Sexual Dimorphism in White Campion: Complex Control of Carpel Number Is Revealed by Y Chromosome Deletions

Sexual Dimorphism in White Campion: Complex Control of Carpel Number Is Revealed by Y Chromosome Deletions

André Lardon^a, Sevdalin Georgiev^a, Abdelmalik Aghmir^b, Guenaël Le Merrer^a, and Ioan Negrutiu^a
^a Ecole Normale Supérieure de Lyon, RDP-UMR 9938 CNRS/INRA/ENS, 69364 Lyon, France
^b Vrije Universiteit Brussel, Plant Genetics Laboratory, B 1640 Sint Genesius-Rode, Belgium

Corresponding author: Ioan Negrutiu, ENS de Lyon, RDP - UMR 9938 CNRS/INRA/ENS, 46 Allée d'Italie, Lyon, France., ioan.negrutiu{at}ens-lyon.fr (E-mail)

Communicating editor: W. F. SHERIDAN

Sexual dimorphism in the dioecious plant white campion (Silenelatifolia = Melandrium album) is under the control of two mainregions on the Y chromosome. One such region, encoding the gynoecium-suppressingfunction (GSF), is responsible for the arrest of carpel initiationin male flowers. To generate chromosomal deletions, we usedpollen irradiation in male plants to produce hermaphroditicmutants (bsx mutants) in which carpel development was restored.The mutants resulted from alterations in at least two GSF chromosomalregions, one autosomal and one located on the distal half ofthe (p)-arm of the Y chromosome. The two mutations affectedcarpel development independently, each mutation showing incompletepenetrance and variegation, albeit at significantly differentlevels. During successive meiotic generations, a progressiveincrease in penetrance and a reduction in variegation levelswere observed and quantified at the level of the Y-linked GSF(GSF-Y). Possible mechanisms are proposed to explain the behaviorof the bsx mutations: epigenetic regulation or/and second-sitemutation of modifier genes. In addition, studies on the inheritanceof the hermaphroditic trait showed that, unlike wild-type Ychromosomes, deleted Y chromosomes can be transmitted throughboth the male and the female lines. Altogether, these findingsbring experimental support, on the one hand, to the existenceon the Y chromosome of genic meiotic drive function(s) and,on the other hand, to models that consider that dioecy evolvedthrough multiple mutation events. As such, the GSF is actuallya system containing more than one locus and whose primary componentis located on the Y chromosome.

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