BioMed Central | Articles which cite: MicroRNA targets in Drosophila.

Log on / register
Feedback | Support | My details

home journals A-Z subject areas advanced search authors reviewers libraries jobs about my BioMed Central

MicroRNA targets in Drosophila.
Enright AJ, John B, Gaul U, Tuschl T, Sander C, Marks DS
Genome Biol 2003, 5:R1
[Full text] [PubMed] [Related articles] [F1000 Biology] [Cited on BioMed Central]

printer friendly

to [Help]

PubMed Central articles that cite the above article:

1.	Specificity of microRNA target selection in translational repression. Doench JG, Sharp PA Genes Dev 2004 Mar 1, 18:504-11 [PubMed Central] [PubMed] [Related articles]
2.	A combined computational-experimental approach predicts human microRNA targets. Kiriakidou M, Nelson PT, Kouranov A, Fitziev P, Bouyioukos C, Mourelatos Z, Hatzigeorgiou A Genes Dev 2004 May 15, 18:1165-78 [PubMed Central] [PubMed] [Related articles]
3.	A large imprinted microRNA gene cluster at the mouse Dlk1-Gtl2 domain. Seitz H, Royo H, Bortolin ML, Lin SP, Ferguson-Smith AC, Cavaillé J Genome Res 2004 Sep, 14:1741-8 [PubMed Central] [PubMed] [Related articles]
4.	Novel and stress-regulated microRNAs and other small RNAs from Arabidopsis. Sunkar R, Zhu JK Plant Cell 2004 Aug, 16:2001-19 [PubMed Central] [PubMed] [Related articles]
5.	Human MicroRNA targets. John B, Enright AJ, Aravin A, Tuschl T, Sander C, Marks DS PLoS Biol 2004 Nov, 2:e363 [PubMed Central] [PubMed] [Related articles]
6.	Substrate requirements for let-7 function in the developing zebrafish embryo. Kloosterman WP, Wienholds E, Ketting RF, Plasterk RH Nucleic Acids Res 2004, 32:6284-91 [PubMed Central] [PubMed] [Related articles]
7.	Antisense inhibition of human miRNAs and indications for an involvement of miRNA in cell growth and apoptosis. Cheng AM, Byrom MW, Shelton J, Ford LP Nucleic Acids Res 2005, 33:1290-7 [PubMed Central] [PubMed] [Related articles]
8.	Incorporating structure to predict microRNA targets. Robins H, Li Y, Padgett RW Proc Natl Acad Sci U S A 2005 Mar 15, 102:4006-9 [PubMed Central] [PubMed] [Related articles]
9.	Principles of microRNA-target recognition. Brennecke J, Stark A, Russell RB, Cohen SM PLoS Biol 2005 Mar, 3:e85 [PubMed Central] [PubMed] [Related articles]
10.	* Unable to retrieve article 15723116 * [PubMed Central] [PubMed] [Related articles]
11.	A computational study of off-target effects of RNA interference. Qiu S, Adema CM, Lane T Nucleic Acids Res 2005, 33:1834-47 [PubMed Central] [PubMed] [Related articles]
12.	Pervasive regulation of Drosophila Notch target genes by GY-box-, Brd-box-, and K-box-class microRNAs. Lai EC, Tam B, Rubin GM Genes Dev 2005 May 1, 19:1067-80 [PubMed Central] [PubMed] [Related articles]
13.	MicroInspector: a web tool for detection of miRNA binding sites in an RNA sequence. Rusinov V, Baev V, Minkov IN, Tabler M Nucleic Acids Res 2005 Jul 1, 33:W696-700 [PubMed Central] [PubMed] [Related articles]
14.	Cloning and identification of a microRNA cluster within the latency-associated region of Kaposi's sarcoma-associated herpesvirus. Samols MA, Hu J, Skalsky RL, Renne R J Virol 2005 Jul, 79:9301-5 [PubMed Central] [PubMed] [Related articles]
