Chromosomal fragment responsible for genetic mosaicism in larval body marking of the silkworm,Bombyx mori

Abstract

Summary: Several genetic mosaics for larval body marking of the silkworm,Bombyx mori, have been induced by X-ray irradiation. It is hypothesized that the occasional loss of chromosomal fragments carrying the genes for body marking during development may give rise to this type of mosaicism. Using pulsed field gel electrophoresis (PFGE), we find that a DNA molecule of about 2·5 megabases (Mb) is present in one type of mosaic (mottled striped strains p^Sm788 and p^Sm872), and not in any other strain. This DNA fragment hybridizes strongly with some chorion genes which are less than 6·9 cM away from thep^slocus, and hence it corresponds to a chromosomal fragment containing genes for both striped marking (p^s) and the chorion. In the non-mottled p^sstrain, the phenotype before X-ray irradiation, no band was detected either on a PFGE gel or after hybridization with the chorion probe. These results suggest that the mottled p^sstrains carry short chromosome fragments which are lost differentially during cell divisions.