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Evidence for Dosage Compensation in Coccinia grandis, a Plant with a Highly Heteromorphic XY System

Cécile Fruchard, Hélène Badouin, David Latrasse, Ravi Devani, Aline Muyle, Bénédicte Rhoné, Susanne S. Renner, Anjan K. Banerjee, Abdelhafid Bendahmane, Gabriel Marais

2020Genes22 citationsDOIOpen Access PDF

Abstract

About 15,000 angiosperms are dioecious, but the mechanisms of sex determination in plants remain poorly understood. In particular, how Y chromosomes evolve and degenerate, and whether dosage compensation evolves as a response, are matters of debate. Here, we focus on Coccinia grandis, a dioecious cucurbit with the highest level of X/Y heteromorphy recorded so far. We identified sex-linked genes using RNA sequences from a cross and a model-based method termed SEX-DETector. Parents and F1 individuals were genotyped, and the transmission patterns of SNPs were then analyzed. In the >1300 sex-linked genes studied, maximum X-Y divergence was 0.13–0.17, and substantial Y degeneration is implied by an average Y/X expression ratio of 0.63 and an inferred gene loss on the Y of ~40%. We also found reduced Y gene expression being compensated by elevated expression of corresponding genes on the X and an excess of sex-biased genes on the sex chromosomes. Molecular evolution of sex-linked genes in C. grandis is thus comparable to that in Silene latifolia, another dioecious plant with a strongly heteromorphic XY system, and cucurbits are the fourth plant family in which dosage compensation is described, suggesting it might be common in plants.

Topics & Concepts

BiologyDosage compensationGeneGeneticsSex ratioDioecyGene dosageBotanyEvolutionary biologyGene expressionDemographyPopulationPollenSociologyGenetic and Clinical Aspects of Sex Determination and Chromosomal AbnormalitiesChromosomal and Genetic VariationsPlant Virus Research Studies
Evidence for Dosage Compensation in Coccinia grandis, a Plant with a Highly Heteromorphic XY System | Litcius