Ssu72 Results: Difference between revisions
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==Function== | ==Function== | ||
===BLAST results=== | ===BLAST results=== | ||
Running a protein BLAST search on the Drosophila Ssu72 protein returned a large number of highly relevant (bit score > 200) sequences that were of a very similar length (see Figure 1). However, the first 27 of those sequences were not considered relevant for a number of reasons. For instance, some were simply homologous proteins in other closely related Drosophila species that had been identified in a similar manner to this one and for which there were no PubMed publications available and thus no information that could be easily used to infer function. Others had likewise not been functionally characterised by experimentation or structural analysis and had been identified by high-throughput sequencing. Some BLAST hits were labelled as hypothetical proteins and therefore not necessarily even protein coding | Running a protein BLAST search on the Drosophila Ssu72 protein returned a large number of highly relevant (bit score > 200) sequences that were of a very similar length (see Figure 1). However, the first 27 of those sequences were not considered relevant for a number of reasons. For instance, some were simply homologous proteins in other closely related Drosophila species that had been identified in a similar manner to this one and for which there were no PubMed publications available and thus no information that could be easily used to infer function. Others had likewise not been functionally characterised by experimentation or structural analysis and had been identified by high-throughput sequencing. Some BLAST hits were labelled as hypothetical proteins and therefore not necessarily even protein coding or biologically present. The first relevant protein identified was 'SSU72 RNA polymerase II CTD phosphatase homolog (S. cerevisiae)', the human Ssu72 protein, for which there were a small number of articles available on PubMed (see Figure 2) and expression data from SymAtlas (see Figure 3). | ||
===Literature review=== | ===Literature review=== | ||
Revision as of 12:01, 11 June 2009
Evolution
Heading
Structure
Heading
Function
BLAST results
Running a protein BLAST search on the Drosophila Ssu72 protein returned a large number of highly relevant (bit score > 200) sequences that were of a very similar length (see Figure 1). However, the first 27 of those sequences were not considered relevant for a number of reasons. For instance, some were simply homologous proteins in other closely related Drosophila species that had been identified in a similar manner to this one and for which there were no PubMed publications available and thus no information that could be easily used to infer function. Others had likewise not been functionally characterised by experimentation or structural analysis and had been identified by high-throughput sequencing. Some BLAST hits were labelled as hypothetical proteins and therefore not necessarily even protein coding or biologically present. The first relevant protein identified was 'SSU72 RNA polymerase II CTD phosphatase homolog (S. cerevisiae)', the human Ssu72 protein, for which there were a small number of articles available on PubMed (see Figure 2) and expression data from SymAtlas (see Figure 3).
Literature review
melenogaster Abstract | Introduction | Results | Discussion | Conclusion | Method | References