15.	Evolutionarily conserved elements in vertebrate, insect, worm, and yeast genomes. Siepel A, Bejerano G, Pedersen JS, Hinrichs AS, Hou M, Rosenbloom K, Clawson H, Spieth J, Hillier LW, Richards S, Weinstock GM, Wilson RK, Gibbs RA, Kent WJ, Miller W, Haussler D Genome Res 2005 Aug, 15:1034-50 [PubMed Central] [PubMed] [Related articles]
16.	microRNA target predictions across seven Drosophila species and comparison to mammalian targets. Grün D, Wang YL, Langenberger D, Gunsalus KC, Rajewsky N PLoS Comput Biol 2005 Jun, 1:e13 [PubMed Central] [PubMed] [Related articles]
17.	Targets of microRNA regulation in the Drosophila oocyte proteome. Nakahara K, Kim K, Sciulli C, Dowd SR, Minden JS, Carthew RW Proc Natl Acad Sci U S A 2005 Aug 23, 102:12023-8 [PubMed Central] [PubMed] [Related articles]
18.	EVOPRINTER, a multigenomic comparative tool for rapid identification of functionally important DNA. Odenwald WF, Rasband W, Kuzin A, Brody T Proc Natl Acad Sci U S A 2005 Oct 11, 102:14700-5 [PubMed Central] [PubMed] [Related articles]
19.	A cAMP-response element binding protein-induced microRNA regulates neuronal morphogenesis. Vo N, Klein ME, Varlamova O, Keller DM, Yamamoto T, Goodman RH, Impey S Proc Natl Acad Sci U S A 2005 Nov 8, 102:16426-31 [PubMed Central] [PubMed] [Related articles]
20.	Revealing posttranscriptional regulatory elements through network-level conservation. Chan CS, Elemento O, Tavazoie S PLoS Comput Biol 2005 Dec, 1:e69 [PubMed Central] [PubMed] [Related articles]
21.	Drosophila microRNAs exhibit diverse spatial expression patterns during embryonic development. Aboobaker AA, Tomancak P, Patel N, Rubin GM, Lai EC Proc Natl Acad Sci U S A 2005 Dec 13, 102:18017-22 [PubMed Central] [PubMed] [Related articles]
22.	The Drosophila microRNA iab-4 causes a dominant homeotic transformation of halteres to wings. Ronshaugen M, Biemar F, Piel J, Levine M, Lai EC Genes Dev 2005 Dec 15, 19:2947-52 [PubMed Central] [PubMed] [Related articles]
23.	Revealing posttranscriptional regulatory elements through network-level conservation. Chan CS, Elemento O, Tavazoie S PLoS Comput Biol 2005 Dec, 1:e69 [PubMed Central] [PubMed] [Related articles]
24.	miRBase: microRNA sequences, targets and gene nomenclature. Griffiths-Jones S, Grocock RJ, van Dongen S, Bateman A, Enright AJ Nucleic Acids Res 2006 Jan 1, 34:D140-4 [PubMed Central] [PubMed] [Related articles]
25.	Ensembl 2006. Birney E, Andrews D, Caccamo M, Chen Y, Clarke L, Coates G, Cox T, Cunningham F, Curwen V, Cutts T, Down T, Durbin R, Fernandez-Suarez XM, Flicek P, Gräf S, Hammond M, Herrero J, Howe K, Iyer V, Jekosch K, Kähäri A, Kasprzyk A, Keefe D, Kokocinski F, Kulesha E, London D, Longden I, Melsopp C, Meidl P, Overduin B, Parker A, Proctor G, Prlic A, Rae M, Rios D, Redmond S, Schuster M, Sealy I, Searle S, Severin J, Slater G, Smedley D, Smith J, Stabenau A, Stalker J, Trevanion S, Ureta-Vidal A, Vogel J, White S, Woodwark C, Hubbard TJ Nucleic Acids Res 2006 Jan 1, 34:D556-61 [PubMed Central] [PubMed] [Related articles]
26.	"siRNAs and miRNAs": a meeting report on RNA silencing. He Z, Sontheimer EJ RNA 2004 Aug, 10:1165-73 [PubMed Central] [PubMed] [Related articles]
27.	Fast and effective prediction of microRNA/target duplexes. Rehmsmeier M, Steffen P, Hochsmann M, Giegerich R RNA 2004 Oct, 10:1507-17 [PubMed Central] [PubMed] [Related articles]
