Ssu72 Introduction: Difference between revisions
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The Ssu72 RNA polymerase II CTD phosphatase homolog is a protein from Drosophila melanogaster that shares a high level of sequence similarity with the human Ssu72 protein - the function of which has been characterised to some degree in the literature and a number of putative homologs identified across a broad range of species. While there are fewer than 10 papers in PubMed that reference the human protein, it is useful to | The Ssu72 RNA polymerase II CTD phosphatase homolog is a protein from Drosophila melanogaster that shares a high level of sequence similarity with the human Ssu72 protein - the function of which has been characterised to some degree in the literature and a number of putative homologs identified across a broad range of species. While there are fewer than 10 papers in PubMed that reference the human protein, it is useful to give at least a cursory examination of some of that information to provide a context for a discussion of the speculative function of the drosophila protein; particularly given that it shares a 60.21% sequence identity with the human Ssu72, and that there are no gaps in the alignment produced after running a BLAST ([http://compbio.chemistry.uq.edu.au/mediawiki/index.php/Image:Human_Ssu72_BLAST_result.PNG See figure 1]). This is suggestive that, on the face of it, there may be, at the least, a broad similarity in function that can be inferred from the human protein by virtue of Ssu72's strong conservation across evolution. | ||
Revision as of 08:59, 11 June 2009
The Ssu72 RNA polymerase II CTD phosphatase homolog is a protein from Drosophila melanogaster that shares a high level of sequence similarity with the human Ssu72 protein - the function of which has been characterised to some degree in the literature and a number of putative homologs identified across a broad range of species. While there are fewer than 10 papers in PubMed that reference the human protein, it is useful to give at least a cursory examination of some of that information to provide a context for a discussion of the speculative function of the drosophila protein; particularly given that it shares a 60.21% sequence identity with the human Ssu72, and that there are no gaps in the alignment produced after running a BLAST (See figure 1). This is suggestive that, on the face of it, there may be, at the least, a broad similarity in function that can be inferred from the human protein by virtue of Ssu72's strong conservation across evolution.
Abstract |
Introduction |
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Discussion |
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Method |
References