Intraspecies transfer via total cellular DNA of the gene for hypoxanthine phosphoribosyltransferase into cultured mouse cells

Summary Under selective growth conditions a revertant of mouse cells, defective in hypoxanthine phosphoribosyltransferase activity (HPRT, EC-No. 2.4.2.8), was isolated, which contained an electrophoretically abnormal form of HPRT activity. The specific HPRT activity in crude extracts of the revertant cells is about 30% of the level determined in normal wild type cells. The variant HPRT reacts with antiserum against normal mouse HPRT but the rate of heat inactivation of the variant activity is different from the wild type form. By isozyme and karyotype analyses of somatic cell hybrids between the revertant mouse cells and Chinese hamster cells we found that the abnormal HPRT activity is coded for by the mouse X-chromosome as expected for a mutation in the structural HPRT gene.DNA has been purified from the abnormal HPRT revertant cells and incubated with mouse A9 cells (HPRT^-). After growth in selective medium one clone was isolated which expressed the electrophoretically abnormal form of HPRT. Six clones showed the normal form of HPRT due to reversion of the defective HRRT locus in A9 cells. This result indicates DNA-mediated transfer of the mouse HPRT gene at a frequency of about 0.5×10^-7. A similar frequency has been found for transfer of the variant HPRT locus via isolated metaphase chromosomes to A9 recipient cells. When placed in non-selective media the DNA-mediated transferent cells gradually lost their ability to express the HPRT transgenome at a rate of about 6% per average cell generation.     

Isolation of the CD7 gene from the DNA of transfected L cells

Using DNA from L cells which expressed high levels of the CD7 (Leu-9 or HuLy-m2) antigen obtained after two cycles of transfection, a genomic library was constructed in the lambda phage Charon 4A. Recombinant clones containing the gene coding for this antigen were identified by first screening the library with both the HSVtk gene and a probe detecting the human repetitive (Alu) sequences. DNA from 10 tk⁺ and 12 Alu⁺ recombinant clones was used to transfect L cells which were analyzed for the cell-surface expression of CD7 either early (48–72 h posttransfection) or later when hypoxanthine aminopterin thymidine-resistant colonies were obtained. Transfection with either Alu⁺ or tk⁺ recombinant phages led to transient early expression of CD7, and stable CD7⁺ transfectants were also established. Thus the CD7 gene has been isolated in a number of clones in association with either the Alu repetitive sequence or with the HSV-tk gene; the insert size in one of the genomic clones was 13.5 kb.     

Total gene deletions and mutant frequency of the HPRT gene as indicators of radiation exposure in Chernobyl liquidators

This study was conducted to determine the utility of deletion spectrum and mutant frequency (MF) of the hypoxanthine phosphoribosyl transferase gene (HPRT) as indicators of radiation exposure in Russian Liquidators who served in 1986 or 1987 in the clean up effort following the nuclear power plant accident at Chernobyl. HPRT MF was determined using the cloning assay for 117 Russian Controls and 122 Liquidators whose blood samples were obtained between 1991 and 1998. Only subjects from whom mutants were obtained for deletion analysis are included. Multiplex PCR analysis was performed on cell extracts of 1080 thioguanine resistant clones from Controls and 944 clones from Liquidators. Although the deletion spectra of Liquidators and Controls were similar overall, the Liquidator deletion spectrum was heterogeneous over time. Most notable, the proportion of total gene deletions was higher in 1991–1992 Liquidators than in Russian Controls (χ²=10.5, p=0.001) and in 1993–1994 Liquidators (χ²=8.3, p=0.004), and was marginally elevated relative to 1995–1996 Liquidators (χ²=3.3, p=0.07). This type of mutation has been highly associated with radiation exposure. Total gene deletions were not increased after 1992. Band shift mutations were also increased in the 1991–1992 Liquidators but were associated with increased MF of both Liquidators and Controls (p=0.009), not with increased MF in 1991–1992 Liquidators (p=0.7), and hence are not believed to be associated with radiation exposure. Regression analysis demonstrated that relative to Russian Controls HPRT MF was elevated in Liquidators overall when adjusted for age and smoking status (37%, p=0.0001), and also was elevated in Liquidators sampled in 1991–1992 (72%, p=0.0076), 1993–1994 (22%, p=0.037), and 1995–1996 (62%, p=0.0001). In summary, HPRT MF was found to be the more sensitive and persistent indicator of radiation exposure, but the specificity of total gene deletions led to detection of probable heterogeneity of radiation exposure within the exposed population.     