28.	Probing microRNAs with microarrays: tissue specificity and functional inference. Babak T, Zhang W, Morris Q, Blencowe BJ, Hughes TR RNA 2004 Nov, 10:1813-9 [PubMed Central] [PubMed] [Related articles]
29.	Weighted sequence motifs as an improved seeding step in microRNA target prediction algorithms. Saetrom O, Snøve O, Saetrom P RNA 2005 Jul, 11:995-1003 [PubMed Central] [PubMed] [Related articles]
30.	TarBase: A comprehensive database of experimentally supported animal microRNA targets. Sethupathy P, Corda B, Hatzigeorgiou AG RNA 2006 Feb, 12:192-7 [PubMed Central] [PubMed] [Related articles]
31.	Sequence-specific inhibition of microRNA- and siRNA-induced RNA silencing. Meister G, Landthaler M, Dorsett Y, Tuschl T RNA 2004 Mar, 10:544-50 [PubMed Central] [PubMed] [Related articles]
32.	Systematic identification of microRNA functions by combining target prediction and expression profiling. Wang X, Wang X Nucleic Acids Res 2006, 34:1646-52 [PubMed Central] [PubMed] [Related articles]
33.	Genome-wide analysis of mRNAs regulated by Drosha and Argonaute proteins in Drosophila melanogaster. Rehwinkel J, Natalin P, Stark A, Brennecke J, Cohen SM, Izaurralde E Mol Cell Biol 2006 Apr, 26:2965-75 [PubMed Central] [PubMed] [Related articles]
34.	Target prediction for small, noncoding RNAs in bacteria. Tjaden B, Goodwin SS, Opdyke JA, Guillier M, Fu DX, Gottesman S, Storz G Nucleic Acids Res 2006, 34:2791-802 [PubMed Central] [PubMed] [Related articles]
35.	Myogenic factors that regulate expression of muscle-specific microRNAs. Rao PK, Kumar RM, Farkhondeh M, Baskerville S, Lodish HF Proc Natl Acad Sci U S A 2006 Jun 6, 103:8721-6 [PubMed Central] [PubMed] [Related articles]
36.	RegRNA: an integrated web server for identifying regulatory RNA motifs and elements. Huang HY, Chien CH, Jen KH, Huang HD Nucleic Acids Res 2006 Jul 1, 34:W429-34 [PubMed Central] [PubMed] [Related articles]
37.	Timing the generation of distinct retinal cells by homeobox proteins. Decembrini S, Andreazzoli M, Vignali R, Barsacchi G, Cremisi F PLoS Biol 2006 Sep, 4:e272 [PubMed Central] [PubMed] [Related articles]
38.	MicroRNAs in Gene Regulation: When the Smallest Governs It All. Ouellet DL, Perron MP, Gobeil LA, Plante P, Provost P J Biomed Biotechnol 2006, 2006:69616 [PubMed Central] [PubMed] [Related articles]
39.	Computational Prediction of MicroRNAs Encoded in Viral and Other Genomes. Thomassen GO, Røsok O, Rognes T J Biomed Biotechnol 2006, 2006:95270 [PubMed Central] [PubMed] [Related articles]
40.	* Unable to retrieve article 16903786 * [PubMed Central] [PubMed] [Related articles]
41.	MicroRNAs regulate the expression of the alternative splicing factor nPTB during muscle development. Boutz PL, Chawla G, Stoilov P, Black DL Genes Dev 2007 Jan 1, 21:71-84 [PubMed Central] [PubMed] [Related articles]
42.	MiRNA-directed regulation of VEGF and other angiogenic factors under hypoxia. Hua Z, Lv Q, Ye W, Wong CK, Cai G, Gu D, Ji Y, Zhao C, Wang J, Yang BB, Zhang Y PLoS ONE 2006, 1:e116 [PubMed Central] [PubMed] [Related articles]
43.	miRGen: a database for the study of animal microRNA genomic organization and function. Megraw M, Sethupathy P, Corda B, Hatzigeorgiou AG Nucleic Acids Res 2007 Jan, 35:D149-55 [PubMed Central] [PubMed] [Related articles]
