Abstract
Transmission ratio distortion (TRD) by the mouse t-haplotype, a variant region on chromosome 17, is a well-studied model of non-Mendelian inheritance. It is characterized by the high transmission ratio (up to 99%) of the t-haplotype from t/+ males to their offspring. TRD is achieved by the exquisite ability of the responder (Tcr) to trigger non-Mendelian inheritance of homologous chromosomes. Several distorters (Tcd1-Tcd4), which act cumulatively, together promote the high transmission ratio of Tcr and the t-haplotype. Molecularly, TRD is brought about by deregulation of Rho signaling pathways via the distorter products, which impair sperm motility, and the t-sperm specific rescue of sperm motility by the responder. The t-sperm thus can reach the egg cells faster than +-sperm and fertilize them. Previously we have shown that the responder function is accomplished by a dominant negative form of sperm motility kinase (SMOKTCR), while the distorter functions are accomplished by the Rho G protein regulators TAGAP, FGD2 and NME3 proposed to function in two oppositely acting pathways. Here we identify the RAC1-specific guanine nucleotide exchange factor TIAM2 as modifier of t-haplotype TRD. Tiam2 is expressed in two isoforms, the full-length (Tiam2l) and a short transcript (Tiam2s). Tiam2s expression from the t-allele is strongly increased compared to the wild-type allele. By transgenic approaches we show that Tiam2s enhances t-haplotype transmission, while Tiam2l has the opposite effect. Our data show that a single modifier locus can encode different gene products exerting opposite effects on a trait. They also suggest that the expression ratio of the isoforms determines if the outcome is an enhancing or a suppressive effect on the trait.
Highlights
According to Mendel’s rules, diploid organisms transmit the two alleles of a gene located on the homologous chromosomes at an equal ratio to their offspring
Exceptions to “fair” transmission of genetic material to the generation have been observed in most domains of life, and one of the most illustrative examples in mammals is Transmission Ratio Distortion (TRD) caused by the t-haplotype of the mouse [1,2,3]
We identified the gene Tiam2 (T-cell lymphoma invasion and metastasis 2) in the genetically defined Tcd1 region close to Tagap as candidate (Fig 1A)
Summary
According to Mendel’s rules, diploid organisms transmit the two alleles of a gene located on the homologous chromosomes at an equal ratio to their offspring. The TRD factors are all located in the t-haplotype region of chromosome 17, are expressed during spermatogenesis and affect sperm motility. They consist of several tcomplex-distorters (Tcd1-4) acting in trans on the t-complex-responder (Tcr). Lyon proposed that the distorters have a hazardous effect on the wild-type form of the responder, while Tcr protects against this effect [9, 11]. This rescuing effect of Tcr is overcome by excessive distorter activity resulting in male sterility of homozygous t/t mice
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
