A Long-Read Transcriptome Assembly of Cotton (Gossypium hirsutum L.) and Intraspecific Single Nucleotide Polymorphism Discovery.

Publication Overview
TitleA Long-Read Transcriptome Assembly of Cotton (Gossypium hirsutum L.) and Intraspecific Single Nucleotide Polymorphism Discovery.
AuthorsAshrafi H, Hulse-Kemp AM, Wang F, Yang SS, Guan X, Jones DC, Matvienko M, Mockaitis K, Chen ZJ, Stelly DM, Van Deynze A
TypeJournal Article
Journal NameThe Plant Genome
Volume8
Issue2
Year2015
Page(s)1-14
CitationAshrafi H, Hulse-Kemp AM, Wang F, Yang SS, Guan X, Jones DC, Matvienko M, Mockaitis K, Chen ZJ, Stelly DM, Van Deynze A. A Long-Read Transcriptome Assembly of Cotton (Gossypium hirsutum L.) and Intraspecific Single Nucleotide Polymorphism Discovery. 2015; 8(2):1-14.

Abstract

Upland cotton (Gossypium hirsutum L.) has a narrow germplasm base, which constrains marker development and hampers intraspecific breeding. A pressing need exists for high-throughput single nucleotide polymorphism (SNP) markers that can be readily applied to germplasm in breeding and breeding-related research programs. Despite progress made in developing new sequencing technologies during the past decade, the cost of sequencing remains substantial when one is dealing with numerous samples and large genomes. Several strategies have been proposed to lower the cost of sequencing for multiple genotypes of large-genome species like cotton, such as transcriptome sequencing and reduced-representation DNA sequencing. This paper reports the development of a transcriptome assembly of the inbred line Texas Marker-1 (TM-1), a genetic standard for cotton, its usefulness as a reference for RNA sequencing (RNA-seq)-based SNP identification, and the availability of transcriptome sequences of four other cotton cultivars. An assembly of TM-1 was made using Roche 454 transcriptome reads combined with an assembly of all available public expressed sequence tag (EST) sequences of TM-1. The TM-1 assembly consists of 72,450 contigs with a total of 70 million bp. Functional predictions of the transcripts were estimated by alignment to selected protein databases. Transcriptome sequences of the five lines, including TM-1, were obtained using an Illumina Genome Analyzer-II, and the short reads were mapped to the TM-1 assembly to discover SNPs among the five lines. We identified >14,000 unfiltered allelic SNPs, of which ∼3,700 SNPs were retained for assay development after applying several rigorous filters. This paper reports availability of the reference transcriptome assembly and shows its utility in developing intraspecific SNP markers in upland cotton.
Features
This publication contains information about 14,613 features:
Feature NameUniquenameType
UCD_Gh_M_012007UCD_Gh_M_012007genetic_marker
UCD_Gh_M_012008UCD_Gh_M_012008genetic_marker
UCD_Gh_M_012009UCD_Gh_M_012009genetic_marker
UCD_Gh_M_012010UCD_Gh_M_012010genetic_marker
UCD_Gh_M_012011UCD_Gh_M_012011genetic_marker
UCD_Gh_M_012012UCD_Gh_M_012012genetic_marker
UCD_Gh_M_012014UCD_Gh_M_012014genetic_marker
UCD_Gh_M_012015UCD_Gh_M_012015genetic_marker
UCD_Gh_M_012016UCD_Gh_M_012016genetic_marker
UCD_Gh_M_012017UCD_Gh_M_012017genetic_marker
UCD_Gh_M_012018UCD_Gh_M_012018genetic_marker
UCD_Gh_M_012019UCD_Gh_M_012019genetic_marker
UCD_Gh_M_012020UCD_Gh_M_012020genetic_marker
UCD_Gh_M_012021UCD_Gh_M_012021genetic_marker
UCD_Gh_M_012022UCD_Gh_M_012022genetic_marker
UCD_Gh_M_012023UCD_Gh_M_012023genetic_marker
UCD_Gh_M_012024UCD_Gh_M_012024genetic_marker
UCD_Gh_M_012025UCD_Gh_M_012025genetic_marker
UCD_Gh_M_012026UCD_Gh_M_012026genetic_marker
UCD_Gh_M_012027UCD_Gh_M_012027genetic_marker
UCD_Gh_M_012028UCD_Gh_M_012028genetic_marker
UCD_Gh_M_012029UCD_Gh_M_012029genetic_marker
UCD_Gh_M_012030UCD_Gh_M_012030genetic_marker
UCD_Gh_M_012031UCD_Gh_M_012031genetic_marker
UCD_Gh_M_012032UCD_Gh_M_012032genetic_marker

Pages

Libraries
This publication contains information about 1 libraries:
Library NameUnique NameOrganism
TAMU_CottonSNP63KTAMU_CottonSNP63KGossypium spp.
Properties
Additional details for this publication include:
Property NameValue
URLhttps://dl.sciencesocieties.org/publications/tpg/articles/8/2/plantgenome2014.10.0068