cDNA sequence of five mouse guanine deaminase (Gda) alleles and mapping to mouse chromosome 19

Guanine deaminase catalyses the conversion of guanine to xanthine and ammonia, thereby irreversibly removing the guanine base from the pool of guanine-containing metabolites. We have identified five alleles at the mouse guanine deaminase locus by cDNA sequencing. These alleles were defined by single-nucleotide polymorphisms at a total of 19 positions. For each allele the representative strains are as follows: Gdaa, C57BL/6J and DBA/2J; Gdab, A/J; Gdac, MOLF/Ei; Gdad, CAST/Ei; and Gdae, SPRET-1. The only codon change resulting in an amino acid substitution was found at nucleotide 523, where GAT was replaced by AAT in Mus spretus resulting in the deduced substitution of Asp-174 by Asn. The single-nucleotide difference between the a and b alleles was also typed by allele-specific oligonucleotide amplification for 17 common strains of Mus musculus susbp. musculus. By typing the A×B and B×A recombinant inbred (RI) strain sets, Gda was mapped to mouse chromosome 19, a region syntenic with human chromosome 9q11–q22.Key Words: mouse guanine deaminase, alleles, mapping.

Evolution of a mouse Y chromosomal sequence flanked by highly repetitive elements

Mammalian primary sex is determined by the presence or absence of the Y chromosome. However, little is known about the molecular processes through which the Y chromosome exerts its action. We applied recombinant DNA techniques to isolate mouse Y chromosomal fragments and described previously a clone designated as AC11 (Y. Nishioka and E. Lamothe. 1986. Genetics, 113: 417–432). To obtain information on DNA sequences that flank AC11, we screened a mouse genomic library for the presence of AC11-related sequences and isolated over 50 positive clones. In this report we describe clones ACC2 and ACC3, both of which contain highly repetitive elements. Using a male-specific portion of these clones, we compared DNA's isolated from mice (Mus musculus, M. hortulanus, M. spretus, M. cookii, M. pahari, and M. platythrix), rat, hamster, and guinea pig and obtained results that agree with the phylogenetic relationships deduced from morphological and biochemical studies. The male-specific accumulation of the related sequences was found only in M. musculus, M. hortulanus, and M. spretus. Key words: mouse, Y chromosome, repetitive sequence, genome evolution.