleavage of either the crossed strands (green arrows) or non-crossed strands (black arrows) of the junction. Resolution of the two Holliday junctions in different orientations (that is, crossed with non-crossed) will result in the exchange of flanking markers, whereas resolution in the same orientation (crossed with crossed or non-crossed with non-crossed) does not result in exchange of flanking markers. (b) Single-strand annealing model. Single-strand annealing occurs between directly repeated homologous sequences. Resection of a DSB continues until complimentary sequences are revealed. The complimentary sequences are aligned, the non-homologous ends are trimmed and the gaps repaired by DNA synthesis. Recombination of direct repeats by single-strand annealing results in deletion of the intervening DNA and the restoration of a single copy of the repeated sequence. Current Biology  , R359-R361DOI: ( /S (00) )

3 Figure 2 .(a) RecA (orange) forms a helical nucleoprotein filament on ssDNA. The ssDNA is stretched to 1.5 times its normal length to facilitate the search for homology. The nucleoprotein filament interacts with naked duplex DNA until homology is found, then strand exchange is initiated, producing a region of heteroduplex DNA. (Adapted with permission from West SC, Ann Rev Biochem 1992, 61: ) (b) The RuvA (light green) and RuvB (dark green) proteins bind to a Holliday junction, opening it out into a planar, cruciform structure. A tetramer of RuvA sits at the crossover point of the junction, while two hexameric RuvB rings sit on opposite arms of the junction with the DNA passing through the centre of each ring. Branch migration is driven by RuvB ‘pumping’ DNA through each ring, in opposite directions, moving the Holliday junction along the DNA. Current Biology  , R359-R361DOI: ( /S (00) )

Download ppt "Homologous recombination"

Similar presentations

Homologous Recombination at the Molecular Level

Homologous Recombination at the Molecular Level
Most UV lesions are repaired by Nucleotide Excision Repair (NER) Stalled replication forks may be bypassed by alternative (bypass) DNA polymerases (REV1,

Most UV lesions are repaired by Nucleotide Excision Repair (NER) Stalled replication forks may be bypassed by alternative (bypass) DNA polymerases (REV1,
Molecular Biology Fourth Edition

Molecular Biology Fourth Edition
Genetic Recombination 3 by: Nouf alyami. Content I. INTRODUCTION. II. GENERAL RECOMBINATION III. SITE-SPECIFIC RECOMBINATION.

Genetic Recombination 3 by: Nouf alyami. Content I. INTRODUCTION. II. GENERAL RECOMBINATION III. SITE-SPECIFIC RECOMBINATION.
DNA Recombination Roles Types Homologous recombination in E.coli

DNA Recombination Roles Types Homologous recombination in E.coli
Genetic Recombination Definition: The breakage and joining of DNA into new combinations Critical for several mechanisms of phase and antigenic variation.

Genetic Recombination Definition: The breakage and joining of DNA into new combinations Critical for several mechanisms of phase and antigenic variation.
Chapter 6 Molecular Biology of DNA Replication and Recombination Jones and Bartlett Publishers © 2005.

Chapter 6 Molecular Biology of DNA Replication and Recombination Jones and Bartlett Publishers © 2005.
Chapter 5 General Recombination.

Chapter 5 General Recombination.
CHAPTER 19 M ECHANISMS OF R ECOMBINATION. Recombination occurs at regions of homology between chromosomes through the breakage and reunion of DNA molecules.

CHAPTER 19 M ECHANISMS OF R ECOMBINATION. Recombination occurs at regions of homology between chromosomes through the breakage and reunion of DNA molecules.
Genetic recombination: 1.Homologous Recombination 2. Site-Specific Recombination 3. DNA Transposition.

Genetic recombination: 1.Homologous Recombination 2. Site-Specific Recombination 3. DNA Transposition.
Molecular Biology Fifth Edition

Molecular Biology Fifth Edition
Structure, Replication and Recombination of DNA. Information Flow From DNA DNA RNA transcription Protein translation replication.

Structure, Replication and Recombination of DNA. Information Flow From DNA DNA RNA transcription Protein translation replication.
Models of Recombination. His 7 1 + + + + thr arg Fogel and Hurst. 1967. Meiotic gene conversion in yeast tetrads and the theory of recombination. Genetics.

Models of Recombination. His thr arg Fogel and Hurst Meiotic gene conversion in yeast tetrads and the theory of recombination. Genetics.
Homologous Recombination

Homologous Recombination
Enzymes required for recombination Overview Generation of single strands Invasion of single strands Branch migration Resolution.

Enzymes required for recombination Overview Generation of single strands Invasion of single strands Branch migration Resolution.
Maintenance of genomes Copying the genome sequence (replication) Repairing damage to the genome sequence Rearranging genome sequences.

Maintenance of genomes Copying the genome sequence (replication) Repairing damage to the genome sequence Rearranging genome sequences.
Homologous Recombination

Homologous Recombination
Presentation Introduction of DNA Recombination Haoran Zhang Department of Chemical and Biological Engineering Tufts University.

Presentation Introduction of DNA Recombination Haoran Zhang Department of Chemical and Biological Engineering Tufts University.
DNA R ECOMBINATION M ECHANISMS Fahareen Binta Mosharraf MNS 1.

DNA R ECOMBINATION M ECHANISMS Fahareen Binta Mosharraf MNS 1.
Office Hours (midterm #1)

Office Hours (midterm #1)

Similar presentations

Ads by Google