44.	A family of human microRNA genes from miniature inverted-repeat transposable elements. Piriyapongsa J, Jordan IK PLoS ONE 2007, 2:e203 [PubMed Central] [PubMed] [Related articles]
45.	Global analysis of microRNA target gene expression reveals that miRNA targets are lower expressed in mature mouse and Drosophila tissues than in the embryos. Yu Z, Jian Z, Shen SH, Purisima E, Wang E Nucleic Acids Res 2007, 35:152-64 [PubMed Central] [PubMed] [Related articles]
46.	Systematic variation in mRNA 3'-processing signals during mouse spermatogenesis. Liu D, Brockman JM, Dass B, Hutchins LN, Singh P, McCarrey JR, MacDonald CC, Graber JH Nucleic Acids Res 2007, 35:234-46 [PubMed Central] [PubMed] [Related articles]
47.	Double-stranded regions are essential design components of potent inhibitors of RISC function. Vermeulen A, Robertson B, Dalby AB, Marshall WS, Karpilow J, Leake D, Khvorova A, Baskerville S RNA 2007 May, 13:723-30 [PubMed Central] [PubMed] [Related articles]
48.	Regulatory circuit of human microRNA biogenesis. Lee J, Li Z, Brower-Sinning R, John B PLoS Comput Biol 2007 Apr 20, 3:e67 [PubMed Central] [PubMed] [Related articles]
49.	Rapid evolution of an X-linked microRNA cluster in primates. Zhang R, Peng Y, Wang W, Su B Genome Res 2007 May, 17:612-7 [PubMed Central] [PubMed] [Related articles]
50.	* Unable to retrieve article 17447837 * [PubMed Central] [PubMed] [Related articles]
51.	Identification of cellular genes targeted by KSHV-encoded microRNAs. Samols MA, Skalsky RL, Maldonado AM, Riva A, Lopez MC, Baker HV, Renne R PLoS Pathog 2007 May 11, 3:e65 [PubMed Central] [PubMed] [Related articles]
52.	Origin and evolution of human microRNAs from transposable elements. Piriyapongsa J, Mariño-Ramírez L, Jordan IK Genetics 2007 Jun, 176:1323-37 [PubMed Central] [PubMed] [Related articles]
53.	Global and local architecture of the mammalian microRNA-transcription factor regulatory network. Shalgi R, Lieber D, Oren M, Pilpel Y PLoS Comput Biol 2007 Jul, 3:e131 [PubMed Central] [PubMed] [Related articles]
54.	Isolation of microRNA targets by miRNP immunopurification. Easow G, Teleman AA, Cohen SM RNA 2007 Aug, 13:1198-204 [PubMed Central] [PubMed] [Related articles]
55.	* Unable to retrieve article 17630826 * [PubMed Central] [PubMed] [Related articles]
56.	Aberrant allele frequencies of the SNPs located in microRNA target sites are potentially associated with human cancers. Yu Z, Li Z, Jolicoeur N, Zhang L, Fortin Y, Wang E, Wu M, Shen SH Nucleic Acids Res 2007, 35:4535-41 [PubMed Central] [PubMed] [Related articles]
57.	A miR-24 microRNA binding-site polymorphism in dihydrofolate reductase gene leads to methotrexate resistance. Mishra PJ, Humeniuk R, Mishra PJ, Longo-Sorbello GS, Banerjee D, Bertino JR Proc Natl Acad Sci U S A 2007 Aug 14, 104:13513-8 [PubMed Central] [PubMed] [Related articles]
58.	C. elegans sequences that control trans-splicing and operon pre-mRNA processing. Graber JH, Salisbury J, Hutchins LN, Blumenthal T RNA 2007 Sep, 13:1409-26 [PubMed Central] [PubMed] [Related articles]
59.	microRNA miR-14 acts to modulate a positive autoregulatory loop controlling steroid hormone signaling in Drosophila. Varghese J, Cohen SM Genes Dev 2007 Sep 15, 21:2277-82 [PubMed Central] [PubMed] [Related articles]