Termination of lifespan of SV40-transformed human fibroblasts in crisis is due to apoptosis

Normal human fibroblasts in culture have a limited lifespan, ending in replicative senescence. Introduction of SV40 sequences encoding large T antigen and small t antigen into pre-senescent cells results in an extension of lifespan for an additional 20-30 population doublings. Rare clones of SV40-transformed cells are capable of indefinite growth and are described as immortal; however, the great majority of SV40-transformed cells terminate this extended lifespan in cell death, termed "crisis." We have examined the properties of cells in crisis to obtain further insights into mechanism of cell death and immortalization. Populations at the terminal cell passage show a balance between cell replication and cell death over a period of several weeks, with a progressive increase in cells undergoing cell death. During this period, there is less than a 3-fold increase in attached cell number, with two stages being identifiable on the basis of the focal pattern of cell survival. We also demonstrate that cells in crisis are undergoing apoptosis based on TUNEL assay, subG1 DNA content, annexin V reactivity, and activation of caspases 3 and 8. We suggest a model whereby SV40-transformed cells acquire increased sensitivity to apoptosis based on changes in properties which activate caspase 8 in addition to changes previously described involving shortening of telomeric sequences. While only telomere stabilization could be clearly shown to be essential for survival of cells through crisis, the extended period of cell replication and altered gene expression observed in SV40-transformed cells during crisis are compatible with other genetic alterations in immortal cells.     

Mutation ofp53Is Not a Prerequisite for Immortalization of Human Fibroblasts by SV40 T Antigen

Thein vitrolife span of human cells is under genetic control and limited. Immortalized cells, however, can be obtained at a low frequency following expression of the SV40 T antigen gene though the steps that lead to immortality are not well understood. p53 has been implicated in cell cycle regulation and evidence suggests it may have a role in controlling life span in rodent and human cells. In this study, we investigated whether allelic loss or mutation ofp53was an essential step during SV40 immortalization leading to the appearance of immortal cell lines. The gross structure of thep53gene was examined in a primary fibroblast cell strain (1BR.3) and two SV40-immortalized derivatives, 1BRMT1 and 1BRgn2. There was no evidence for allelic loss of thep53gene during immortalization. The primary cells and the immortal derivatives all expressed authenticp53mRNAs, though the immortal cell lines had higher levels of expression. Sequence analysis of exons 5–8 did not detect mutations associated with the immortal phenotype. These data are consistent with SV40 immortalization being independent of genetic changes inp53.     

The DNA gyrase of Escherichia coli participates in the formation of a spontaneous deletion by recA-independent recombination in vivo

Summary A system for detecting a spontaneous deletion in Escherichia coli was developed and the role of DNA gyrase in deletion formation was studied. A derivative of plac5, AM36, was isolated in which whole pBR322 DNA was inserted in the lacZ gene and 227 by of the lac gene duplicated at both sides of the pBR322 DNA. E. coli lac ^–strains lysogenized by AM36 had a Lac^– phenotype and segregated Lac^– revertants. Sequence analyses showed that the revertant was formed by a deletion that eliminated the inserted pBR322 DNA and one copy of the duplicated segments. The frequency of lac ^– revertant formation was independent of recA function, was increased by oxolinic acid, an inhibitor of DNA gyrase, but was not increased in a lysogen of a nalidixic acid-resistant derivative. The reversion frequencies of temperature sensitive mutants of gyrA gene are 10 to 100 times lower than that of the wild-type strain. These results indicate that the DNA gyrase of E. coli participated in the in vivo deletion formation resulting from the direct repeats.     

Induction of Duplication Reversion in Human Fibroblasts, by Wild-Type and Mutated Sv40 T Antigen, Covaries with the Ability to Induce Host DNA Synthesis

Intrachromosomal homologous recombination, manifest as reversion of a 14-kbp duplication in the hypoxanthine phosphoribosyl transferase (HPRT) gene, is elevated in human cells either stably transformed or transiently transfected by the SV40 (simian virus 40) large T antigen gene. Following introduction of wild-type SV40, or any of several T-antigen point mutations in a constant SV40 background, we observed a strong correlation between the stimulation of chromosomal recombination and induction of host-cell DNA synthesis. Moreover, inhibitors of DNA replication (aphidicolin and hydroxyurea) suppress SV40-induced homologous recombination to the extent that they suppress DNA synthesis. Stable integration of plasmids encoding T antigen also augments homologous recombination, which is suppressed by aphidicolin. We infer that the mechanism by which T antigen stimulates homologous recombination in human fibroblasts involves DNA replicative synthesis.     

