Literature DB >> 25254153

Improved structural annotation of protein-coding genes in the Meloidogyne hapla genome using RNA-Seq.

Yuelong Guo1, David McK Bird2, Dahlia M Nielsen1.   

Abstract

As high-throughput cDNA sequencing (RNA-Seq) is increasingly applied to hypothesis-driven biological studies, the prediction of protein coding genes based on these data are usurping strictly in silico approaches. Compared with computationally derived gene predictions, structural annotation is more accurate when based on biological evidence, particularly RNA-Seq data. Here, we refine the current genome annotation for the Meloidogyne hapla genome utilizing RNA-Seq data. Published structural annotation defines 14 420 protein-coding genes in the M. hapla genome. Of these, 25% (3751) were found to exhibit some incongruence with RNA-Seq data. Manual annotation enabled these discrepancies to be resolved. Our analysis revealed 544 new gene models that were missing from the prior annotation. Additionally, 1457 transcribed regions were newly identified on the ends of as-yet-unjoined contigs. We also searched for trans-spliced leaders, and based on RNA-Seq data, identified genes that appear to be trans-spliced. Four 22-bp trans-spliced leaders were identified using our pipeline, including the known trans-spliced leader, which is the M. hapla ortholog of SL1. In silico predictions of trans-splicing were validated by comparison with earlier results derived from an independent cDNA library constructed to capture trans-spliced transcripts. The new annotation, which we term HapPep5, is publically available at www.hapla.org.

Entities:  

Keywords:  Meloidogyne hapla; NGS; RNA sequencing; annotation; trans-splicing

Year:  2014        PMID: 25254153      PMCID: PMC4165543          DOI: 10.4161/worm.29158

Source DB:  PubMed          Journal:  Worm        ISSN: 2162-4046


  37 in total

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Authors:  James P McCarter; Makedonka Mitreva; Sandra W Clifton; David McK Bird; Robert H Waterston
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Authors:  Charles H Opperman; David M Bird; Valerie M Williamson; Dan S Rokhsar; Mark Burke; Jonathan Cohn; John Cromer; Steve Diener; Jim Gajan; Steve Graham; T D Houfek; Qingli Liu; Therese Mitros; Jennifer Schaff; Reenah Schaffer; Elizabeth Scholl; Bryon R Sosinski; Varghese P Thomas; Eric Windham
Journal:  Proc Natl Acad Sci U S A       Date:  2008-09-22       Impact factor: 11.205

3.  A second trans-spliced RNA leader sequence in the nematode Caenorhabditis elegans.

Authors:  X Y Huang; D Hirsh
Journal:  Proc Natl Acad Sci U S A       Date:  1989-11       Impact factor: 11.205

4.  Scaffolding a Caenorhabditis nematode genome with RNA-seq.

Authors:  Ali Mortazavi; Erich M Schwarz; Brian Williams; Lorian Schaeffer; Igor Antoshechkin; Barbara J Wold; Paul W Sternberg
Journal:  Genome Res       Date:  2010-10-27       Impact factor: 9.043

Review 5.  Genome sequence of the nematode C. elegans: a platform for investigating biology.

Authors: 
Journal:  Science       Date:  1998-12-11       Impact factor: 47.728

6.  RNA-seq analysis of the C. briggsae transcriptome.

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Journal:  Genome Res       Date:  2012-07-06       Impact factor: 9.043

7.  The developmental transcriptome of Drosophila melanogaster.

Authors:  Brenton R Graveley; Angela N Brooks; Joseph W Carlson; Michael O Duff; Jane M Landolin; Li Yang; Carlo G Artieri; Marijke J van Baren; Nathan Boley; Benjamin W Booth; James B Brown; Lucy Cherbas; Carrie A Davis; Alex Dobin; Renhua Li; Wei Lin; John H Malone; Nicolas R Mattiuzzo; David Miller; David Sturgill; Brian B Tuch; Chris Zaleski; Dayu Zhang; Marco Blanchette; Sandrine Dudoit; Brian Eads; Richard E Green; Ann Hammonds; Lichun Jiang; Phil Kapranov; Laura Langton; Norbert Perrimon; Jeremy E Sandler; Kenneth H Wan; Aarron Willingham; Yu Zhang; Yi Zou; Justen Andrews; Peter J Bickel; Steven E Brenner; Michael R Brent; Peter Cherbas; Thomas R Gingeras; Roger A Hoskins; Thomas C Kaufman; Brian Oliver; Susan E Celniker
Journal:  Nature       Date:  2010-12-22       Impact factor: 49.962

8.  Annotation of two large contiguous regions from the Haemonchus contortus genome using RNA-seq and comparative analysis with Caenorhabditis elegans.

Authors:  Roz Laing; Martin Hunt; Anna V Protasio; Gary Saunders; Karen Mungall; Steven Laing; Frank Jackson; Michael Quail; Robin Beech; Matthew Berriman; John S Gilleard
Journal:  PLoS One       Date:  2011-08-15       Impact factor: 3.240

9.  Horizontally transferred genes in plant-parasitic nematodes: a high-throughput genomic approach.

Authors:  Elizabeth H Scholl; Jeffrey L Thorne; James P McCarter; David Mck Bird
Journal:  Genome Biol       Date:  2003-05-19       Impact factor: 13.583

10.  The complex hybrid origins of the root knot nematodes revealed through comparative genomics.

Authors:  David H Lunt; Sujai Kumar; Georgios Koutsovoulos; Mark L Blaxter
Journal:  PeerJ       Date:  2014-05-06       Impact factor: 2.984
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  4 in total

1.  Integrating transcriptomic and proteomic data for accurate assembly and annotation of genomes.

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Journal:  Genome Res       Date:  2016-11-15       Impact factor: 9.043

2.  Optimizing k-mer size using a variant grid search to enhance de novo genome assembly.

Authors:  Soyeon Cha; David McK Bird
Journal:  Bioinformation       Date:  2016-04-10

3.  Heterodera glycines utilizes promiscuous spliced leaders and demonstrates a unique preference for a species-specific spliced leader over C. elegans SL1.

Authors:  Stacey N Barnes; Rick E Masonbrink; Thomas R Maier; Arun Seetharam; Anoop S Sindhu; Andrew J Severin; Thomas J Baum
Journal:  Sci Rep       Date:  2019-02-04       Impact factor: 4.379

4.  SLIDR and SLOPPR: flexible identification of spliced leader trans-splicing and prediction of eukaryotic operons from RNA-Seq data.

Authors:  Marius A Wenzel; Berndt Müller; Jonathan Pettitt
Journal:  BMC Bioinformatics       Date:  2021-03-22       Impact factor: 3.169
  4 in total

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