信号识别颗粒RNA

信号识别颗粒RNA
识别号
别名	RN7SL1；, 7L1a, 7SL, RN7SL, RNSRP1, Signal recognition particle RNA, RNA, 7SL, cytoplasmic 1, RNA component of signal recognition particle 7SL1
外部ID	OMIM：612177 GeneCards：RN7SL1
基因位置（人类）
染色体	14号染色体
终止	49,586,878 bp
直系同源
	6029
	无数据
	ENSG00000276168
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	维基数据
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信号识别颗粒RNA（Signal recognition particle RNA，简称SRP RNA，又称7SL RNA）是生物细胞信号识别颗粒中的RNA，在三域生物中皆有，信号识别颗粒（SRP）由RNA与蛋白质組成，可与核糖体翻译中多肽上的信号肽结合，暂停翻译，并与细胞内质网（真核生物）或细胞膜（原核生物）的信号识别颗粒受体（英语：Signal recognition particle receptor）结合，将核糖体转移至这些膜结构上^[3]^[4]，过去认为SRP RNA在SRP中仅有维持结构的功能，后续研究发现SRP RNA可协助SRP和受体的结合，并在结合后催化两个三磷酸鸟苷（GTP）分子的水解，促使SRP自信号识别颗粒受体与核糖体脱离，使核糖体继续多肽的翻译^[5]^[6]。

真核生物的SRP由长约300nt的7SL RNA和6个蛋白质（SRP9、SRP14、SRP19、SRP54、SRP68与SRP72）组成，古菌的SRP由7SL RNA和2个蛋白质組成^[7]，真细菌的SRP则由4.5S RNA和Fth蛋白组成^[8]。SRP RNA最早在1970年在病毒中被发现^[9]。真核生物的SRP RNA与tRNA与5S 核糖体RNA一样是由RNA聚合酶III 转录^[10]。

除组成SRP之外，有研究发现许多逆转录病毒颗粒中含有未与SRP蛋白结合的SRP RNA等宿主细胞的RNA，惟其功能尚不明^[6]。另外也有研究在成纤维细胞与癌细胞互动后释放的外排体中^[11]，以及人类和小鼠的红细胞细胞中发现未与SRP蛋白结合的SRP RNA^[12]。

人类基因组中占比超过10%、最常见的短散在核元件（SINE）Alu元件可能是自SRP RNA中间一段序列删除后衍生而来^[13]。

参考文献[编辑]

^ ^1.0 ^1.1 ^1.2 GRCh38: Ensembl release 89: ENSG00000276168 - Ensembl, May 2017
^ Human PubMed Reference:. National Center for Biotechnology Information, U.S. National Library of Medicine.
^ Ulbrandt ND, Newitt JA, Bernstein HD. The E. coli signal recognition particle is required for the insertion of a subset of inner membrane proteins. Cell. 1997, 88 (2): 187–196. PMID 9008159. doi:10.1016/S0092-8674(00)81839-5.
^ Zwieb C, Eichler J. Getting on target: the archaeal signal recognition particle. Archaea. 2002, 1 (1): 27–34. PMC 2685543 . PMID 15803656. doi:10.1155/2002/729649.
^ Shan SO, Walter P. Co-translational protein targeting by the signal recognition particle. FEBS Letters. February 2005, 579 (4): 921–926. PMID 15680975. doi:10.1016/j.febslet.2004.11.049.
^ ^6.0 ^6.1 Telesnitsky A, Wolin SL. The Host RNAs in Retroviral Particles.. Viruses. 2016, 8 (8). PMC 4997597 . PMID 27548206. doi:10.3390/v8080235.
^ Rosenblad MA, Larsen N, Samuelsson T, Zwieb C. Kinship in the SRP RNA family. RNA Biology. 2009, 6 (5): 508–516. PMID 19838050. doi:10.4161/rna.6.5.9753.
^ Regalia M, Rosenblad MA, Samuelsson T. Prediction of signal recognition particle RNA genes. Nucleic Acids Research. 2002, 30 (15): 3368–3377. PMC 137091 . PMID 12140321. doi:10.1093/nar/gkf468.
^ Bishop JM, Levinson WE, Sullivan D, Fanshier L, Quintrell N, Jackson J. The low molecular weight RNAs of Rous sarcoma virus. II. The 7 S RNA. Virology. 1970, 42 (4): 927–937. PMID 4321311. doi:10.1016/0042-6822(70)90341-7.
^ Dieci G, Fiorino G, Castelnuovo M, Teichmann M, Pagano A. The expanding RNA polymerase III transcriptome.. Trends in Genetics. 2007, 23 (12): 614–622. PMID 17977614. doi:10.1016/j.tig.2007.09.001. hdl:11381/1706964.
^ Nabet BY, Qiu Y, Shabason JE, Wu TJ, Yoon T, Kim BC; et al. Exosome RNA Unshielding Couples Stromal Activation to Pattern Recognition Receptor Signaling in Cancer.. Cell. 2017, 170 (2): 352–366.e13. PMC 6611169 . PMID 28709002. doi:10.1016/j.cell.2017.06.031.
^ Talhouarne GJS, Gall JG. 7SL RNA in vertebrate red blood cells.. RNA. 2018, 24 (7): 908–914. PMC 6004055 . PMID 29686135. doi:10.1261/rna.065474.117.
^ Ullu E, Tschudi C. Alu sequences are processed 7SL RNA genes. Nature. 1984, 312 (5990): 171–172. PMID 6209580. doi:10.1038/312171a0.