Investigation of mutant frequency at the HPRT locus and changes in microsatellite sequences in healthy young adults

In an attempt to understand the inter-individual variation that occurs in in vivo mutant frequency at the HPRT locus, we have examined the effect of polymorphisms in genes for metabolic enzymes on the mutation rate. In the same population of human volunteers, the background variant frequency in a number of microsatellite sequences was studied to determine individual variation in the capacity to repair mismatches in these sequences. The HPRT mutant frequency of T-cells isolated from a group of 49 healthy, non-smoking adults varied from 0.25 to 9.64×10⁻⁶. The frequency of polymorphisms in CYP1A1, GSTM1 and NAT2 among these individuals was similar to those published, and when subjected to univariate analysis these polymorphisms showed no influence on the HPRT mutant frequency. However, there was a significant interaction between the GSTM1 null genotype and the slow acetylator status in NAT2 (P<0.05) which was associated with higher mutant frequency. Analysis of 30 microsatellite sequences in 20 HPRT proficient clones per individual showed only six alterations in total, giving an overall mutation rate per allele of 0.01%, whilst three alterations were found in five HPRT deficient clones per individual examined for changes in 10 microsatellites, giving an overall mutation rate per allele of 0.3%. Thus, the alterations detected are probably due to background mutations and not to differences in mismatch repair capacity.     

A Thy-1 − mutant defining a gene acting in trans position to regulate cell-surface Thy-1 glycoprotein expression and Thy-1 messenger RNA content

The Thy-1 glycoprotein is a differentiation antigen which exhibits tissue-specific regulation. A mutant of a Thy-1.1⁺ T-cell lymphoma has been isolated which does not express Thy-1 glycoprotein on the cell surface and does not accumulate Thy-1 mRNA in the cytoplasm. Hybrids between the mutant and a Thy-1.2⁺ T-cell lymphoma express 20–30-fold lower levels of Thy-1 glycoprotein on their cell surface compared to wild-type T-cell lymphomas, and they have correspondingly low levels of cytoplasmic Thy-1 mRNA. A revertant of one hybrid was isolated which expressed wild-type levels of both Thy-1 alleles on its surface and contained correspondingly increased levels of Thy-1 mRNA. A Thy-1⁺ revertant of the Thy-1 ^– mutant was isolated by cell sorting. A second generation Thy-1 ^– mutant could be isolated from this revertant which also did not accumulate Thy-1 mRNA and which behaved in a way similar to the first generation mutant when hybridized to a Thy-1.2⁺ lymphoma. No changes in the structure or copy number of the Thy-1 structural gene could be detected in this series of mutants and revertants. These properties are consistent with a mutation in one (or more) gene(s) which acts in trans position to regulate Thy-1 glycoprotein expression.     

Cotransfer and phenotypic stabilisation of syntenic and asyntenic mink genes into mouse cells by chromosome-mediated gene transfer

Summary By means of metaphase chromosomes, the genes for mink thymidine kinase (TK) and hypoxanthine-phosphoribosyltransferase (HPRT) were transferred to mutant mouse cells, LMTK^-, A9 (HPRT^-) and teratocarcinoma cells, PCC4-aza 1 (HPRT^-). Eighteen colonies were isolated from LMTK^- (series A), 9 from A9 (series B) and none from PCC4-aza 1. The transformed clones contained mink TK or HPRT. Analysis of syntenic markers in series B demonstrated that one clone contained mink glucose-6-phosphate dehydrogenase (G6PD) and the other alpha-galactosidase; in series A, nine clones contained mink galactokinase (GALK) and six mink aldolase C (ALDC). Analysis of 12 asyntenic markers located in ten mink chromosomes showed the presence of only aconitase-1 (ACON1) (the marker of mink chromosome 12) in three clones of series A. The clones lost mink ACON1 between the fifth to tenth passages. Cytogenetic analysis established the presence of a fragment of mink chromosome 8 in eight clones of series A, but not in series B. The clones of series A lost mink TK together with mink GALK and ALDC during back-selection; in B, back-selection retained mink G6PD. No stable TK⁺ phenotype was detected in clones with a visible fragment of mink chromosome 8. Stability analysis demonstrated that about half of the clones of series B have stable HPRT⁺ phenotype whereas only three clones of series A have stable TK⁺ phenotype. It is suggested that the recipient cells, LMTK^- and A9, differ in their competence for genetic transformation and integration of foreign genes.     

