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- ...onucleases) are [[proteins]] that cut [[DNA]] at specific sequences. Each restriction enzyme is specific to a small (commonly 4-6 base pair) sequence. These enzymes ca421 bytes (61 words) - 13:38, 16 February 2009
- 143 bytes (20 words) - 12:37, 29 November 2008
- Auto-populated based on [[Special:WhatLinksHere/Restriction enzyme]]. Needs checking by a human.584 bytes (77 words) - 20:00, 11 January 2010
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- ...onucleases) are [[proteins]] that cut [[DNA]] at specific sequences. Each restriction enzyme is specific to a small (commonly 4-6 base pair) sequence. These enzymes ca421 bytes (61 words) - 13:38, 16 February 2009
- {{r|Restriction enzyme}}461 bytes (60 words) - 20:30, 11 January 2010
- Auto-populated based on [[Special:WhatLinksHere/Restriction enzyme]]. Needs checking by a human.584 bytes (77 words) - 20:00, 11 January 2010
- {{r|Restriction enzyme}}572 bytes (74 words) - 20:00, 11 January 2010
- The DNA to be tested must be cut into pieces by a [[restriction enzyme]] that cleaves the DNA at specific sites in the DNA sequence. To sort the c2 KB (395 words) - 20:45, 14 February 2010
- {{r|Restriction enzyme}}1 KB (156 words) - 08:01, 16 April 2010
- {{r|Restriction enzyme}}5 KB (593 words) - 10:53, 12 May 2023
- ...for genetic engineering and a key resource for this was the isolation of [[restriction enzyme|restriction endonucleases]], which are able to cut DNA at specific sites. F7 KB (1,045 words) - 06:31, 9 June 2009
- :[[Hamilton Smith]] and [[Kent Wilcox]] isolated the first [[restriction enzyme]], HindII, that cuts DNA at a very specific nucleotide sequence.8 KB (1,066 words) - 11:36, 15 September 2013
- ...e>The mean size of the terminal telomere fragment obtained by cutting with restriction enzyme (the mean terminal restriction fragment, or TRF) was found to decrease in c9 KB (1,412 words) - 18:31, 11 February 2010
- ...m]] by [[Exportin 5]], a carrier protein. The [[Dicer]] [[enzyme]] then [[restriction enzyme|cut]]s 20-25 nucleotides from the base of the hairpin to release the mature17 KB (2,541 words) - 06:55, 9 June 2009
- ...long, do not contain any coding sequences, and can be recognized by the [[restriction enzyme]] AluI (thus the name). With about 1 million copies, SINEs make up about 119 KB (1,202 words) - 09:52, 14 November 2007
- |rowspan=3 |discovery of [[restriction enzyme]]s and their application to molecular biology21 KB (2,676 words) - 09:02, 1 March 2024
- ...ry of the genetic code and such tools of [[Clone (genetics)|cloning]] as [[restriction enzyme]]s, the avenues of investigation open to geneticists were greatly broadened18 KB (2,617 words) - 06:31, 9 June 2009
- ...ds). The most frequently-used nucleases in [[molecular biology]] are the [[restriction enzyme|restriction endonucleases]], which cut DNA at specific sequences. For insta66 KB (9,714 words) - 18:35, 12 April 2018
- ...ds). The most frequently-used nucleases in [[molecular biology]] are the [[restriction enzyme|restriction endonucleases]], which cut DNA at specific sequences. For insta82 KB (12,291 words) - 08:45, 25 October 2013