The Sry gene product serves an important function in male sex determination through testis induction. However, testicular development has been reported in SRY-negative XX sex reversed humans. XX sex reversal of the American cocker spaniel, inherited as an autosomal recessive trait, may be a homolog of this disorder. The purpose of this study was to determine whether the Sry high mobility group (HMG) box is present in genomic DNA of affected dogs. Conserved Sry HMG box and hypoxanthine phosphoribosyltransferase (HPRT) sequences were used as primers in polymerase chain reactions. A 167 bp Y-specific canine Sry HMG box sequence was cloned from genomic DNA of normal male dogs. Internal primers generated a 104 bp Sry HMG box product from normal males, but not from females or XX sex reversed dogs. Parallel reactions generated an HPRT product from all dogs. Results indicate that the Sry HMG box is absent in genomic DNA of XX sex reversed dogs. We speculate that activation of the testis differentiation cascade in the absence of Sry in this model is due to a mutant autosomal gene.
Breeding studies are reported of a previously undescribed hereditary retinal degeneration identified in the Siberian Husky breed of dog. This disorder clinically resembles the previously reported autosomal recessive canine hereditary retinal degenerations collectively termed progressive retinal atrophy (PRA). However, the pedigree of the propositus, a male Siberian Husky, exhibited an X-linked pattern of transmission. This dog was outcrossed to three phenotypically normal female laboratory Beagles and two of their F1 daughters were bred to a phenotypically normal male Beagle, producing affected males in the F2 generation. Subsequent inbreedings produced further affected males and affected females as well. X-linked transmission was established by exclusion of alternative modes of inheritance and, consequently, the disease has been termed X-linked progressive retinal atrophy (XLPRA). This is the first reported X-linked retinal degeneration in an animal. Because of the many similarities of PRA in dogs to retinitis pigmentosa (RP) in humans, this new disease may not only represent the first animal model of X-linked RP (XLRP) but may well be a true homolog of one of the XLRP loci (RP2, RP3, RP6). It is the first retinal degeneration in dogs that can be assigned to an identified canine chromosome, and the first for which linkage mapping offers a realistic approach to proceed by positional cloning towards identifying the responsible gene locus.
In studies on the highly repetitive DNA sequences of the flesh fly Sarcophaga bullata, a 279 bp tandem repeat was cloned and sequenced. A 17 bp stretch within the clone was identical to a motif repeated five times in the satellite DNA of the Bermuda land crab. Southern DNA blotting showed the tandem repeat had a high degree of conservation of MboI sites, but had divergence for EcoRI sites; thus, all repeat units were not identical. The cloned DNA localized to the quinacrine-bright centromeric heterochromatin of the C and E autosomes and to sites on the chromosomal arms. In cases of asynapsis of homologs, the probe localized to euchromatic sites on both homologs or sometimes only on one homolog. The probe also localized near, to, or at a major developmental puff (B9). We conclude that blocks of this short interspersed repetitive DNA occur throughout the Sarcophaga genome in both heterochromatin and euchromatin, and also that the variable position of these sequences suggests they possess a degree of instability.
Twenty-nine canine DNA samples, including samples from 11 members of an autosomal recessive retinal degeneration pedigree, were fingerprinted with a (CAC)n probe using a chemiluminescent method. Sixteen polymorphic bands were identified in the two pedigrees. Nine polymorphic bands were scored in one pedigree; seven polymorphic bands were scored in the other pedigree. None were sex-linked. Hybridization of the (CAC)n probe to total and poly A+ RNAs from different canine tissues revealed a prominent polyadenylated message at 6 kb that was present in the retina, spleen, and kidney but not in the liver or heart.
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