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- Q5303296 subject Q10195735.
- Q5303296 subject Q8661861.
- Q5303296 abstract "The Downstream-peptide motif refers to a conserved RNA structure identified by bioinformatics in the cyanobacterial genera Synechococcus and Prochlorococcus and one phage that infects such bacteria. It was also detected in marine samples of DNA from uncultivated bacteria, which are presumably other species of cyanobacteria.Downstream-peptide RNAs are found upstream of short open reading frames (ORFs) that are predicted to encode short peptides (usually between 17 and 100 amino acids). One of the ORFs is apparently down-regulated when cells are grown with an insufficient supply of nitrogen sources. Downstream-peptide RNAs overlap a predicted non-coding RNA called yfr6 that is over 200 nucleotides in length, but it was proposed that only the upstream region (corresponding to the Downstream-peptide motif) functions as an RNA structure. A distinct predicted non-coding RNA called yfr14 overlaps both yfr6 and Downstream-peptide RNAs. However, no experimental data has been published to resolve the question of which and how many of these RNAs are functional.The Downstream-peptide motif has a structural resemblance to a different candidate RNA structure called the glnA RNA motif. The most striking similarity is the nucleotide conservation within the P1 stem of both motifs, and this and other similarities was discussed previously.It was hypothesized that Downstream-peptide RNAs correspond to riboswitches, based on multiple lines of evidence. First, glnA RNAs are often located in the presumed 5' untranslated regions of multiple classes of genes involved in nitrogen metabolism. This, and other evidence, suggests that glnA RNAs are riboswitches, and their structural similarity to Downstream-peptide RNAs in turn suggests that Downstream-peptide RNAs are also riboswitches. Second, Downstream-peptides are consistently positioned in a place that is consistent with a cis-regulatory role in regulating the downstream ORFs, although the biological role of the ORFs is unknown. Third, the pseudoknot structure has a moderate complexity that is typical of riboswitches. Finally, the observation of regulation of a downstream ORF by nitrogen available also suggests a cis-regulatory role of the element. The subsequent determination that both Downstream-peptide RNAs and glnA RNAs selectively bind glutamine supports these hypotheses.".
- Q5303296 thumbnail Downstream-peptide-RNA.svg?width=300.
- Q5303296 wikiPageWikiLink Q10195735.
- Q5303296 wikiPageWikiLink Q10876.
- Q5303296 wikiPageWikiLink Q1093165.
- Q5303296 wikiPageWikiLink Q11053.
- Q5303296 wikiPageWikiLink Q128570.
- Q5303296 wikiPageWikiLink Q150962.
- Q5303296 wikiPageWikiLink Q165028.
- Q5303296 wikiPageWikiLink Q17146039.
- Q5303296 wikiPageWikiLink Q172847.
- Q5303296 wikiPageWikiLink Q181619.
- Q5303296 wikiPageWikiLink Q28745.
- Q5303296 wikiPageWikiLink Q310210.
- Q5303296 wikiPageWikiLink Q347379.
- Q5303296 wikiPageWikiLink Q34740.
- Q5303296 wikiPageWikiLink Q418840.
- Q5303296 wikiPageWikiLink Q427087.
- Q5303296 wikiPageWikiLink Q627.
- Q5303296 wikiPageWikiLink Q7430.
- Q5303296 wikiPageWikiLink Q8066.
- Q5303296 wikiPageWikiLink Q82551.
- Q5303296 wikiPageWikiLink Q8661861.
- Q5303296 wikiPageWikiLink Q908550.
- Q5303296 wikiPageWikiLink Q93315.
- Q5303296 wikiPageWikiLink Q937624.
- Q5303296 comment "The Downstream-peptide motif refers to a conserved RNA structure identified by bioinformatics in the cyanobacterial genera Synechococcus and Prochlorococcus and one phage that infects such bacteria. It was also detected in marine samples of DNA from uncultivated bacteria, which are presumably other species of cyanobacteria.Downstream-peptide RNAs are found upstream of short open reading frames (ORFs) that are predicted to encode short peptides (usually between 17 and 100 amino acids).".
- Q5303296 label "Downstream-peptide motif".
- Q5303296 depiction Downstream-peptide-RNA.svg.