[refGRCh38Ensembl-1] 1.0 ^1.1 ^1.2 GRCh38: Ensembl release 89: ENSG00000276168 - Ensembl, May 2017

[2] Human PubMed Reference:. National Center for Biotechnology Information, U.S. National Library of Medicine.

[pmid9008159-3] Ulbrandt ND, Newitt JA, Bernstein HD. The E. coli signal recognition particle is required for the insertion of a subset of inner membrane proteins. Cell. 1997, 88 (2): 187–196. PMID 9008159. doi:10.1016/S0092-8674(00)81839-5.

[pmid15803656-4] Zwieb C, Eichler J. Getting on target: the archaeal signal recognition particle. Archaea. 2002, 1 (1): 27–34. PMC 2685543 . PMID 15803656. doi:10.1155/2002/729649.

[pmid15680975-5] Shan SO, Walter P. Co-translational protein targeting by the signal recognition particle. FEBS Letters. February 2005, 579 (4): 921–926. PMID 15680975. doi:10.1016/j.febslet.2004.11.049.

[pmid27548206-6] 6.0 ^6.1 Telesnitsky A, Wolin SL. The Host RNAs in Retroviral Particles.. Viruses. 2016, 8 (8). PMC 4997597 . PMID 27548206. doi:10.3390/v8080235.

[pmid19838050-7] Rosenblad MA, Larsen N, Samuelsson T, Zwieb C. Kinship in the SRP RNA family. RNA Biology. 2009, 6 (5): 508–516. PMID 19838050. doi:10.4161/rna.6.5.9753.

[pmid12140321-8] Regalia M, Rosenblad MA, Samuelsson T. Prediction of signal recognition particle RNA genes. Nucleic Acids Research. 2002, 30 (15): 3368–3377. PMC 137091 . PMID 12140321. doi:10.1093/nar/gkf468.

[pmid4321311-9] Bishop JM, Levinson WE, Sullivan D, Fanshier L, Quintrell N, Jackson J. The low molecular weight RNAs of Rous sarcoma virus. II. The 7 S RNA. Virology. 1970, 42 (4): 927–937. PMID 4321311. doi:10.1016/0042-6822(70)90341-7.

[pmid17977614-10] Dieci G, Fiorino G, Castelnuovo M, Teichmann M, Pagano A. The expanding RNA polymerase III transcriptome.. Trends in Genetics. 2007, 23 (12): 614–622. PMID 17977614. doi:10.1016/j.tig.2007.09.001. hdl:11381/1706964.

[pmid28709002-11] Nabet BY, Qiu Y, Shabason JE, Wu TJ, Yoon T, Kim BC; et al. Exosome RNA Unshielding Couples Stromal Activation to Pattern Recognition Receptor Signaling in Cancer.. Cell. 2017, 170 (2): 352–366.e13. PMC 6611169 . PMID 28709002. doi:10.1016/j.cell.2017.06.031.

[pmid29686135-12] Talhouarne GJS, Gall JG. 7SL RNA in vertebrate red blood cells.. RNA. 2018, 24 (7): 908–914. PMC 6004055 . PMID 29686135. doi:10.1261/rna.065474.117.

[pmid6209580-13] Ullu E, Tschudi C. Alu sequences are processed 7SL RNA genes. Nature. 1984, 312 (5990): 171–172. PMID 6209580. doi:10.1038/312171a0.

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