60.	Energizing miRNA research: a review of the role of miRNAs in lipid metabolism, with a prediction that miR-103/107 regulates human metabolic pathways. Wilfred BR, Wang WX, Nelson PT Mol Genet Metab 2007 Jul, 91:209-17 [PubMed Central] [PubMed] [Related articles]
61.	The role of microRNAs in cancer. Stahlhut Espinosa CE, Slack FJ Yale J Biol Med 2006 Dec, 79:131-40 [PubMed Central] [PubMed] [Related articles]
62.	The LARK RNA-binding protein selectively regulates the circadian eclosion rhythm by controlling E74 protein expression. Huang Y, Genova G, Roberts M, Jackson FR PLoS ONE 2007, 2:e1107 [PubMed Central] [PubMed] [Related articles]
63.	The Drosophila nerfin-1 mRNA requires multiple microRNAs to regulate its spatial and temporal translation dynamics in the developing nervous system. Kuzin A, Kundu M, Brody T, Odenwald WF Dev Biol 2007 Oct 1, 310:35-43 [PubMed Central] [PubMed] [Related articles]
64.	Muscle-specific microRNA miR-206 promotes muscle differentiation. Kim HK, Lee YS, Sivaprasad U, Malhotra A, Dutta A J Cell Biol 2006 Aug 28, 174:677-87 [PubMed Central] [PubMed] [Related articles]
65.	MicroRNA-mediated feedback and feedforward loops are recurrent network motifs in mammals. Tsang J, Zhu J, van Oudenaarden A Mol Cell 2007 Jun 8, 26:753-67 [PubMed Central] [PubMed] [Related articles]
66.	Genomic analysis of human microRNA transcripts. Saini HK, Griffiths-Jones S, Enright AJ Proc Natl Acad Sci U S A 2007 Nov 6, 104:17719-24 [PubMed Central] [PubMed] [Related articles]
67.	Functional screening identifies miR-315 as a potent activator of Wingless signaling. Silver SJ, Hagen JW, Okamura K, Perrimon N, Lai EC Proc Natl Acad Sci U S A 2007 Nov 13, 104:18151-6 [PubMed Central] [PubMed] [Related articles]
68.	Small regulatory RNAs may sharpen spatial expression patterns. Levine E, McHale P, Levine H PLoS Comput Biol 2007 Nov, 3:e233 [PubMed Central] [PubMed] [Related articles]
69.	Evolution, biogenesis, expression, and target predictions of a substantially expanded set of Drosophila microRNAs. Ruby JG, Stark A, Johnston WK, Kellis M, Bartel DP, Lai EC Genome Res 2007 Dec, 17:1850-64 [PubMed Central] [PubMed] [Related articles]
70.	Systematic discovery and characterization of fly microRNAs using 12 Drosophila genomes. Stark A, Kheradpour P, Parts L, Brennecke J, Hodges E, Hannon GJ, Kellis M Genome Res 2007 Dec, 17:1865-79 [PubMed Central] [PubMed] [Related articles]
71.	Investigation of miRNA Biology by Bioinformatic Tools and Impact of miRNAs in Colorectal Cancer-Regulatory Relationship of c-Myc and p53 with miRNAs. Xi Y, Edwards JR, Ju J Cancer Inform 2007, 3:245-253 [PubMed Central] [PubMed] [Related articles]
72.	MicroRNAs in the Drosophila bithorax complex. Bender W Genes Dev 2008 Jan 1, 22:14-9 [PubMed Central] [PubMed] [Related articles]
73.	Kaposi's sarcoma-associated herpesvirus encodes an ortholog of miR-155. Skalsky RL, Samols MA, Plaisance KB, Boss IW, Riva A, Lopez MC, Baker HV, Renne R J Virol 2007 Dec, 81:12836-45 [PubMed Central] [PubMed] [Related articles]
74.	Members of the miRNA-200 family regulate olfactory neurogenesis. Choi PS, Zakhary L, Choi WY, Caron S, Alvarez-Saavedra E, Miska EA, McManus M, Harfe B, Giraldez AJ, Horvitz RH, Schier AF, Dulac C Neuron 2008 Jan 10, 57:41-55 [PubMed Central] [PubMed] [Related articles]
