Literature DB >> 20430781

The genome sequence of the spontaneously hypertensive rat: Analysis and functional significance.

Santosh S Atanur1, Inanç Birol, Victor Guryev, Martin Hirst, Oliver Hummel, Catherine Morrissey, Jacques Behmoaras, Xose M Fernandez-Suarez, Michelle D Johnson, William M McLaren, Giannino Patone, Enrico Petretto, Charles Plessy, Kathleen S Rockland, Charles Rockland, Kathrin Saar, Yongjun Zhao, Piero Carninci, Paul Flicek, Ted Kurtz, Edwin Cuppen, Michal Pravenec, Norbert Hubner, Steven J M Jones, Ewan Birney, Timothy J Aitman.   

Abstract

The spontaneously hypertensive rat (SHR) is the most widely studied animal model of hypertension. Scores of SHR quantitative loci (QTLs) have been mapped for hypertension and other phenotypes. We have sequenced the SHR/OlaIpcv genome at 10.7-fold coverage by paired-end sequencing on the Illumina platform. We identified 3.6 million high-quality single nucleotide polymorphisms (SNPs) between the SHR/OlaIpcv and Brown Norway (BN) reference genome, with a high rate of validation (sensitivity 96.3%-98.0% and specificity 99%-100%). We also identified 343,243 short indels between the SHR/OlaIpcv and reference genomes. These SNPs and indels resulted in 161 gain or loss of stop codons and 629 frameshifts compared with the BN reference sequence. We also identified 13,438 larger deletions that result in complete or partial absence of 107 genes in the SHR/OlaIpcv genome compared with the BN reference and 588 copy number variants (CNVs) that overlap with the gene regions of 688 genes. Genomic regions containing genes whose expression had been previously mapped as cis-regulated expression quantitative trait loci (eQTLs) were significantly enriched with SNPs, short indels, and larger deletions, suggesting that some of these variants have functional effects on gene expression. Genes that were affected by major alterations in their coding sequence were highly enriched for genes related to ion transport, transport, and plasma membrane localization, providing insights into the likely molecular and cellular basis of hypertension and other phenotypes specific to the SHR strain. This near complete catalog of genomic differences between two extensively studied rat strains provides the starting point for complete elucidation, at the molecular level, of the physiological and pathophysiological phenotypic differences between individuals from these strains.

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Year:  2010        PMID: 20430781      PMCID: PMC2877576          DOI: 10.1101/gr.103499.109

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


  54 in total

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Journal:  Genome Res       Date:  2002-04       Impact factor: 9.043

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Journal:  Genome Res       Date:  2008-08-19       Impact factor: 9.043

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Authors:  Anne M Glazier; James Scott; Timothy J Aitman
Journal:  Mamm Genome       Date:  2002-02       Impact factor: 2.957

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5.  Genome sequence of the Brown Norway rat yields insights into mammalian evolution.

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8.  The diploid genome sequence of an individual human.

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Journal:  PLoS Biol       Date:  2007-09-04       Impact factor: 8.029

9.  Deep short-read sequencing of chromosome 17 from the mouse strains A/J and CAST/Ei identifies significant germline variation and candidate genes that regulate liver triglyceride levels.

Authors:  Ian Sudbery; Jim Stalker; Jared T Simpson; Thomas Keane; Alistair G Rust; Matthew E Hurles; Klaudia Walter; Dee Lynch; Lydia Teboul; Steve D Brown; Heng Li; Zemin Ning; Joseph H Nadeau; Colleen M Croniger; Richard Durbin; David J Adams
Journal:  Genome Biol       Date:  2009-10-13       Impact factor: 13.583

10.  Gene prioritization based on biological plausibility over genome wide association studies renders new loci associated with type 2 diabetes.

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1.  SIFT missense predictions for genomes.

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2.  GO-Module: functional synthesis and improved interpretation of Gene Ontology patterns.

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4.  Evidence for a link between gut microbiota and hypertension in the Dahl rat.

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Review 5.  Genetics of hypertension: an assessment of progress in the spontaneously hypertensive rat.

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Review 6.  Genome sequencing in the clinic: the past, present, and future of genomic medicine.

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Review 7.  2015 Guidelines for Establishing Genetically Modified Rat Models for Cardiovascular Research.

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Review 8.  The future of model organisms in human disease research.

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9.  The differences in brain stem transcriptional profiling in hypertensive ISIAH and normotensive WAG rats.

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Review 10.  Gene targeting in the rat: advances and opportunities.

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