Literature DB >> 12554859

New microRNAs from mouse and human.

Mariana Lagos-Quintana1, Reinhard Rauhut, Jutta Meyer, Arndt Borkhardt, Thomas Tuschl.   

Abstract

MicroRNAs (miRNAs) represent a new class of noncoding RNAs encoded in the genomes of plants, invertebrates, and vertebrates. MicroRNAs regulate translation and stability of target mRNAs based on (partial) sequence complementarity. Although the number of newly identified miRNAs is still increasing, target mRNAs of animal miRNAs remain to be identified. Here we describe 31 novel miRNAs that were identified by cloning from mouse tissues and the human Saos-2 cell line. Fifty-three percent of all known mouse and human miRNAs have homologs in Fugu rubripes (pufferfish) or Danio rerio (zebrafish), of which almost half also have a homolog in Caenorhabditis elegans or Drosophila melanogaster. Because of the recurring identification of already known miRNAs and the unavoidable background of ribosomal RNA breakdown products, it is believed that not many more miRNAs may be identified by cloning. A comprehensive collection of miRNAs is important for assisting bioinformatics target mRNA identification and comprehensive genome annotation.

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Year:  2003        PMID: 12554859      PMCID: PMC1370382          DOI: 10.1261/rna.2146903

Source DB:  PubMed          Journal:  RNA        ISSN: 1355-8382            Impact factor:   4.942


  39 in total

1.  RNA interference is mediated by 21- and 22-nucleotide RNAs.

Authors:  S M Elbashir; W Lendeckel; T Tuschl
Journal:  Genes Dev       Date:  2001-01-15       Impact factor: 11.361

Review 2.  The 3' untranslated region of messenger RNA: A molecular 'hotspot' for pathology?

Authors:  B Conne; A Stutz; J D Vassalli
Journal:  Nat Med       Date:  2000-06       Impact factor: 53.440

3.  A cellular function for the RNA-interference enzyme Dicer in the maturation of the let-7 small temporal RNA.

Authors:  G Hutvágner; J McLachlan; A E Pasquinelli; E Bálint; T Tuschl; P D Zamore
Journal:  Science       Date:  2001-07-12       Impact factor: 47.728

4.  Argonaute2, a link between genetic and biochemical analyses of RNAi.

Authors:  S M Hammond; S Boettcher; A A Caudy; R Kobayashi; G J Hannon
Journal:  Science       Date:  2001-08-10       Impact factor: 47.728

5.  The lin-4 regulatory RNA controls developmental timing in Caenorhabditis elegans by blocking LIN-14 protein synthesis after the initiation of translation.

Authors:  P H Olsen; V Ambros
Journal:  Dev Biol       Date:  1999-12-15       Impact factor: 3.582

6.  Genes and mechanisms related to RNA interference regulate expression of the small temporal RNAs that control C. elegans developmental timing.

Authors:  A Grishok; A E Pasquinelli; D Conte; N Li; S Parrish; I Ha; D L Baillie; A Fire; G Ruvkun; C C Mello
Journal:  Cell       Date:  2001-07-13       Impact factor: 41.582

7.  Nucleotide sequence, transcription map, and mutation analysis of the 13q14 chromosomal region deleted in B-cell chronic lymphocytic leukemia.

Authors:  A Migliazza; F Bosch; H Komatsu; E Cayanis; S Martinotti; E Toniato; E Guccione; X Qu; M Chien; V V Murty; G Gaidano; G Inghirami; P Zhang; S Fischer; S M Kalachikov; J Russo; I Edelman; A Efstratiadis; R Dalla-Favera
Journal:  Blood       Date:  2001-04-01       Impact factor: 22.113

Review 8.  Temporal pattern formation by heterochronic genes.

Authors:  F Slack; G Ruvkun
Journal:  Annu Rev Genet       Date:  1997       Impact factor: 16.830

Review 9.  Control of developmental timing in Caenorhabditis elegans.

Authors:  V Ambros
Journal:  Curr Opin Genet Dev       Date:  2000-08       Impact factor: 5.578

Review 10.  New developments in melanoma genetics.

Authors:  N Hayward
Journal:  Curr Oncol Rep       Date:  2000-07       Impact factor: 5.075
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  312 in total

1.  The microRNAs of Caenorhabditis elegans.

Authors:  Lee P Lim; Nelson C Lau; Earl G Weinstein; Aliaa Abdelhakim; Soraya Yekta; Matthew W Rhoades; Christopher B Burge; David P Bartel
Journal:  Genes Dev       Date:  2003-04-02       Impact factor: 11.361

2.  Identification of many microRNAs that copurify with polyribosomes in mammalian neurons.

Authors:  John Kim; Anna Krichevsky; Yonatan Grad; Gabriel D Hayes; Kenneth S Kosik; George M Church; Gary Ruvkun
Journal:  Proc Natl Acad Sci U S A       Date:  2003-12-22       Impact factor: 11.205

3.  The microRNA Registry.

Authors:  Sam Griffiths-Jones
Journal:  Nucleic Acids Res       Date:  2004-01-01       Impact factor: 16.971

4.  A large imprinted microRNA gene cluster at the mouse Dlk1-Gtl2 domain.

Authors:  Hervé Seitz; Hélène Royo; Marie-Line Bortolin; Shau-Ping Lin; Anne C Ferguson-Smith; Jérôme Cavaillé
Journal:  Genome Res       Date:  2004-08-12       Impact factor: 9.043

5.  Trans-splicing and polyadenylation of let-7 microRNA primary transcripts.

Authors:  John Bracht; Shaun Hunter; Rachel Eachus; Phillip Weeks; Amy E Pasquinelli
Journal:  RNA       Date:  2004-08-30       Impact factor: 4.942

6.  A high-throughput method to monitor the expression of microRNA precursors.

Authors:  Thomas D Schmittgen; Jinmai Jiang; Qian Liu; Liuqing Yang
Journal:  Nucleic Acids Res       Date:  2004-02-25       Impact factor: 16.971

7.  Sequence-specific inhibition of microRNA- and siRNA-induced RNA silencing.

Authors:  Gunter Meister; Markus Landthaler; Yair Dorsett; Thomas Tuschl
Journal:  RNA       Date:  2004-03       Impact factor: 4.942

8.  Systematic analysis of genomic organization and heterogeneities of miRNA cluster in vertebrates.

Authors:  Jie Sun; Hai-Ping Liu; Jia-En Deng; Meng Zhou
Journal:  Mol Biol Rep       Date:  2011-12-11       Impact factor: 2.316

Review 9.  Aberrant epigenetic grooming of miRNAs in pancreatic cancer: a systems biology perspective.

Authors:  Asfar S Azmi; Frances W J Beck; Bin Bao; Ramzi M Mohammad; Fazlul H Sarkar
Journal:  Epigenomics       Date:  2011-12       Impact factor: 4.778

10.  Genome-wide analysis of mir-548 gene family reveals evolutionary and functional implications.

Authors:  Tingming Liang; Li Guo; Chang Liu
Journal:  J Biomed Biotechnol       Date:  2012-10-02
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