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词条 Escherichia coli sRNA
释义

  1. References

  2. Further reading

{{DISPLAYTITLE:Escherichia coli sRNA}}Escherichia coli contains a number of small RNAs located in intergenic regions of its genome. The presence of at least 55 of these has been verified experimentally.[1] 275 potential sRNA-encoding loci were identified computationally using the QRNA program. These loci will include false positives, so the number of sRNA genes in E. coli is likely to be less than 275.[2] A computational screen based on promoter sequences recognised by the sigma factor sigma 70 and on Rho-independent terminators predicted 24 putative sRNA genes, 14 of these were verified experimentally by northern blotting. The experimentally verified sRNAs included the well characterised sRNAs RprA and RyhB. Many of the sRNAs identified in this screen, including RprA, RyhB, SraB and SraL, are only expressed in the stationary phase of bacterial cell growth.[3] A screen for sRNA genes based on homology to Salmonella and Klebsiella identified 59 candidate sRNA genes. From this set of candidate genes, microarray analysis and northern blotting confirmed the existence of 17 previously undescribed sRNAs, many of which bind to the chaperone protein Hfq and regulate the translation of RpoS (Sigma 38).[4] UptR sRNA transcribed from the uptR gene is implicated in suppressing extracytoplasmic toxicity by reducing the amount of membrane-bound toxic hybrid protein.[5]

Cell motility enhancing sRNA named Esr41, was discovered in intergenic region of pathogenic enterohemorrhagic E.coli (EHEC) O157:H7 Sakai. Esr41 sequence is not present in nonpathogenic E. coli K12, but the sRNA can induce cell motility in K12 as well, suggesting that target genes controlled by Esr41 are present in both E.coli.[6]

Trans-encoded small RNA RalA has 16 nucleotides complimentary to coding region of toxin RalR mRNA. RalA functions as an antitoxin by preventing translation of RalR (a non-specific endonuclease that cleaves methylated and unmethylated DNA). Its activity requires RNA chaperone Hfq. RalR and RalA form a type I toxin-antitoxin (TA) system. RalR/RaLA TA locus is responsible for resistance to the antibiotic fosfomycin in E.coli.[7]

Deep sequencing of RNA expressed during chemical stress and high cell density fermentation discovered 253 novel intergenic transcripts adding to roughly 200 intergenic sRNAs previously described in E. coli. Several of the sRNAs exhibited specific expression patterns during high cell density fermentation and are differentially expressed in the presence of multiple chemicals, suggesting they may play roles during stress conditions. The novel sRNAs showing differential expression in several stress conditions were: ES003, ES036, ES056, ES098, ES173, ES180, ES205, ES220, ES222, ES239.[8]

Esre sRNA, for "essential small RNA in E. coli", is located in 3′ moiety of yigP gene[9] (also known as ubiJ), which is involved in coenzyme Q8 biosynthesis in Escherichia coli and Salmonella enterica serovar Typhimurium.AgrB antisene RNA (arsR-gov region gene B) is transcribed opposite of dinQ (translates into a toxic single transmembrane peptide) with 30 complimentary nucleotides. AgrB appears to repress accumulation of dinQ by RNA interference and counteracts its toxicity.[10]
  • Mycobacterium tuberculosis sRNA
  • Pseudomonas sRNA
  • Bacillus subtilis BSR sRNAs
  • Caenorhabditis elegans sRNA
  • List of RNA structure prediction software
{{Navbox
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| title = Gallery of E.coli small RNA secondary structure images
| titlestyle = background:#e7dcc3
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| lines=5
| Image:sraA_secondary_structure.jpg|sraA: Secondary structure taken from the [https://archive.is/20121205022142/http://rfam.org/ Rfam] database. Family RF02029
| Image:tp2_secondary_structure.jpg |tp2: Secondary structure taken from the [https://archive.is/20121205022142/http://rfam.org/ Rfam] database. Family RF02030
| Image:tpke11_secondary_structure.jpg |tpke11: Secondary structure taken from the [https://archive.is/20121205022142/http://rfam.org/ Rfam] database. Family RF02031
|}}
}}

