DNA topoisimerase: Difference between revisions
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<ref>Alberts, J. L. R. W., 2008. Molecular Biology of The Cell. 5th edition ed. Ney York: Garland Science.</ref>plays an impotant role in breaking the phosophodiester bond by binding covalently onto the DNA backbone phosphate. It acst as a reversible nuclease. This whole process is a reversible one, whereby before the protein leaves, the phosophodiester bonds are re-made. There are two types of DNA topoisomerase, topoisomerase I and topoismerase II.<br><br> | <ref>Alberts, J. L. R. W., 2008. Molecular Biology of The Cell. 5th edition ed. Ney York: Garland Science.</ref>plays an impotant role in breaking the phosophodiester bond by binding covalently onto the DNA backbone phosphate. It acst as a reversible nuclease. This whole process is a reversible one, whereby before the protein leaves, the phosophodiester bonds are re-made. There are two types of DNA topoisomerase, topoisomerase I and topoismerase II.<br><br> | ||
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Alberts, Bruce, 2008. Molecular Biology if The Cell. 5th ed. New York: Garland Science. | Alberts, Bruce, 2008. Molecular Biology if The Cell. 5th ed. New York: Garland Science. | ||
Revision as of 03:46, 12 October 2014
[1]plays an impotant role in breaking the phosophodiester bond by binding covalently onto the DNA backbone phosphate. It acst as a reversible nuclease. This whole process is a reversible one, whereby before the protein leaves, the phosophodiester bonds are re-made. There are two types of DNA topoisomerase, topoisomerase I and topoismerase II.
Reference:
Alberts, Bruce, 2008. Molecular Biology if The Cell. 5th ed. New York: Garland Science.
- ↑ Alberts, J. L. R. W., 2008. Molecular Biology of The Cell. 5th edition ed. Ney York: Garland Science.