75.	MicroRNA-373 induces expression of genes with complementary promoter sequences. Place RF, Li LC, Pookot D, Noonan EJ, Dahiya R Proc Natl Acad Sci U S A 2008 Feb 5, 105:1608-13 [PubMed Central] [PubMed] [Related articles]
76.	UTRome.org: a platform for 3'UTR biology in C. elegans. Mangone M, Macmenamin P, Zegar C, Piano F, Gunsalus KC Nucleic Acids Res 2008 Jan, 36:D57-62 [PubMed Central] [PubMed] [Related articles]
77.	The microRNA.org resource: targets and expression. Betel D, Wilson M, Gabow A, Marks DS, Sander C Nucleic Acids Res 2008 Jan, 36:D149-53 [PubMed Central] [PubMed] [Related articles]
78.	miRNAMap 2.0: genomic maps of microRNAs in metazoan genomes. Hsu SD, Chu CH, Tsou AP, Chen SJ, Chen HC, Hsu PW, Wong YH, Chen YH, Chen GH, Huang HD Nucleic Acids Res 2008 Jan, 36:D165-9 [PubMed Central] [PubMed] [Related articles]
79.	A Drosophila gain-of-function screen for candidate genes involved in steroid-dependent neuroendocrine cell remodeling. Zhao T, Gu T, Rice HC, McAdams KL, Roark KM, Lawson K, Gauthier SA, Reagan KL, Hewes RS Genetics 2008 Feb, 178:883-901 [PubMed Central] [PubMed] [Related articles]
80.	The effect of central loops in miRNA:MRE duplexes on the efficiency of miRNA-mediated gene regulation. Ye W, Lv Q, Wong CK, Hu S, Fu C, Hua Z, Cai G, Li G, Yang BB, Zhang Y PLoS ONE 2008, 3:e1719 [PubMed Central] [PubMed] [Related articles]
81.	A GATA-1-regulated microRNA locus essential for erythropoiesis. Dore LC, Amigo JD, Dos Santos CO, Zhang Z, Gai X, Tobias JW, Yu D, Klein AM, Dorman C, Wu W, Hardison RC, Paw BH, Weiss MJ Proc Natl Acad Sci U S A 2008 Mar 4, 105:3333-8 [PubMed Central] [PubMed] [Related articles]
82.	Antagonism of microRNA-122 in mice by systemically administered LNA-antimiR leads to up-regulation of a large set of predicted target mRNAs in the liver. Elmén J, Lindow M, Silahtaroglu A, Bak M, Christensen M, Lind-Thomsen A, Hedtjärn M, Hansen JB, Hansen HF, Straarup EM, McCullagh K, Kearney P, Kauppinen S Nucleic Acids Res 2008 Mar, 36:1153-62 [PubMed Central] [PubMed] [Related articles]
83.	Inferring microRNA activities by combining gene expression with microRNA target prediction. Cheng C, Li LM PLoS ONE 2008, 3:e1989 [PubMed Central] [PubMed] [Related articles]
84.	Systematic identification of mRNAs recruited to argonaute 2 by specific microRNAs and corresponding changes in transcript abundance. Hendrickson DG, Hogan DJ, Herschlag D, Ferrell JE, Brown PO PLoS ONE 2008, 3:e2126 [PubMed Central] [PubMed] [Related articles]
85.	Free energy landscapes of RNA/RNA complexes: with applications to snRNA complexes in spliceosomes. Cao S, Chen SJ J Mol Biol 2006 Mar 17, 357:292-312 [PubMed Central] [PubMed] [Related articles]
86.	Sequence relationships among C. elegans, D. melanogaster and human microRNAs highlight the extensive conservation of microRNAs in biology. Ibáñez-Ventoso C, Vora M, Driscoll M PLoS ONE 2008, 3:e2818 [PubMed Central] [PubMed] [Related articles]
87.	The silkworm (Bombyx mori) microRNAs and their expressions in multiple developmental stages. Yu X, Zhou Q, Li SC, Luo Q, Cai Y, Lin WC, Chen H, Yang Y, Hu S, Yu J PLoS ONE