| 326 | 11 | 45 |
| 下载次数 | 被引频次 | 阅读次数 |
微小RNA (microRNAs, miRNAs)是一类内源性的、长度在19~25个核苷酸的单链非编码小RNA分子,在生物体内主要参与基因转录后水平的表达调控。研究证实,同一miRNA可以靶向多种不同的基因,同一基因也可以由多个miRNAs调控,miRNA与其靶基因形成的互作模体(motifs)不仅可以调控生物的生长发育,在生殖、代谢和疾病发生等多个方面也具有重要的作用。本研究从miRNA靶基因的鉴定,miRNA调控靶基因的方式以及水产动物中“miRNA-靶基因”模体的研究进展3个方面进行综述,旨在为系统掌握水产动物miRNA对其靶基因的调控特点及规律,探讨水产动物中“miRNA-靶基因”模体参与水产动物重要生理生化过程的分子机制提供更多参考。
Abstract:microRNAs(miRNAs) are a class of endogenous small non-coding RNAs with length of about 19~25 nucleotides. miRNAs mainly are involved in gene expression regulation at post-transcriptional level. It has been demonstrated that a given miRNA might have multiple different gene targets, and a given gene might be targeted by multiple miRNAs. "miRNA-gene" interaction motifs have been documented play important regulatory roles in the development, reproductive processes, cell proliferation and apoptosis, metabolic processes and diseases in eukaryotic organisms. In this study, we reviewed the identification of miRNA target gene, the way of miRNA regulating target gene and the research progress of "miRNA-gene" motif in aquatic animals so that we can further understand biological roles of miRNAs in aquatic animals systematically, and also, it can help us explore the molecular mechanisms of "miRNA-gene" motifs participating in important physiological and biochemical processes.
Abramov R.,Fu G.D.,Zhang Y.,and Peng C.,2013,Expression and regulation of mi R-17a and mi R-430b in zebrafish ovarian follicles,Gen.Comp.Endocrinol.,188(1):309-315.
Asgari S.,2011,Role of microRNAs in insect host-microorganism interactions,Front.Physiol.,2:48.
Baek D.,Villén J.,Shin C.,Camargo F.D.,Gygi S.P.,and Bartel D.P.,2008,The impact of microRNAs on protein output,Nature,455(7209):64-71.
Balkhi M.Y.,Iwenofu O.H.,Bakkar N.,Ladner K.J.,Chandler D.S.,Houghton P.J.,London C.A.,Kraybill W.,Perrotti D.,Croce C.M.,Keller C.,and Guttridge D.C.,2013,Mi R-29 acts as a decoy in sarcomas to protect the tumor suppressor A20m RNA from degradation by HuR,Sci.Signal.,6(286):63.
Bartel D.P.,2004,MicroRNAs:genomics,biogenesis,mechanism,and function,Cell,116(2):281-297.
Bartel D.P.,2009,MicroRNAs:target recognition and regulatory functions,Cell,136(2):215-233.
Behm-Ansmant I.,Rehwinkel J.,Doerks T.,Stark A.,Bork P.,and Izaurralde E.,2006,MRNA degradation by mi RNAs and GW182 requires both CCR4:NOT deadenylase and DCP1:DCP2 decapping complexes,Gene.Devel.,20 (14):1885-1898.
Beitzinger M.,Peters L.,Zhu J.Y.,Kremmer E.,and Meister G.,2007,Identification of human microRNA targets from isolated argonaute protein complexes,RNA Biol.,4(2):76-84.
Bhattacharyya S.N.,Habermacher R.,Martine U.,Closs E.I.,and Filipowicz W.,2006,Relief of microRNA-mediated translational repression in human cells subjected to stress,Cell,125(6):1111-1124.
Chou C.H.,Lin F.M.,Chou M.T.,Hsu S.D.,Chang T.H.,Weng S.L.,Shrestha S.,Hsiao C.C.,Hung J.H.,and Huang H.D.,2013,A computational approach for identifying microRNA-target interactions using high-throughput CLIP and PAR-CL-IP sequencing,Bmc Genomics,14(S1):2.
