Abstract

A ZW-ZZ sex determination system was previously proposed based on sex linkage analysis in the Chinese mitten crab, Eriocheir sinensis. In this study, we successfully identified a sex-specific marker from sex-linked markers in the genetic map and verified in different wild populations of E. sinensis. To further identify ZW chromosome DNA, we constructed a highly redundant genomic bacterial artificial chromosome (BAC) library for the Chinese mitten crab. The library was generated from high-molecular weight genomic DNA isolated from hemocytes and muscle in a female crab, which was comprising of 153,984 clones arrayed in 401,384-well microtiter plates. The average inserts size is 72 kb, representing 8.7-fold haploid genome coverage. By using sex specific markers, PCR-based screening was performed to identify ZW-derived BAC clones. Three W and Z-derived BAC clones were isolated, respectively. One of W-derived (P282E18) BAC clones was sequenced and assembled into a 43 kb contig without any gap. The W-derived BAC inserts can be mapped to an assembled contig of E. sinensis genome with 95% similarity in the aligned region, demonstrating that the BAC library is a valuable resource for discriminating Z and W chromosome contigs in the assembled haploid genome. The sex-specific marker provides a powerful tool not only for distinguishing the gender of larval or early juvenile E. sinensis without sexual dimorphism and sex-reversed individuals in monosex crab breeding, but also for identification of ZW-derived BAC clones used in the assembly of Z and W chromosomes in E. sinensis.

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