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Experimental evidence for a genetic basis to differences in aneuploidy in the Pacific oyster (Crassostrea gigas)

Published online by Cambridge University Press:  15 January 2005

Alexandra Leitão
Affiliation:
Observatoire océanologique, Université Pierre-et-Marie-Curie–CNRS–INSU, BP 28, 06230 Villefranche-sur-Mer, France
Pierre Boudry
Affiliation:
Laboratoire de génétique et pathologie, Station Ifremer de La Tremblade, BP 133, 17390 La Tremblade, France
Helen McCombie
Affiliation:
Observatoire océanologique, Université Pierre-et-Marie-Curie–CNRS–INSU, BP 28, 06230 Villefranche-sur-Mer, France
André Gérard
Affiliation:
Laboratoire de génétique et pathologie, Station Ifremer de La Tremblade, BP 133, 17390 La Tremblade, France
Catherine Thiriot-Quiévreux
Affiliation:
Observatoire océanologique, Université Pierre-et-Marie-Curie–CNRS–INSU, BP 28, 06230 Villefranche-sur-Mer, France
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Abstract

Aneuploidy has been previously reported in wild and cultivated Pacific oysters, Crassostrea gigas, and has been shown to be negatively correlated with growth. This is especially important since high variability of growth rate is one of the major problems in the aquacultural production of this species. The existence of a genetic basis for the observed differences in aneuploidy was first investigated through the comparative study of six full-sib families, with mean individual weights ranging from 0.59 to 1.49 g. The slowest growing family was found to have the highest level of aneuploidy. Significant differences in aneuploidy were also found among families when individuals with the same growth rate were sampled. This supports the hypothesis of the existence of a genetic basis for the control of aneuploidy level. Additionally, the possible inheritance of the level of aneuploidy was studied in four full-sib progenies originating from crosses within and between two different populations with contrasting levels of aneuploidy. The limited number of parental oysters (N = 6) in which the scoring of aneuploidy was possible did not allow demonstration of the inheritance of the level of aneuploidy. However, a genetic difference in aneuploidy could be attributed to the origin of the parental populations. As in the first experiment, significant differences in aneuploidy were observed between progenies when sampling individuals of the same weight. Thus, the results of our study of full-sib progenies of C. gigas lend support to the hypothesis of a genetic basis for the level of aneuploidy.

Type
Research Article
Copyright
© Elsevier, IRD, Inra, Ifremer, Cemagref, CNRS, 2001

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