Literature DB >> 15356298

Over 20% of human transcripts might form sense-antisense pairs.

Jianjun Chen1, Miao Sun, W James Kent, Xiaoqiu Huang, Hanqing Xie, Wenquan Wang, Guolin Zhou, Run Zhang Shi, Janet D Rowley.   

Abstract

The major challenge to identifying natural sense- antisense (SA) transcripts from public databases is how to determine the correct orientation for an expressed sequence, especially an expressed sequence tag sequence. In this study, we established a set of very stringent criteria to identify the correct orientation of each human transcript. We used these orientation-reliable transcripts to create 26 741 transcription clusters in the human genome. Our analysis shows that 22% (5880) of the human transcription clusters form SA pairs, higher than any previous estimates. Our orientation-specific RT-PCR results along with the comparison of experimental data from previous studies confirm that our SA data set is reliable. This study not only demonstrates that our criteria for the prediction of SA transcripts are efficient, but also provides additional convincing data to support the view that antisense transcription is quite pervasive in the human genome. In-depth analyses show that SA transcripts have some significant differences compared with other types of transcripts, with regard to chromosomal distribution and Gene Ontology-annotated categories of physiological roles, functions and spatial localizations of gene products.

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Year:  2004        PMID: 15356298      PMCID: PMC519112          DOI: 10.1093/nar/gkh818

Source DB:  PubMed          Journal:  Nucleic Acids Res        ISSN: 0305-1048            Impact factor:   16.971


  41 in total

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4.  Antisense transcripts with FANTOM2 clone set and their implications for gene regulation.

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Review 5.  Making (anti)sense of non-coding sequence conservation.

Authors:  D J Lipman
Journal:  Nucleic Acids Res       Date:  1997-09-15       Impact factor: 16.971

Review 6.  Regulation of gene expression by natural antisense RNA transcripts.

Authors:  R Knee; P R Murphy
Journal:  Neurochem Int       Date:  1997-09       Impact factor: 3.921

7.  dbEST--database for "expressed sequence tags".

Authors:  M S Boguski; T M Lowe; C M Tolstoshev
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8.  Antisense transcripts in the human genome.

Authors:  Ben Lehner; Gary Williams; R Duncan Campbell; Christopher M Sanderson
Journal:  Trends Genet       Date:  2002-02       Impact factor: 11.639

Review 9.  Antisense RNA: function and fate of duplex RNA in cells of higher eukaryotes.

Authors:  M Kumar; G G Carmichael
Journal:  Microbiol Mol Biol Rev       Date:  1998-12       Impact factor: 11.056

10.  Computational discovery of sense-antisense transcription in the human and mouse genomes.

Authors:  Jay Shendure; George M Church
Journal:  Genome Biol       Date:  2002-08-22       Impact factor: 13.583
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  159 in total

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5.  A mouse atlas of gene expression: large-scale digital gene-expression profiles from precisely defined developing C57BL/6J mouse tissues and cells.

Authors:  Asim S Siddiqui; Jaswinder Khattra; Allen D Delaney; Yongjun Zhao; Caroline Astell; Jennifer Asano; Ryan Babakaiff; Sarah Barber; Jaclyn Beland; Slavita Bohacec; Mabel Brown-John; Steve Chand; David Charest; Anita M Charters; Rebecca Cullum; Noreen Dhalla; Ruth Featherstone; Daniela S Gerhard; Brad Hoffman; Robert A Holt; Juan Hou; Byron Y-L Kuo; Lisa L C Lee; Stephanie Lee; Derek Leung; Kevin Ma; Corey Matsuo; Michael Mayo; Helen McDonald; Anna-liisa Prabhu; Pawan Pandoh; Gregory J Riggins; Teresa Ruiz de Algara; James L Rupert; Duane Smailus; Jeff Stott; Miranda Tsai; Richard Varhol; Pavle Vrljicak; David Wong; Mona K Wu; Yuan-Yun Xie; George Yang; Ida Zhang; Martin Hirst; Steven J M Jones; Cheryl D Helgason; Elizabeth M Simpson; Pamela A Hoodless; Marco A Marra
Journal:  Proc Natl Acad Sci U S A       Date:  2005-12-13       Impact factor: 11.205

6.  Primate-specific endogenous cis-antisense transcription in the human 5q31 protocadherin gene cluster.

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Journal:  J Mol Evol       Date:  2005-12-06       Impact factor: 2.395

7.  A high frequency of overlapping gene expression in compacted eukaryotic genomes.

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8.  Extensive adenosine-to-inosine editing detected in Alu repeats of antisense RNAs reveals scarcity of sense-antisense duplex formation.

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9.  The effect of temperature on Natural Antisense Transcript (NAT) expression in Aspergillus flavus.

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10.  Protein-coding cis-natural antisense transcripts have high and broad expression in Arabidopsis.

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