De novo sequence assembly and characterization of the floral transcriptome in cross- and self-fertilizing plants

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Abstract

Background

The shift from cross-fertilization to predominant self-fertilization is among the most common evolutionary transitions in the reproductive biology of flowering plants. Increased inbreeding has important consequences for floral morphology, population genetic structure and genome evolution. The transition to selfing is usually characterized by a marked reduction in flower size and the loss of traits involved in pollinator attraction and the avoidance of self-fertilization. Here, we use short-read sequencing to assemble, de novo, the floral transcriptomes of three genotypes of Eichhornia paniculata, including an outcrosser and two genotypes from independently derived selfers, and a single genotype of the sister species E. paradoxa. By sequencing mRNA from tissues sampled at various stages of flower development, our goal was to sequence and assemble the floral transcriptome and identify differential patterns of gene expression.

Results

Our 24 Mbp assembly resulted in ~27,000 contigs that averaged ~900 bp in length. All four genotypes had highly correlated gene expression, but the three E. paniculata genotypes were more correlated with one another than each was to E. paradoxa. Our analysis identified 269 genes associated with floral development, 22 of which were differentially expressed in selfing lineages relative to the outcrosser. Many of the differentially expressed genes affect floral traits commonly altered in selfing plants and these represent a set of potential candidate genes for investigating the evolution of the selfing syndrome.

Conclusions

Our study is among the first to demonstrate the use of Illumina short read sequencing for de novo transcriptome assembly in non-model species, and the first to implement this technology for comparing floral transcriptomes in outcrossing and selfing plants.

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The Arabidopsis Information Resource (TAIR): gene structure and function annotation

David Swarbreck, Christopher Wilks, Philippe Lamesch … (2008)

The Arabidopsis Information Resource (TAIR, http://arabidopsis.org) is the model organism database for the fully sequenced and intensively studied model plant Arabidopsis thaliana. Data in TAIR is derived in large part from manual curation of the Arabidopsis research literature and direct submissions from the research community. New developments at TAIR include the addition of the GBrowse genome viewer to the TAIR site, a redesigned home page, navigation structure and portal pages to make the site more intuitive and easier to use, the launch of several TAIR web services and a new genome annotation release (TAIR7) in April 2007. A combination of manual and computational methods were used to generate this release, which contains 27 029 protein-coding genes, 3889 pseudogenes or transposable elements and 1123 ncRNAs (32 041 genes in all, 37 019 gene models). A total of 681 new genes and 1002 new splice variants were added. Overall, 10 098 loci (one-third of all loci from the previous TAIR6 release) were updated for the TAIR7 release.

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From RNA-seq reads to differential expression results

Alicia Oshlack, Mark Robinson, Matthew D. Young (2010)

Many methods and tools are available for preprocessing high-throughput RNA sequencing data and detecting differential expression.

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Self-Compatibility and Establishment After 'Long-Distance' Dispersal

H. G. Baker (1955)

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Author and article information

Journal

Journal ID (nlm-ta): BMC Genomics

Title: BMC Genomics

Publisher: BioMed Central

ISSN (Electronic): 1471-2164

Publication date Collection: 2011

Publication date (Electronic): 7 June 2011

Volume: 12

Page: 298

Affiliations

[1 ]Department of Ecology & Evolutionary Biology, University of Toronto, 25 Willcocks Street, Toronto, ON M5S 3B2, Canada

[2 ]Centre for the Analysis of Genome Evolution & Function, University of Toronto, 25 Willcocks Street, Toronto, ON M5S 3B2, Canada

Article

Publisher ID: 1471-2164-12-298

DOI: 10.1186/1471-2164-12-298

PMC ID: 3128866

PubMed ID: 21649902

SO-VID: 911d4c2a-744f-4418-aee6-ee8c665f0036

License:

This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

De novo sequence assembly and characterization of the floral transcriptome in cross- and self-fertilizing plants

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Abstract

Background

Results

Conclusions

Related collections

Arabidopsis genomics

Most cited references 36

The Arabidopsis Information Resource (TAIR): gene structure and function annotation

From RNA-seq reads to differential expression results

Self-Compatibility and Establishment After 'Long-Distance' Dispersal

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