Literature DB >> 12819127

Identification of putative noncoding RNAs among the RIKEN mouse full-length cDNA collection.

Koji Numata1, Akio Kanai, Rintaro Saito, Shinji Kondo, Jun Adachi, Laurens G Wilming, David A Hume, Yoshihide Hayashizaki, Masaru Tomita.   

Abstract

With the sequencing and annotation of genomes and transcriptomes of several eukaryotes, the importance of noncoding RNA (ncRNA)-RNA molecules that are not translated to protein products-has become more evident. A subclass of ncRNA transcripts are encoded by highly regulated, multi-exon, transcriptional units, are processed like typical protein-coding mRNAs and are increasingly implicated in regulation of many cellular functions in eukaryotes. This study describes the identification of candidate functional ncRNAs from among the RIKEN mouse full-length cDNA collection, which contains 60,770 sequences, by using a systematic computational filtering approach. We initially searched for previously reported ncRNAs and found nine murine ncRNAs and homologs of several previously described nonmouse ncRNAs. Through our computational approach to filter artifact-free clones that lack protein coding potential, we extracted 4280 transcripts as the largest-candidate set. Many clones in the set had EST hits, potential CpG islands surrounding the transcription start sites, and homologies with the human genome. This implies that many candidates are indeed transcribed in a regulated manner. Our results demonstrate that ncRNAs are a major functional subclass of processed transcripts in mammals.

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Year:  2003        PMID: 12819127      PMCID: PMC403720          DOI: 10.1101/gr.1011603

Source DB:  PubMed          Journal:  Genome Res        ISSN: 1088-9051            Impact factor:   9.043


  43 in total

Review 1.  Computational genomics of noncoding RNA genes.

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3.  Analysis of the mouse transcriptome based on functional annotation of 60,770 full-length cDNAs.

Authors:  Y Okazaki; M Furuno; T Kasukawa; J Adachi; H Bono; S Kondo; I Nikaido; N Osato; R Saito; H Suzuki; I Yamanaka; H Kiyosawa; K Yagi; Y Tomaru; Y Hasegawa; A Nogami; C Schönbach; T Gojobori; R Baldarelli; D P Hill; C Bult; D A Hume; J Quackenbush; L M Schriml; A Kanapin; H Matsuda; S Batalov; K W Beisel; J A Blake; D Bradt; V Brusic; C Chothia; L E Corbani; S Cousins; E Dalla; T A Dragani; C F Fletcher; A Forrest; K S Frazer; T Gaasterland; M Gariboldi; C Gissi; A Godzik; J Gough; S Grimmond; S Gustincich; N Hirokawa; I J Jackson; E D Jarvis; A Kanai; H Kawaji; Y Kawasawa; R M Kedzierski; B L King; A Konagaya; I V Kurochkin; Y Lee; B Lenhard; P A Lyons; D R Maglott; L Maltais; L Marchionni; L McKenzie; H Miki; T Nagashima; K Numata; T Okido; W J Pavan; G Pertea; G Pesole; N Petrovsky; R Pillai; J U Pontius; D Qi; S Ramachandran; T Ravasi; J C Reed; D J Reed; J Reid; B Z Ring; M Ringwald; A Sandelin; C Schneider; C A M Semple; M Setou; K Shimada; R Sultana; Y Takenaka; M S Taylor; R D Teasdale; M Tomita; R Verardo; L Wagner; C Wahlestedt; Y Wang; Y Watanabe; C Wells; L G Wilming; A Wynshaw-Boris; M Yanagisawa; I Yang; L Yang; Z Yuan; M Zavolan; Y Zhu; A Zimmer; P Carninci; N Hayatsu; T Hirozane-Kishikawa; H Konno; M Nakamura; N Sakazume; K Sato; T Shiraki; K Waki; J Kawai; K Aizawa; T Arakawa; S Fukuda; A Hara; W Hashizume; K Imotani; Y Ishii; M Itoh; I Kagawa; A Miyazaki; K Sakai; D Sasaki; K Shibata; A Shinagawa; A Yasunishi; M Yoshino; R Waterston; E S Lander; J Rogers; E Birney; Y Hayashizaki
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7.  CpG islands in vertebrate genomes.

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8.  Searching protein sequence libraries: comparison of the sensitivity and selectivity of the Smith-Waterman and FASTA algorithms.

Authors:  W R Pearson
Journal:  Genomics       Date:  1991-11       Impact factor: 5.736

9.  Systematic expression profiling of the mouse transcriptome using RIKEN cDNA microarrays.

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10.  A comprehensive transcript map of the mouse Gnas imprinted complex.

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  63 in total

1.  CDS annotation in full-length cDNA sequence.

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Journal:  Genome Res       Date:  2003-06       Impact factor: 9.043

Review 2.  Methods for transcriptional profiling in plants. Be fruitful and replicate.

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4.  Experimental validation of the regulated expression of large numbers of non-coding RNAs from the mouse genome.

Authors:  Timothy Ravasi; Harukazu Suzuki; Ken C Pang; Shintaro Katayama; Masaaki Furuno; Rie Okunishi; Shiro Fukuda; Kelin Ru; Martin C Frith; M Milena Gongora; Sean M Grimmond; David A Hume; Yoshihide Hayashizaki; John S Mattick
Journal:  Genome Res       Date:  2005-12-12       Impact factor: 9.043

5.  A noncoding RNA is a potential marker of cell fate during mammary gland development.

Authors:  Melanie R Ginger; Amy N Shore; Alejandro Contreras; Monique Rijnkels; Jonathan Miller; Maria F Gonzalez-Rimbau; Jeffrey M Rosen
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6.  Tsix-mediated epigenetic switch of a CTCF-flanked region of the Xist promoter determines the Xist transcription program.

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Journal:  Genes Dev       Date:  2006-10-15       Impact factor: 11.361

7.  Transcriptional profiling of hematopoietic stem cells by high-throughput sequencing.

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8.  Non-coding RNAs revealed during identification of genes involved in chicken immune responses.

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Journal:  Immunogenetics       Date:  2008-11-14       Impact factor: 2.846

9.  Novel long non-protein coding RNAs involved in Arabidopsis differentiation and stress responses.

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Journal:  Genome Res       Date:  2008-11-07       Impact factor: 9.043

10.  EICO (Expression-based Imprint Candidate Organizer): finding disease-related imprinted genes.

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