Gene Conversions Can Generate Sequence Variants in the Late Chorion Multigene Families of Bombyx Mori

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The 140-kbp late chorion locus of Bombyx mori strain 703 contains 15 divergently oriented gene pairs encoding the high cysteine (Hc) eggshell proteins. Sequence homology is approximately 91% for the 2-kb region of each gene pair, including the 5' flanking region, intron and exons. The homology rapidly disappears within a few hundred basepairs of the 3' end of most genes. Here we present the results of the nucleotide sequence and genomic blot comparison of Hc genes from different races of B. mori. Comparison of the nucleotide sequences of the same gene pair in two different races reveals that most of the nucleotide differences occur in clusters or patches and correspond to sequences present in other Hc genes in the locus. The number of nucleotide differences that have accumulated in the highly conserved regions of the gene pair (2.3/100 bp), most of which are attributable to patchwork exchanges, is significantly higher than the number of differences in the poorly conserved 3' flanking regions (0.6/100 bp), due primarily to new mutations. These data are consistent with a gene conversion process, which in the short-term generates new combinations of sequence variants, but in the long-term results in concerted evolution. Genomic blot analyses of different geographical races of B. mori reveal that there is variation in the number of Hc gene pairs (14-19 gene pairs), indicating that unequal crossovers also occur in the locus.

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