Genomically biased accumulation of seed storage proteins in allopolyploid cotton

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Abstract

Allopolyploidy is an important process during plant evolution that results in the reunion of two divergent genomes into a common nucleus. Many of the immediate as well as longer-term genomic and epigenetic responses to polyploidy have become appreciated. To investigate the modifications of gene expression at the proteome level caused by allopolyploid formation, we conducted a comparative analysis of cotton seed proteomes from the allopolyploid Gossypium hirsutum (AD genome) and its model Agenome and D-genome diploid progenitors. An unexpectedly high level of divergence among the three proteomes was found, with about one-third of all protein forms being genome specific. Comparative analysis showed that there is a higher degree of proteomic similarity between the allopolyploid and its D-genome donor than its A-genome donor, reflecting a biased accumulation of seed proteins in the allopolyploid. Protein identification and genetic characterization of high-abundance proteins revealed that two classes of seed storage proteins, vicilins and legumins, compose the major component of cotton seed proteomes. Analyses further indicate differential regulation or modification of homoeologous gene products, as well as novel patterns in the polyploid proteome that may result from the interaction between homoeologous gene products. Our findings demonstrate that genomic merger and doubling have consequences that extend beyond the transcriptome into the realm of the proteome and that unequal expression of proteins from diploid parental genomes may occur in allopolyploids. © 2011 by the Genetics Society of America.

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Hu, G., Houston, N. L., Pathak, D., Schmidt, L., Thelen, J. J., & Wendel, J. F. (2011). Genomically biased accumulation of seed storage proteins in allopolyploid cotton. Genetics, 189(3), 1103–1115. https://doi.org/10.1534/genetics.111.132407

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