Conte I.,Carrella S.,Avellino R.,Karali M.,Marco-Ferreres R.,Bovolenta P.,and Banfi S.,2010,mi R-204 is required for lens and retinal development via Meis2 targeting,Proc.Natl.Acad.Sci.USA,107(35):15491-15496.
Dang L.T.,Kondo H.,Aoki T.,and Hirono I.,2008,Engineered virus-encoded pre-microRNA (pre-miRNA) induces sequence-specific antiviral response in addition to nonspecific immunity in a fish cell line:convergence of RNAi-related pathways and IFN-related pathways in antiviral response,Ant.Res.,80(3):316-323.
Eiring A.M.,Harb J.G.,Paolo N.,Garton C.,Oaks J.J.,Spizzo R.,Liu S.J.,Schwind S.,Santhanam R.,Hickey C.J.,Becker H.,Chandler J.C.,Andino R.,Cortes J.,Hokland P.,Huettner C.S.,Bhatia R.,Roy D.C.,Liebhaber S.A.,Caligiuri M.A.,Marcucci G.,Garzon R.,Croce C.M.,Calin G.A.,and Perrotti D.,2010,Mi R-328 functions as an RNA decoy to modulate hnRNP E2 regulation of m RNA translation in leukemic blasts,Cell,140(5):652-665.
Enright A.,John B.,Gaul U.,Tuschl T.,Sander C.,and Marks D.S.,2003,MicroRNA targets in Drosophila,Genome Biol.,4(11):8.
Eran H.,Mansfield J.H.,Soraya Y.,Hu K.J.,Harfe B.D.,McManus M.T.,Baskerville S.,Bartel D.P.,and TabinC.J.,2006,The microRNA mi R-196 acts upstream of Hoxb8and Shh in limb development,Nature,438(7068):671-674.
Esau C.,Davis S.,Murray S.F.,Yu X.X.,Pandey S.K.,Pear M.,Watts L.,Booten S.L.,Graham M.,McKay R.,Subramaniam A.,Propp S.,Lollo B.A.,Freier S.,Bennett C.F.,Bhanot S.,and Monia B.P.,2006,mi R-122 regulation of lipid metabolism revealed by in vivo antisense targeting,Cell Metab.,3(2):87-98.
Fish J.E.,Wythe J.D.,Xiao T.,Bruneau B.G.,Stainier D.Y.R.,Srivastava D.,and Woo S.,2011,A Slit/mi R-218/Robo regulatory loop is required during heart tube formation in zebrafish,Development,138(7):1409-1419.
Flynt A.S.,Li N.,Thatcher E.J.,Solnica-Krezel L.,and Patton J.G.,2007,Zebrafish mi R-214 modulates hedgehog signaling to specify muscle cell fate,Nat.Genet.,39(2):259-263.
Friedman R.,Farh K.,Burge C.B.,and Bartel D.P.,2008,Most mammalian m RNAs are conserved targets of microRNAs,Genome Res.,19(1):92-105.
Guo M.,Gui M.J.,Xi X.,Duan X.M.,Zhao X.L.,Zhang W.W.,Shao Y.N.,Wang B.,Diao J.,and Li C.H.,2021,BAG2mediates coelomocyte apoptosis in Vibrio splendidus challenged sea cucumber Apostichopus japonicus,International journal of biological macromolecules,189:34-43.
Han J.J.,Xu G.L.,and Xu T.J.,2016,The miiuy croaker microR-NA transcriptome and microRNA regulation of RIG-I like receptor signaling pathway after poly (I:C) stimulation,Fish Shellfish Immunol.,54:419-426.
Huang T.Z.,and Zhang X.B.,2012,Functional analysis of a crustacean microRNA in host-virus interactions,J.Virol.,86(23):12997-13004.
