Molecular cloning and duplication of the nematode sex-determining gene tra-1.

The autosomal sex-determining gene tra-1 plays a major role in controlling sexual phenotype in the nematode Caenorhabditis elegans. This gene is the terminal global regulator in a well-characterized cascade of sex-determining genes. It governs all aspects of somatic sexual differentiation, and it also has important functions in governing germ-line differentiation. Previous genetic analyses have led to the characterization of many loss-of-function (masculinizing) and gain-of-function (dominant feminizing) alleles, and to models for the functions and regulation of tra-1. The gene was cloned by identifying linked transposon insertions, about 200 kb away from tra-1. From this starting point a series of YAC, cosmid and phage clones were assembled into a genomic walk covering over 400 kb. Much of this region was found to be unrepresented in the cosmid database that covers most of the C. elegans genome. This deficit is largely or wholly due to the presence of sequences that cannot be cloned in rec+bacterial hosts. The ratio of physical map distances to recombinational map distances in the tra-1 region of the genome appears to be unusually low, indicating considerable local map expansion. The location of tra-1 within the cloned region was determined using a variety of tra-1 mutations that are associated with physical rearrangements of the gene. One of these is a 14-kb deletion, which behaves as a null allele. Another rearrangement, eDp24, is a tandem duplication of 22kb. Genetic analysis demonstrates that eDp24 carries two incomplete copies of tra-1, and that these copies appear to interact, suggesting some form of negative autoregulation at this locus. Three variant forms of the tra-1 locus have been identified in different natural isolates of C. elegans.