Spectrum of spontaneous mutation at the APRT locus of Chinese hamster ovary cells: an analysis at the DNA sequence level.

Jong, Pieter J. de; Grosovsky, Andrew J.; Glickman, Barry W.

doi:10.1073/pnas.85.10.3499

Cited by 76 publications

(36 citation statements)

References 41 publications

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“…The cellular events by which the d'20> deletion was generated are unclear, although the nature of the deletion junction is not unique, bearing similarity to deletion mutations in the human retinoblastoma gene (4,17), ,3-globin cluster (37), and the Caenorhabditis elegans myosin heavy-chain gene (unc-54) (23). The size of the d'20" deletion (3,580 nucleotides) and the absence of terminal sequence homology are inconsistent with a direct error by DNA polymerase generating this deletion, as has been described for both procaryotic and eucaryotic deletions (1,9,22). Furthermore, the unique sequence of the DNA flanking the deletion termini appears to rule out an uneven crossing over between repetitive genomic elements, as suggested for spontaneous deletions in human P-globin, low-density lipoprotein receptor, adenosine deaminase, and growth hormone genes (3,5,28,38).…”

Section: Discussionmentioning

confidence: 95%

Molecular analysis of two mouse dilute locus deletion mutations: spontaneous dilute lethal20J and radiation-induced dilute prenatal lethal Aa2 alleles.

et al. 1990

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The dilute (d) coat color locus of mouse chromosome 9 has been identified by more than 200 spontaneous and mutagen-induced recessive mutations. With the advent of molecular probes for this locus, the molecular lesion associated with different dilute alleles can be recognized and precisely defined. In this study, two dilute mutations, dilute-lethal20' (d'a01) and dilute prenatal lethal Aa2, have been examined. Using a dilute locus genomic probe in Southern blot analysis, we detected unique restriction fragments in de0J and Aa2 DNA.Subsequent analysis of these fragments showed that they represented deletion breakpoint fusion fragments. DNA sequence analysis of each mutation-associated deletion breakpoint fusion fragment suggests that both genomic deletions were generated by nonhomologous recombination events. The spontaneous dL'OJ mutation is caused by an interstitial deletion that removes a single coding exon of the dilute gene. The correlation between this discrete deletion and the expression of all dilute-associated phenotypes in F0I homozygotes defines the d"P0 mutation as a functional null allele of the dilute gene. The radiation-induced Aa2 allele is a multilocus deletion that, by complementation analysis, affects both the dilute locus and the proximal prenatal lethal-3 (p1-3) functional unit. Molecular analysis of the Aa2 deletion breakpoint fusion fragment has provided access to a previously undefined gene proximal to d. Initial characterization of this new gene suggests that it may represent the genetically defined pl-3 functional unit.Classic genetic analysis of variant mouse phenotypes has defined numerous genetic loci and, in some cases, numerous alleles at a given locus. However, the physical basis for these mutations and an understanding of the impact of mutagenic events on gene expression have been impeded by difficulties in gaining molecular access to the mutated genes. The murine dilute (d) locus is among those rare loci for which extensive analysis at both the genetic and molecular levels is possible. A vast collection of spontaneous, chemical-induced, and radiation-induced dilute locus mutations have been generated. With the ever-increasing number of genomic and cDNA probes for the dilute locus, the physical detection and precise analysis of DNA alterations and rearrangements associated with individual d alleles can now be accomplished. As illustrated in this study, this combined molecular and genetic analysis is elucidating the gene product(s) and genomic organization not only of the d locus but also of other loci in the d region of mouse chromosome 9.More than 200 spontaneous and induced dilute mutations have been identified (25 duced dilute-opisthotonic (d0P) class exhibit the neurological disorder of opisthotonus, a convulsive arching of the animal's head and neck (30,33,34). These seizures are readily apparent at 9 days postpartum and continue until death at approximately 3 weeks of age. In extensive complementation analysis, the coat color, opisthotonic, and lethality phenotypes are geneti...

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Section: Discussionmentioning

confidence: 95%

Molecular analysis of two mouse dilute locus deletion mutations: spontaneous dilute lethal20J and radiation-induced dilute prenatal lethal Aa2 alleles.

et al. 1990

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“…Of nearly 200 spontaneous mutants, deletions amounted to -4% and insertions <1 % (see Table I). Other types of mutation (changes of <25 bp) were mapped to restriction sites in another 7% (Nalbantoglu et al, 1983;Grosovsky et al, 1986) and these are predominantly single base changes de Jong et al, 1987). Breimer et al (1986) (Nalbantoglu et al, 1983(Nalbantoglu et al, , 1986b and to those at hprt locus which eliminated all coding sequence detectable with a cDNA probe.…”

mentioning

confidence: 99%

Ionizing radiation-induced mutagenesis

Breimer

1988

Br J Cancer

150

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“…In contrast, the major background mutational events are base substitutions in such transgenic systems as the Mutamouse 1) and Big Blue, 4) and in the endogenous aprt gene of cultured CHO cells. 38) Thus, the reporter gene used may influence the mutational spectra. Indeed, the pattern of mutation varies even within the lacI gene in E. coli; for example, the ratio of base substitution to deletion/ insertion mutation is 1.4:2 in the amino-terminal DNA binding domain, whereas deletion/insertion is increased by approximately 14-fold (if hotspots of frameshift mutation are deleted, approximately 2.5-fold) in the remaining domains.…”

Section: Discussionmentioning

confidence: 99%

Different Mutation Frequencies and Spectra among Organs by N‐Methyl‐N‐nitrosourea in rpsL (strA) Transgenic Mice

Shioyama

Gondo

Nakao

et al. 2000

Japanese Journal of Cancer Research

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The frequencies and spectra of N-methyl-N-nitrosourea (MNU)-induced in vivo somatic mutations were determined in rpsL (strA) transgenic mice. The wild-type rpsL gene, which exhibits a streptomycin-sensitive (Sm S ) phenotype, was used as the rescue marker gene. Studies of mutation spectra among different organs and tissues were simplified using this system because of the short coding sequence (375 bp) of the rpsL gene. MNU administration to transgenic mice significantly elevated the mutation frequencies in various adult organs. Two distinctive patterns of mutation spectrum were observed, depending on the organs tested. Mutations derived from labile organs (spleen and thymus) were predominantly G:C to A:T transitions, as expected for MNU mutagenesis. Stable organs like the liver and brain, however, carried many fewer G:C to A:T transitions but significantly more single base deletions, of which the spectrum was very similar to that of background mutations in the rpsL transgenic mice. This spectrum difference among more and less proliferating organs was confirmed by the predominant occurrence of G:C to A:T transitions in fetal liver cells exposed to transplacental MNU treatment.

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Spectrum of spontaneous mutation at the APRT locus of Chinese hamster ovary cells: an analysis at the DNA sequence level.

Cited by 76 publications

References 41 publications

Molecular analysis of two mouse dilute locus deletion mutations: spontaneous dilute lethal20J and radiation-induced dilute prenatal lethal Aa2 alleles.

Molecular analysis of two mouse dilute locus deletion mutations: spontaneous dilute lethal20J and radiation-induced dilute prenatal lethal Aa2 alleles.

Ionizing radiation-induced mutagenesis

Different Mutation Frequencies and Spectra among Organs by N‐Methyl‐N‐nitrosourea in rpsL (strA) Transgenic Mice

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