Characteristics of primary and immortalized fibroblast cells derived from the miniature and domestic pigs

Background

The pig, Sus scrofa domestica includes both the miniature and commercial domestic breed. These animals have influenced the human life and economies and have been studied throughout history. Although the miniature breeds are more recent and have increasingly been used in a variety of biomedical studies, their cell lines have rarely been established. Therefore, we sought to establish primary and immortal cell lines derived from both the miniature and domestic pig to better enable insight into possible in vivo growth differences.

Results

The in vitro lifespan of primary domestic pig fibroblast (PF) and miniature pig fibroblast (MPF) cells using a standard 3T3 protocol was determined. Both of the primary PF and MPF cells were shown to have a two-step replicative senescence barrier. Primary MPF cells exhibited a relatively shorter lifespan and slower proliferation rate compared to those of primary PF cells. Beyond senescence barriers, lifespan-extended PF and MPF cells were eventually established and indicated spontaneous cellular immortalization. In contrast to the immortalized PF cells, immortal MPF cells showed a transformed phenotype and possessed more frequent chromosomal abnormalities and loss of p53 regulatory function. The lifespan of primary MPF and PF cells was extended by inactivation of the p53 function using transduction by SV40LT without any detectable senescent phenotype.

Conclusion

These results suggest that p53 signaling might be a major determinant for the replicative senescence in the MPF cells that have the shorter lifespan and slower growth rate compared to PF cells in vitro.     

High rotational mobility of DNA in animal cells and its modulation by histone acetylation

Summary Several spontaneous Lac⁻ deletion derivatives of the β-galactosidase gene ofLactobacillus bulgaricus were analyzed for their phenotypic stability. We found that one of these mutants,lac139, carrying a deletion of 30 by within the gene, was able to revert to a Lac⁺ phenotype. Genetical analysis of revertants indicated that an internal region of 72 by was duplicated immediately next to the deletion site. The region involved in the duplication event is flanked by direct repeated sequences of 13 by in length. Both events, the deletion and the duplication, were mediated by the presence of such short direct repeats. Enzymatic studies of the purified proteins indicated identical kinetic parameters, but showed considerable instability of the revertant protein.     

Effects of arsenic exposure on the frequency of HPRT-mutant lymphocytes in a population of copper roasters in Antofagasta, Chile: a pilot study

A pilot biomarker study was conducted to investigate the feasibility of using the hypoxanthine guanine phosphoribosyltransferase (HPRT) gene in peripheral blood lymphocytes as a biomarker for detecting genetic effects of arsenic exposure. Blood and urine samples were obtained from workers highly exposed to arsenic in a copper roasting plant in Antofagasta, Chile. Individuals were classified according to their job titles into three potential exposure groups: high, medium, and low. To confirm exposure, arsenic concentration was determined in urine samples. The HPRT mutant frequencies were measured in lymphocytes from 15 individuals ranging in age from 24 to 66 years. The mean mutant frequencies for the three exposure groups were: low (9×10⁻⁶), medium (11×10⁻⁶), and high (24×10⁻⁶). An increased mutant frequency was observed in the highly exposed group, but the response was so slight that it is not likely that this assay will be capable of providing dose–response information across a range of lower, more typical environmental arsenic levels.     

Immortal phenotype of the HeLa variant D98 is recessive in hybrids formed with normal human fibroblasts

Normal human cells such as human diploid fibroblasts (HDF) have a finite proliferative lifespan in culture. Previous studies have shown that the limited lifespan phenotype is dominant in cell hybrids formed by fusion of HDF to at least 23 different kinds of immortal human cells. However, two independent studies reported that hybrid clones formed by the fusion of HDF to the HeLa variant D98 had unlimited division potential. Those results were potentially very important because they implied that a) there is a dominant mechanism for immortalization of human cells in addition to the well-documented recessive mechanism, and b) a dominant mechanism would lend itself to identification of the immortalizing gene. Consequently, we carried out more detailed studies of the behavior of D98 cells in hybrids. Our results indicate that the majority of D98 x HDF hybrid clones exhibit a clear-cut finite proliferative lifespan phenotype. In addition, these hybrid cell populations often give rise to an immortal focus of cells that can be seen to take over the population of mortal cells at the end of their lifespan. This phenomenon reconciles our data with the previous reports of immortal D98 x HDF hybrid clones and leads us to conclude that D98 cells do not express a dominant immortalizing gene.     

