Deciphering the Theobroma cacao self-incompatibility system: from genomics to diagnostic markers for self-compatibility

Deciphering the Theobroma cacao self-incompatibility system from genomics to diagnostic markers for self-compatibility

Cocoa self-compatibility is an important yield factor and has been described as being controlled by a late gameto-sporophytic system expressed only at the level of the embryo sac. It results in gametic non-fusion and involves several loci. In this work, we identified two loci, located on chromosomes...

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Published in:Journal of experimental botany Vol. 68; no. 17; pp. 4775 - 4790
Main Authors: Lanaud, Claire, Fouet, Olivier, Legavre, Thierry, Lopes, Uilson, Sounigo, Olivier, Eyango, Marie Claire, Mermaz, Benoit, Silva, Marcos Ramos Da, Solorzano, Rey Gaston Loor, Argout, Xavier, Gyapay, Gabor, Ebaiarrey, Herman Ebai, Colonges, Kelly, Sanier, Christine, Rivallan, Ronan, Mastin, Géraldine, Cryer, Nicholas, Boccara, Michel, Verdeil, Jean-Luc, Mousseni, Ives Bruno Efombagn, Gramacho, Karina Peres, Clément, Didier
Format: Journal Article
Language:English
Published: England Oxford University Press 13-10-2017
Oxford University Press (OUP)
Subjects:
Agricultural sciences
Biochemistry, Molecular Biology
Cacao - genetics
Cacao - physiology
Chromosome Mapping
Crop Molecular Genetics
Genetic Linkage
Genetics
Genome-Wide Association Study
Genomics
Life Sciences
Plants genetics
Populations and Evolution
Research Papers
Self-Incompatibility in Flowering Plants - genetics
diagnostic markers
immunolocalization
Candidate genes
self-incompatibility
fine mapping
Theobroma cacao
gene expression
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Summary:Cocoa self-compatibility is an important yield factor and has been described as being controlled by a late gameto-sporophytic system expressed only at the level of the embryo sac. It results in gametic non-fusion and involves several loci. In this work, we identified two loci, located on chromosomes 1 and 4 (CH1 and CH4), involved in cocoa self-incompatibility by two different processes. Both loci are responsible for gametic selection, but only one (the CH4 locus) is involved in the main fruit drop. The CH1 locus acts prior to the gamete fusion step and independently of the CH4 locus. Using fine-mapping and genome-wide association studies, we focused analyses on restricted regions and identified candidate genes. Some of them showed a differential expression between incompatible and compatible reactions. Immunolocalization experiments provided evidence of CH1 candidate genes expressed in ovule and style tissues. Highly polymorphic simple sequence repeat (SSR) diagnostic markers were designed in the CH4 region that had been identified by fine-mapping. They are characterized by a strong linkage disequilibrium with incompatibility alleles, thus allowing the development of efficient diagnostic markers predicting self-compatibility and fruit setting according to the presence of specific alleles or genotypes. SSR alleles specific to self-compatible Amelonado and Criollo varieties were also identified, thus allowing screening for self-compatible plants in cocoa populations.
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These authors contributed equally to this study.
ISSN:0022-0957
1460-2431
DOI:10.1093/jxb/erx293