Ssu72 Discussion: Difference between revisions
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===Protein Tyrosine Phosphatase?=== | ===Protein Tyrosine Phosphatase?=== | ||
An evaluation of the Drosophila protein as a potential Protein Tyrosine Phosphatase (PTP) is a logical place to begin this discussion as this is what Meinhart, Silberzahn, & Cramer (2003) concluded about the human protein, based on their initial characterization of its primary, secondary and 3D structures, as well as a number of important pieces of experimental data. They began by identifying, within the amino acid sequence of the Ssu72 gene, the presence of a PTPase signature motiff at the N-terminal end. This motiff is a short sequence, the consensus sequence being (H/V)C(X)5R(S/T), which forms the phosphate-binding site (P-loop) in the mature protein and is where, invariably, members of the PTP superfamily exert their catalytic action. According to ... ( ), 'amino acid sequence comparisons of the catalytic domains of PTPases with the catalytic subunits of protein Ser/Thr phosphatases have shown no sequence similarity'. This does necessarily mean that | An evaluation of the Drosophila protein as a potential Protein Tyrosine Phosphatase (PTP) is a logical place to begin this discussion as this is what Meinhart, Silberzahn, & Cramer (2003) concluded about the human protein, based on their initial characterization of its primary, secondary and 3D structures, as well as a number of important pieces of experimental data. They began by identifying, within the amino acid sequence of the Ssu72 gene, the presence of a PTPase signature motiff at the N-terminal end. This motiff is a short sequence, the consensus sequence being (H/V)C(X)5R(S/T), which forms the phosphate-binding site (P-loop) in the mature protein and is where, invariably, members of the PTP superfamily exert their catalytic action. According to ... ( ), 'amino acid sequence comparisons of the catalytic domains of PTPases with the catalytic subunits of protein Ser/Thr phosphatases have shown no sequence similarity'. This does necessarily mean that phosphatases with specificity for tyrosine cannot act on serine/threonine, but that it must be by a mechanism that has not been characterised thus far. | ||
===Serine Phosphatase?=== | ===Serine Phosphatase?=== | ||
Revision as of 10:23, 14 June 2009
Function
In attempting to infer the function of the Drosophila Ssu72 protein, two broad sources of information were used, each leading to distinct conclusions (the compatibility of which will be considered in due course). The value of the first data set as a proxy for experimental information about the Drosophila protein is predicated on the high level of similarity in amino acid sequence and almost identical match in both secondary and 3D structure that was found to exist between this protein and the human Ssu72 protein. This data comprises both in vivo and in vitro functional analyses of the latter protein, which tend to suggest that the protein in Drosophila also functions as a serine phosphatase – presumably at the C-terminal domain of RNA polymerase II (Krishnamurthy et al., 2004) – and has a role in 3' end mRNA processing that is independent of its activity as a phosphatase. The second piece of guidance comes from the results generated by the use of computational and bioinformatic tools in this paper, which prima facie reveal the Drosophila protein to be a protein tyrosine phosphatase. Therefore, these two seemingly conflicting conclusions must now be evaluated on the basis of the limited evidence available.
Protein Tyrosine Phosphatase?
An evaluation of the Drosophila protein as a potential Protein Tyrosine Phosphatase (PTP) is a logical place to begin this discussion as this is what Meinhart, Silberzahn, & Cramer (2003) concluded about the human protein, based on their initial characterization of its primary, secondary and 3D structures, as well as a number of important pieces of experimental data. They began by identifying, within the amino acid sequence of the Ssu72 gene, the presence of a PTPase signature motiff at the N-terminal end. This motiff is a short sequence, the consensus sequence being (H/V)C(X)5R(S/T), which forms the phosphate-binding site (P-loop) in the mature protein and is where, invariably, members of the PTP superfamily exert their catalytic action. According to ... ( ), 'amino acid sequence comparisons of the catalytic domains of PTPases with the catalytic subunits of protein Ser/Thr phosphatases have shown no sequence similarity'. This does necessarily mean that phosphatases with specificity for tyrosine cannot act on serine/threonine, but that it must be by a mechanism that has not been characterised thus far.
Serine Phosphatase?
Evolution
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Structure
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Abstract | Introduction | Results | Discussion | Method | References