Impact of maternal lifestyle factors on newborn HPRT mutant frequencies and molecular spectrum — Initial results from the Prenatal Exposures and Preeclampsia Prevention (PEPP) Study

Epidemiological studies have demonstrated associations between maternal tobacco smoke exposure and consumption of alcohol during pregnancy and increased risk of pediatric malignancies, particularly infant leukemias. Molecular evidence also suggests that somatic mutational events occurring during fetal hematopoiesis in utero can contribute to this process. As part of an ongoing multi-endpoint biomarker study of 2000 mothers and newborns, the HPRT T-lymphocyte cloning assay was used to determine mutant frequencies (M_f) in umbilical cord blood samples from an initial group of 60 neonates born to a sociodemographically diverse cohort of mothers characterized with respect to age, ethnicity, socioeconomic status, and cigarette smoke and alcohol exposure. Non-zero M_f (N=47) ranged from 0.19 to 5.62×10⁻⁶, median 0.70×10⁻⁶, mean±SD 0.98±0.95×10⁻⁶. No significant difference in M_f was observed between female and male newborns. Multivariable Poisson regression analysis revealed that increased HPRT M_f were significantly associated with maternal consumption of alcohol at the beginning [Relative Rate (RR)=1.84, 95% CI=0.99–3.40, P=0.052) and during pregnancy (RR=2.99, 95% CI=1.14–7.84, P=0.026). No independent effect of self-reported active maternal cigarette smoking, either at the beginning or throughout pregnancy, nor maternal passive exposure to cigarette smoke was observed. Although based on limited initial data, this is the first report of a positive association between maternal alcohol consumption during pregnancy and HPRT M_f in human newborns. In addition, the spectrum of mutations at the HPRT locus was determined in 33 mutant clones derived from 19 newborns of mothers with no self-reported exposure to tobacco smoke and 14 newborns of mothers exposed passively or actively to cigarette smoke. In the unexposed group, alterations leading to specific exon 2–3 deletions, presumably as a result of illegitimate V(D)J recombinase activity, were found in five of the 19 mutants (26.3%); in the passively exposed group, two exon 2–3 deletions were present among the seven mutants (28.6%); and in the actively exposed group, six of the seven mutants (85.7%) were exon 2–3 deletions. Although no overall increase in HPRT M_f was observed and the number of mutant clones examined was small, these initial results point to an increase in V(D)J recombinase-associated HPRT gene exon 2–3 deletions in cord blood T-lymphocytes in newborns of actively smoking mothers relative to unexposed mothers (P=0.011). Together, these results add to growing molecular evidence that in utero exposures to genotoxicants result in detectable transplacental mutagenic effects in human newborns.     

Unusual Presentation of Kelley-Seegmiller Syndrome

Female carriers of hypoxanthine-guanine phosphoribosyltransferase (HPRT) deficiency have somatic cell mosaicism of HPRT activity and are healthy. We report a 50-year-old woman without gout or nephrolithiasis. She was never on allopurinol. Normal serum uric acid concentrations, increased plasma hypoxanthine, and xanthine were found. HPRT activity in erythrocytes was surprisingly low: at 8.6 nmol h^?1 mg ^?1 haemoglobin. Mutation analysis revealed a heterozygous HPRT gene mutation, c.215A > G (p.Tyr72Cys). Assessment of X-inactivation ratio has shown that > 75% of the active X-chromosome bears the mutant allele and could explain these unusual, previously undescribed findings.     

