High frequency of mosaic mutants produced by N-ethyl-N-nitrosourea exposure of mouse zygotes.

Mouse zygotes containing one multiple-recessive parental genome (a, b; p cch; d se; s) and the corresponding wild-type alleles in the other were exposed to N-ethyl-N-nitrosourea (ENU) at various stages in vivo. At weaning age, the resulting mice were examined for mutations at the marked loci as well as at others producing externally visible phenotypes. Because of viability problems in one of two reciprocal crosses, the bulk of the mutagenesis data are derived from the cross that detects recessive mutations in the maternal genome. The mutation rate was approximately 8 times higher in groups treated 2.5-3 hr postmating (sperm entry, completion of second meiotic division) than in those injected 5-6 hr postmating (pronuclear formation). In the former more sensitive zygote population, the mutation rate is about an order of magnitude greater than that induced by the same ENU exposure (50 mg/kg) to spermatogonial stem cells. Of 11 mutants recovered, 8 were mosaics. Progeny tests have demonstrated germ-line involvement for most of the mosaics, and the average fraction of the germ line carrying the mutation is close to 50%. The nature of the mutations indicates (i) that the mosaicism results not from misassortment at the first cleavage but from mutation affecting one DNA strand of the maternal chromosome, and (ii) that the mutations are intragenic lesions rather than multilocus deletions, thus resembling ENU-induced mutations in spermatogonia. The finding that mosaicism for presumed point mutations is readily inducible by ENU treatment of zygotes may provide a means of generating genetic materials that can be of use for developmental studies.

Four dominant autosomal mutations affecting skin and hair development in the mouse.

Four new dominant autosomal mutations influencing the development of skin and hair in the mouse were tested for allelism with each other and with hairless, hr. Three of the mutations probably constitute an allelic series and have been given the symbols Frl1, Frlb, and Frlc. The Frl series shows no evidence of linkage with hr. The fourth mutation, Hrn, is a dominant and homozygous viable allele at the hr locus. With the possible exception or Frlb, all mutants were of spontaneous origin. Because of their unique characteristics, these new mutants are of potential value as mouse model systems in studies of skin carcinogenesis and related areas of research.

Dose--response curve for ethylnitrosourea-induced specific-locus mutations in mouse spermatogonia.

The extreme mutagenic effectiveness of N-ethyl-N-nitrosourea in the mouse has permitted the accumulation of the most extensive dose--response data yet obtained for chemical induction of specific-locus mutations in spermatogonia. In the lower portion of the curve, below a dose of 100 mg/kg, the data fall statistically significantly below a maximum likelihood fit to a straight line. Independent evidence indicates that, over this dose range, ethylnitrosourea reaches the testis in amounts directly proportional to the injected dose. It is concluded that, despite the mutagenic effectiveness of ethylnitrosourea, the spermatogonia are apparently capable of repairing at least a major part of the mutational damage when the repair process is not swamped by a high dose. This finding is important both in basic studied on the mutagenic action of chemicals in mammals and in risk estimation.