Jan M.,Volker H.,Marc Z.,Pscherer A.,Lichter P.,and Seiffert M.,2013,Genome-wide identification of translationally inhibited and degraded mi R-155 targets using RNA-interacting protein-IP,RNA Biol.,10(6):1017-1029.
Jiao Y.,Zheng Z.,Tian R.R.,Du X.D.,Wang Q.H.,and Huang R.L.,2015,microRNA,Pm-mi R-2305,participates in nacre formation by targeting pearlin in pearl oyster Pinctada martensii,Int.J.Mol.Sci.,16(9):21442-21453.
Kong L.M.,Lu H.X.,Liu J.L.,He R.L.,Yue M.L.,and Su X.M.,2017,Research progress of mi RNA in sea cucumber (Apostichopus japonicus),Jiyinzuxue yu Yingyong Shengwuxue(Genomics and Applied Biology),36(5):1946-1952.(孔令明,陆慧仙,刘娇丽,何瑞琳,岳墨林,苏心玫,2017,仿刺参(Apostichopus japonicus) mi RNA研究进展,基因组学与应用生物学,36(5):1946-1952.)
Krek A.,Grün D.,Poy M.N.,Wolf R.,Rosenberg L.,Epstein E.J.,MacMenamin P.,Piedade I.,Gunsalus K.C.,Stoffel M.,and Rajewsky N.,2005,Combinatorial microRNA target predictions,Nat.Genet.,37(5):495-500.
Latifa Z.,Duygu K.,and Elisa I.,2014,GW182 proteins cause PABP dissociation from silenced mi RNA targets in the absence of deadenylation,Embo J.,32(7):1052-1065.
Lee R.C.,Feinbaum R.L.,and Ambros V.,1993,The C.elegans heterochronic gene lin-4 encodes small RNAs with antisense complementarity to lin-14,Cell,75(5):843-854.
Lewis B.P.,Burge C.B.,and Bartel D.P.,2005,Conserved seed pairing,often flanked by adenosines,indicates that thousands of human genes are microRNA targets,Cell,120(1):15-20.
Lewis B.P.,Shih I.,Jones-Rhoades M.W.,Bartel D.P.,and Burge C.B.,2003,Prediction of mammalian microRNA targets,Cell,115(7):787-798.
Lim L.P.,Lau N.C.,Garrett-Engele P.,Grimson A.,Schelter J.M.,Castle J.,Bartel D.P.,Linsley P.S.,and Johnson J.M.,2005,Microarray analysis shows that some microRNAs downregulate large numbers of target m RNAs,Nature,433 (7027):769-773.
Lu M.,Zhang P.J.,Li C.H.,Zhang W.W.,Jin C.H.,and Han Q.X.,2015,Mi R-31 modulates coelomocytes ROS production via targeting p105 in Vibrio splendidus challenged sea cucumber Apostichopus japonicus in vitro and in vivo,Fish Shellfish Immunol.,45(2):293-299.
LüZ.M.,Li C.H.,Zhang P.J.,Wang Z.H.,Zhang W.W.,and Jin C.H.,2015,mi R-200 modulates coelomocytes antibacterial activities and LPS priming via targeting Tollip in Apostichopus japonicus,Fish Shellfish Immunol.,45(2):431-436.
Meijer H.A.,Kong Y.W.,Lu W.T.,Wilczynska A.,Spriggs R.V.,Robinson S.W.,Godfrey J.D.,Willis A.E.,and Bushell M.,2013,Translational repression and eIF4A2 activity are critical for microRNA-mediated gene regulation,Science,340(6128):82-85.
Miranda K.C.,Huynh T.,Tay Y.,Ang Y.S.,Tam W.L.,Thomson A.M.,Lim B.,and Rigoutsos I.,2006,A pattern-based method for the identification of microRNA binding sites and their corresponding heteroduplexes,Cell,126(6):1203-1217.
Mortensen R.D.,Maria S.,Steitz J.A.,and Vasudevan S.,2011,Posttranscriptional activation of gene expression in Xenopus laevis oocytes by microRNA-protein complexes (microRNPs),Proc.Nat.Acad.Sci.USA,108(20):8281-8286.
