Transcriptome and Methylome Profiling Reveals Relics of Genome Dominance in the Mesopolyploid Brassica Oleracea

Overview

Journal Genome Biol

Specialties Biology
Genetics

Date 2014 Jun 12

PMID 24916971

Citations 226

Authors

Isobel A P Parkin

ChuShin Koh

Haibao Tang

Stephen J Robinson

Sateesh Kagale

Wayne E Clarke

Chris D Town

John Nixon

Vivek Krishnakumar

Shelby L Bidwell

France Denoeud

Harry Belcram

Matthew G Links

Jeremy Just

Carling Clarke

Tricia Bender

Terry Huebert

Annaliese S Mason

J Chris Pires

Guy Barker

Jonathan Moore

Peter G Walley

Sahana Manoli

Jacqueline Batley

David Edwards

Matthew N Nelson

Xiyin Wang

Andrew H Paterson

Graham King

Ian Bancroft

Boulos Chalhoub

Andrew G Sharpe

Affiliations

Soon will be listed here.

Abstract

Background: Brassica oleracea is a valuable vegetable species that has contributed to human health and nutrition for hundreds of years and comprises multiple distinct cultivar groups with diverse morphological and phytochemical attributes. In addition to this phenotypic wealth, B. oleracea offers unique insights into polyploid evolution, as it results from multiple ancestral polyploidy events and a final Brassiceae-specific triplication event. Further, B. oleracea represents one of the diploid genomes that formed the economically important allopolyploid oilseed, Brassica napus. A deeper understanding of B. oleracea genome architecture provides a foundation for crop improvement strategies throughout the Brassica genus.

Results: We generate an assembly representing 75% of the predicted B. oleracea genome using a hybrid Illumina/Roche 454 approach. Two dense genetic maps are generated to anchor almost 92% of the assembled scaffolds to nine pseudo-chromosomes. Over 50,000 genes are annotated and 40% of the genome predicted to be repetitive, thus contributing to the increased genome size of B. oleracea compared to its close relative B. rapa. A snapshot of both the leaf transcriptome and methylome allows comparisons to be made across the triplicated sub-genomes, which resulted from the most recent Brassiceae-specific polyploidy event.

Conclusions: Differential expression of the triplicated syntelogs and cytosine methylation levels across the sub-genomes suggest residual marks of the genome dominance that led to the current genome architecture. Although cytosine methylation does not correlate with individual gene dominance, the independent methylation patterns of triplicated copies suggest epigenetic mechanisms play a role in the functional diversification of duplicate genes.

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