Team:NYC Wetware/Deinococcus/Cell Damage

From 2011.igem.org

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(2) DNA Repair<br/>
(2) DNA Repair<br/>
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<ol>1. To Base Damage [Base Damage.png]<br/>
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<ol>1. To Base Damage<br/>
The cell employs an enzyme, DNA glycosylase, to remove the damaged base. AP endonuclease cuts the DNA backbone, essentially forming a Single Strand Break. DNA polymerase then resynthesizes the base. The single strand break is repaired as in Step 2 (below).<br/>
The cell employs an enzyme, DNA glycosylase, to remove the damaged base. AP endonuclease cuts the DNA backbone, essentially forming a Single Strand Break. DNA polymerase then resynthesizes the base. The single strand break is repaired as in Step 2 (below).<br/>
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2. To Single Strand Breaks [SSb.png]<br/>
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2. To Single Strand Breaks<br/>
A nick in the backbone of a single strand can be easily ligated by DNA ligase.  
A nick in the backbone of a single strand can be easily ligated by DNA ligase.  
[http://upload.wikimedia.org/wikipedia/commons/4/46/DNA_Repair.jpg] - DNA Ligase at work<br/>
[http://upload.wikimedia.org/wikipedia/commons/4/46/DNA_Repair.jpg] - DNA Ligase at work<br/>
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3. To Double Strand Breaks [DSb.png]<br/>
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3. To Double Strand Breaks<br/>
One of the primary methods of repairing double strand breaks is known as homologous recombination. The broken DNA fragment is connected to a complete DNA strand by a junction (a “Holliday junction.”) The DNA repair mechanism restores the damaged DNA.<br/>
One of the primary methods of repairing double strand breaks is known as homologous recombination. The broken DNA fragment is connected to a complete DNA strand by a junction (a “Holliday junction.”) The DNA repair mechanism restores the damaged DNA.<br/>
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Revision as of 15:52, 12 October 2011