Morton S.U.,Scherz P.J.,Cordes K.R.,Ivey K.N.,Stainier D.Y.R.,and Srivastava D.,2008,microRNA-138 modulates cardiac patterning during embryonic development,Proc.Natl.Acad.Sci.USA,105(46):17830-17835.
Nottrott S.,Simard M.J.,and Richter J.D.,2006,Human let-7a mi RNA blocks protein production on actively translating polyribosomes,Nat.Struct.Mol.Biol.,13(12):1108-1114.
Petersen C.P.,Bordeleau M.E.,Pelletier J.,and Sharp P.A.,2006,Short RNAs repress translation after initiation in mammalian cells,Mol.Cell,21(4):533-542.
Rajewsky N.,2006,microRNA target predictions in animals,Nat.Genet.,38(S):8-13.
Reinhart B.J.,Slack F.J.,Basson M.,Pasquinelli A.E.,Bettinger J.C.,Rougvie A.E.,Horvitz H.R.,and Ruvkun G.,2000,The 21-nucleotide let-7 RNA regulates developmental timing in Caenorhabditis elegans,Nature,403(6772):901-906.
Rui T.,Limin L.,Dihan Z.,Hou D.X.,Cao T.,Gu H.W.,Zhang J.,Chen J.Y.,Zhang C.Y.,and Zen K.,2012,Mouse mi R-NA-709 directly regulates mi RNA-15a/16-1 biogenesis at the posttranscriptional level in the nucleus:evidence for a microRNA hierarchy system,Cell Res.,22(3):504-515.
Selbach M.,Schwanh?usser B.,Thierfelder N.,Fang Z.,Khanin R.,and Rajewsky N.,2008,Widespread changes in protein synthesis induced by microRNAs,Nature,455(7209):58-63.
Shobha V.,Yingchun T.,and Steitz J.A.,2007,Switching from repression to activation:microRNAs can up-regulate translation,Science,318(5858):1931-1934.
Song Y.N.,Shi L.L.,Liu Z.Q.,and Qiu G.F.,2014,Global analysis of the ovarian microRNA transcriptome:implication for mi R-2 and mi R-133 regulation of oocyte meiosis in the Chinese mitten crab,Eriocheir sinensis (Crustacea:Decapoda),BMC Genomics,15(1):547.
Truesdell S.S.,Mortensen R.D.,Seo M.,Schroeder J.C.,LeeJ.H.,LeTonqueze O.,and Vasudevana S.,2012,MicroRNA-mediated m RNA translation activation in quiescent cells and oocytes involves recruitment of a nuclear microRNP,Sci.Rep.,2(46):842.
Victor A.,2004,The functions of animal microRNAs,Nature,431(7006):350-355.
Von Hofsten J.,Elworthy S.,Gilchrist M.J.,Smith J.C.,Wardle F.C.,and Ingham P.W.,2008,Prdm1-and Sox6-mediated transcriptional repression specifies muscle fibre type in the zebrafish embryo,Embo Rep.,9(7):683-689.
Wang G.Z.,Li M.,Zhang C.H.,Zhan N.,Cheng H.J.,Gao Y.,Sun C.Y.,Deng W.Q.,and Li T.H.,2021,Identification of microRNA-like RNAs in Cordyceps guangdongensis and their expression profile under differential developmental stages,Fungal Genetics and Biology,147(1),103505.
Wang X.G.,Ono Y.,Tan S.C.,Chai R.J.F.,Parkin C.,and Ingham P.W.,2011,Prdm1a and miR-499 act sequentially to restrict Sox6 activity to the fast-twitch muscle lineage in the zebrafish embryo,Development,138(20):4399-4404.
Welch C.,Chen Y.,and Stallings R.L.,2007,microRNA-34a functions as a potential tumor suppressor by inducing apoptosis in neuroblastoma cells,Oncogene,26(34):5017-5022.
