High Genetic Load in the Pacific Oyster Crassostrea gigas

High Genetic Load in the Pacific Oyster Crassostrea gigas

Sophie Launey^a and Dennis Hedgecock^a
^a University of California, Davis, Bodega Marine Laboratory, Bodega Bay, California 94923-0247

Corresponding author: Dennis Hedgecock, University of California, Davis, Bodega Marine Laboratory, 2099 Westshore Rd., Bodega Bay, CA 94923-0247., dehedgecock{at}ucdavis.edu (E-mail)

Communicating editor: O. SAVOLAINEN

The causes of inbreeding depression and the converse phenomenonof heterosis or hybrid vigor remain poorly understood despitetheir scientific and agricultural importance. In bivalve molluscs,related phenomena, marker-associated heterosis and distortionof marker segregation ratios, have been widely reported overthe past 25 years. A large load of deleterious recessive mutationscould explain both phenomena, according to the dominance hypothesisof heterosis. Using inbred lines derived from a natural populationof Pacific oysters and classical crossbreeding experiments,we compare the segregation ratios of microsatellite DNA markersat 6 hr and 2–3 months postfertilization in F₂ or F₃ hybridfamilies. We find evidence for strong and widespread selectionagainst identical-by-descent marker homozygotes. The markersegregation data, when fit to models of selection against linkeddeleterious recessive mutations and extrapolated to the wholegenome, suggest that the wild founders of inbred lines carrieda minimum of 8–14 highly deleterious recessive mutations.This evidence for a high genetic load strongly supports thedominance theory of heterosis and inbreeding depression andestablishes the oyster as an animal model for understandingthe genetic and physiological causes of these economically importantphenomena.

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