Non-selective isolation of fibroblast-cybrids by flow sorting

Red- and green-fluorescing polystyrene beads were used to label different populations of cultured human fibroblasts. After enucleation of the green-fluorescing population, the cytoplasts were fused with red-fluorescing cells. Twenty-four hours after cell fusion the population of red-green heterofluorescent cells was isolated with a FACS II cell sorter. When Lesch-Nyhan fibroblasts (HPRT⁻) were fused with cytoplasts from control fibroblasts (HPRT⁺) more than 95% of the sorted cells were heterofluorescent and 90% of the sorted cells showed HPRT⁺ activity. Therefore almost all sorted heterofluorescent cells are true cybrids. With this procedure for cybrid isolation, earlier complementation studies using cybrids from different variants of β-galactosidase deficiency could be confirmed.     

Quantification of Protein Copy Number in Yeast: The NAD+ Metabolome

Saccharomyces cerevisiae is calorie-restricted by lowering glucose from 2% to 0.5%. Under low glucose conditions, replicative lifespan is extended in a manner that depends on the NAD⁺-dependent protein lysine deacetylase Sir2 and NAD⁺ salvage enzymes. Because NAD⁺ is required for glucose utilization and Sir2 function, it was postulated that glucose levels alter the levels of NAD⁺ metabolites that tune Sir2 function. Though NAD⁺ precursor vitamins, which increase the levels of all NAD⁺ metabolites, can extend yeast replicative lifespan, glucose restriction does not significantly change the levels or ratios of intracellular NAD⁺ metabolites. To test whether glucose restriction affects protein copy numbers, we developed a technology that combines the measurement of Urh1 specific activity and quantification of relative expression between Urh1 and any other protein. The technology was applied to obtain the protein copy numbers of enzymes involved in NAD⁺ metabolism in rich and synthetic yeast media. Our data indicated that Sir2 and Pnc1, two enzymes that sequentially convert NAD⁺ to nicotinamide and then to nicotinic acid, are up-regulated by glucose restriction in rich media, and that Pnc1 alone is up-regulated in synthetic media while levels of all other enzymes are unchanged. These data suggest that production or export of nicotinic acid might be a connection between NAD⁺ and calorie restriction-mediated lifespan extension in yeast.     

Sirtuin在热量限制延长寿命机制中的研究进展

热量限制(caloric restriction, CR)可以引起细胞、生物体寿命延长和降低衰老相关疾病的发生,其中Sirtuin起着关键作用．Sirtuin将机体能量代谢和基因表达调控相偶联,通过赖氨酸去乙酰化改变蛋白质的活性和稳定性,从而调节衰老进程．酵母中度CR影响其复制寿命和时序寿命,主要依赖于激活Sir2,增加细胞内NAD+/NADH的比例和调节尼克酰胺浓度来实现．类似的机制也存在于秀丽线虫和果蝇中．哺乳动物在CR条件下SIRT1蛋白表达应答性上升,细胞中NAM磷酸基转移酶能够直接影响NAM和NAD+浓度,并影响SIRT1活性．NO表达增加能导致SIRT1上调和线粒体合成增加．SIRT1可能通过改变组蛋白、p53、NES1、FOXO等底物蛋白的乙酰化影响到细胞和个体的衰老．表明不同生物体中的Sirtuin及其同源类似物在CR条件下对衰老进程和寿命都起着非常重要的作用．     

Additional data in support of the quadruplicated white-ivory reversion system to test for somatic genotoxicity in Drosophila melanogaster

Cyclophosphamide, ethyl methanesulfonate, propyleneimine and tritiated water were tested in a new short-term somatic mutation bioassay, previously described by Green and coworkers (1986), to evaluate the suitability of the quadruplicated white-ivory system of Drosophila melanogaster for genotoxicity testing of chemicals. A 2.9-kb tandemly duplicated sequence of w⁺ within a w⁺ gene is responsible for the white-ivory phenotype. Reversion of wⁱ to w⁺ is in general, associated with the loss of the appended 2.9 kb or other alterations affecting this duplicated region. The appearance of light (white or nearly white) phenotypes could be due to the loss of some wⁱ copies. Thus, in the eyes of adult males resulting from treated larvae, we can detect 2 types of sectors (red and light) on the orange-yellow background. Our results indicate that the genetic system used in this somatic assay is sensitive to the genotoxic effects of the 4 compounds tested. All 4 compounds tested were positive. Tritiated water had weak effects, cyclophosphamide was characterized by small revertant clones and ethyl methanesulfonate and propyleneimine by large clone size. From the available data, we feel that the wⁱ system can be considered of potential value for genotoxicity testing.