Xia W.,Cao G.J.,and Shao N.S.,2009,Research progress in the search and identification of microRNA target genes,Zhongguo Kexue (Scientia Sinica),39(1):121-128.(夏伟,曹国军,邵宁生,2009,microRNA靶基因的寻找及鉴定方法研究进展,中国科学,39(1):121-128.)
Yan B.,Guo J.T.,Zhao L.H.,and Zhao J.L.,2012a,microRNAexpression signature in skeletal muscle of Nile tilapia,Aquaculture,364-365:240-246.
Yan B.,Guo J.T.,Zhu C.D.,Zhao L.H.,and Zhao J.L.,2012b,mi R-203b:a novel regulator of MyoD expression in tilapia skeletal muscle,J.Exp.Biol.,216(3):447-451.
Yan B.,Zhao L.H.,Guo J.T.,and Zhao J.L.,2012c,mi R-429regulation of osmotic stress transcription factor 1 (OSTF1)in tilapia during osmotic stress,Biochem.Biophys.Res.Commun.,426(3):294-298.
Yekta S.,Shih I.H.,and Bartel D.P.,2004,microRNA-directed cleavage of HOXB8 m RNA,Science,304(5670):594-596.
Zhai Y.,Cao Y.H.,Zhang F.,and Chang Y.Q.,2015,Screening and study of mi RNA related to complement Aj C3 in sea cucumber Apostichopus japonicus,Dalian Haiyang Daxue X-uebao (Journal of Dalian Ocean University),30(6):585-591.(翟钰,曹雁惠,张峰,常亚青,2015,刺参补体Aj C3活性相关mi RNA的筛选与初步研究,大连海洋大学学报,30(6):585-591.)
Zhang B.,Pan X.P.,Wang Q.L.,Cobb G.P.,and Andersona T.A.,2006,Computational identification of microRNAs and their targets,China Biotechnol.,30(6):395-407.
Zhang P.J.,Li C.H.,Shao Y.N.,Chen X.C.,Li Y.,Su X.R.,and Li T.W.,2014,Identification and characterization of mi R-92a and its targets modulating Vibrio splendidus challenged Apostichopus japonicus,Fish Shellfish Immunol.,38 (2):383-388.
Zhang P.J.,Li C.H.,Zhang R.,Zhang W.W.,Jin C.H.,Wang L.L.,and Song L.S.,2015,The roles of two mi RNAs in regulating the immune response of sea cucumber,Genetics,201(4):1397-1410.
Zhang Y.,Shao Y.N.,LüZ.M.,and Li C.H.,2020,Mir-210regulates coelomocyte proliferation through targeting E2F3in Apostichopus japonicus,Fish&Shellfish Immunology,106:583-590.
Zhou P.,Xu W.Y.,Peng X.L.,Luo Z.H.,Xing Q.H.,Chen X.L.,Hou C.Q.,Liang W.H.,Zhou J.W.,Wu X.Y.,Zhou S.Y.,and Jiang S.S.,2013,Large-scale screens of mi RNA-m R-NA interactions unveiled that the 3'UTR of a gene is targeted by multiple mi RNAs,PLoS ONE,8(7):e68204.
Zisoulis D.G.,Kai Z.S.,Chang R.K.,and Pasquinelli A.E.,2012,Auto-regulation of microRNA biogenesis by let-7 and Argonaute,Nature,486(7404):541-544.
基本信息:
DOI:10.13417/j.gab.040.002590
中图分类号:S917.4
引用信息:
[1]任丽媛,赵谭军,尹文露,等.水产动物“miRNA-靶基因”模体(motif)生物功能研究进展[J].基因组学与应用生物学,2021,40(Z2):2590-2599.DOI:10.13417/j.gab.040.002590.
基金信息:
国家重点研发计划资助项目(2018YFD0900105); 中国水产科学研究院院级基本科研业务费-农业部海洋渔业可持续发展重点实验室开放课题(2019HY-XKQ01)共同资助
2020-03-26
2020-03-26
2020-03-26