References

1. ^{{cite journal | vauthors = Hershberg R, Altuvia S, Margalit H | title = A survey of small RNA-encoding genes in Escherichia coli | journal = Nucleic Acids Research | volume = 31 | issue = 7 | pages = 1813–20 | date = April 2003 | pmid = 12654996 | pmc = 152812 | doi = 10.1093/nar/gkg297 }}
2. ^{{cite journal | vauthors = Rivas E, Klein RJ, Jones TA, Eddy SR | title = Computational identification of noncoding RNAs in E. coli by comparative genomics | journal = Current Biology | volume = 11 | issue = 17 | pages = 1369–73 | date = September 2001 | pmid = 11553332 | doi = 10.1016/S0960-9822(01)00401-8 }}
3. ^{{cite journal | vauthors = Argaman L, Hershberg R, Vogel J, Bejerano G, Wagner EG, Margalit H, Altuvia S | title = Novel small RNA-encoding genes in the intergenic regions of Escherichia coli | journal = Current Biology | volume = 11 | issue = 12 | pages = 941–50 | date = June 2001 | pmid = 11448770 | doi = 10.1016/S0960-9822(01)00270-6 }}
4. ^{{cite journal | vauthors = Wassarman KM, Repoila F, Rosenow C, Storz G, Gottesman S | title = Identification of novel small RNAs using comparative genomics and microarrays | journal = Genes & Development | volume = 15 | issue = 13 | pages = 1637–51 | date = July 2001 | pmid = 11445539 | pmc = 312727 | doi = 10.1101/gad.901001 }}
5. ^{{cite journal | vauthors = Guigueno A, Dassa J, Belin P, Boquet PL | title = Oversynthesis of a new Escherichia coli small RNA suppresses export toxicity of DsbA'-PhoA unfoldable periplasmic proteins | journal = Journal of Bacteriology | volume = 183 | issue = 4 | pages = 1147–58 | date = February 2001 | pmid = 11157926 | pmc = 94987 | doi = 10.1128/JB.183.4.1147-1158.2001 | url = http://jb.asm.org/content/183/4/1147.long }}
6. ^{{cite journal | vauthors = Sudo N, Soma A, Muto A, Iyoda S, Suh M, Kurihara N, Abe H, Tobe T, Ogura Y, Hayashi T, Kurokawa K, Ohnishi M, Sekine Y | title = A novel small regulatory RNA enhances cell motility in enterohemorrhagic Escherichia coli | journal = The Journal of General and Applied Microbiology | volume = 60 | issue = 1 | pages = 44–50 | date = 2014-01-01 | pmid = 24646762 }}
7. ^{{cite journal | vauthors = Guo Y, Quiroga C, Chen Q, McAnulty MJ, Benedik MJ, Wood TK, Wang X | title = RalR (a DNase) and RalA (a small RNA) form a type I toxin-antitoxin system in Escherichia coli | journal = Nucleic Acids Research | volume = 42 | issue = 10 | pages = 6448–62 | date = June 2014 | pmid = 24748661 | pmc = 4041452 | doi = 10.1093/nar/gku279 }}
8. ^{{cite journal | vauthors = Rau MH, Bojanovič K, Nielsen AT, Long KS | title = Differential expression of small RNAs under chemical stress and fed-batch fermentation in E. coli | journal = BMC Genomics | volume = 16 | pages = 1051 | date = December 2015 | pmid = 26653712 | pmc = 4676190 | doi = 10.1186/s12864-015-2231-8 }} This article contains quotations from this source, which is available under the Creative Commons Attribution 4.0 International (CC BY 4.0) license.
9. ^{{cite journal | vauthors = Chen Z, Wang Y, Li Y, Li Y, Fu N, Ye J, Zhang H | title = Esre: a novel essential non-coding RNA in Escherichia coli | journal = FEBS Letters | volume = 586 | issue = 8 | pages = 1195–200 | date = April 2012 | pmid = 22575655 | doi = 10.1016/j.febslet.2012.03.010 }}
10. ^{{cite journal | vauthors = Weel-Sneve R, Kristiansen KI, Odsbu I, Dalhus B, Booth J, Rognes T, Skarstad K, Bjørås M | title = Single transmembrane peptide DinQ modulates membrane-dependent activities | journal = PLoS Genetics | volume = 9 | issue = 2 | pages = e1003260 | date = 2013 | pmid = 23408903 | pmc = 3567139 | doi = 10.1371/journal.pgen.1003260 }}

Further reading

{{refbegin|2}}
  • {{cite journal | vauthors = Carter RJ, Dubchak I, Holbrook SR | title = A computational approach to identify genes for functional RNAs in genomic sequences | journal = Nucleic Acids Research | volume = 29 | issue = 19 | pages = 3928–38 | date = October 2001 | pmid = 11574674 | pmc = 60242 | doi = 10.1093/nar/29.19.3928 }}
  • {{cite journal | vauthors = Chen S, Lesnik EA, Hall TA, Sampath R, Griffey RH, Ecker DJ, Blyn LB | title = A bioinformatics based approach to discover small RNA genes in the Escherichia coli genome | journal = Bio Systems | volume = 65 | issue = 2-3 | pages = 157–77 | year = 2002 | pmid = 12069726 | doi = 10.1016/S0303-2647(02)00013-8 }}
  • {{cite journal | vauthors = Tjaden B, Saxena RM, Stolyar S, Haynor DR, Kolker E, Rosenow C | title = Transcriptome analysis of Escherichia coli using high-density oligonucleotide probe arrays | journal = Nucleic Acids Research | volume = 30 | issue = 17 | pages = 3732–8 | date = September 2002 | pmid = 12202758 | pmc = 137427 | doi = 10.1093/nar/gkf505 }}
  • {{cite journal | vauthors = Vogel J, Sharma CM | title = How to find small non-coding RNAs in bacteria | journal = Biological Chemistry | volume = 386 | issue = 12 | pages = 1219–38 | date = December 2005 | pmid = 16336117 | doi = 10.1515/BC.2005.140 }}
  • {{cite journal | vauthors = Raghavan R, Groisman EA, Ochman H | title = Genome-wide detection of novel regulatory RNAs in E. coli | journal = Genome Research | volume = 21 | issue = 9 | pages = 1487–97 | date = September 2011 | pmid = 21665928 | pmc = 3166833 | doi = 10.1101/gr.119370.110 }}

1 : Non-coding RNA
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