Genetic analysis of recessive lethal mutations induced by the influenza virus in the X chromosome of Drosophila melanogaster

Mutagenic potential of the influenza virus was evaluated. Based on its capacity of inducing recessive lethal mutations in the X chromosome of Drosophila melanogaster, the influenza virus can be classified as a moderate-activity mutagen. Its mutagenicity does not depend on ability to reproduce in the cell system. This virus was shown to disrupt formation of the wing, particularly wing vein M1 + 2. Cytogenetic examination of polytene X chromosomes bearing recessive lethal mutations in Drosophila salivary glands did not reveal chromosome rearrangements. These lethals are assumed to be small deletions or point mutations. The determination of the lethal activity stage of these mutations showed that they disrupt the expression of genes functioning at various developmental stage of Drosophila. Two of them were conditionally lethal (temperature-sensitive). Two of 15 mutations analyzed were mapped to region 2B9-10-3C10-11.     

Testing the mutagenicity of malondialdehyde and formaldehyde by the Drosophila mosaic and the sex-linked recessive lethal tests

The mutagenicities of malondialdehyde and formaldehyde were tested by screening each for genetic mosaics of Drosophila melanogaster and by the Muller-5 test for sex-linked recessive lethal mutations. For comparison, the effects of X-rays were also assayed by the above technique. Malondialdehyde, a degradation product of polyunsaturated fatty acids, was found to be a weak mutagen by the above criteria; it induced point mutations and chromosome exchanges at low frequency, as proved by the mosaic test, but failed to induce detectable sex-linked lethality. Formaldehyde was more mutagenic than malondialdehyde; beside induction of mosaic spots it induced sex-linked recessive lethal mutations, but only in the larval testes of Drosophila. Formaldehyde also induced disintegration of the clones. Formaldehyde treatment (feeding larvae with formaldehyde-containing food for about 4 days) was 5 times more mutagenic than malondialdehyde treatment and 5 times less effective than irradiation by 1000 R of X-rays. Wing mosaicism offers a more sensitive way to detect mutagenesis as compared with eye mosaicism. It is suggested that aldehyde-induced mosaic spots derive from mitotic recombination and point mutations.     

Mutagenic action of alkylating agents on prophage lambda

The lethal and mutagenic effects of 7 alkylating agents: N-nitroso-N-methylurea (NMU), N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), methyl methanesulfonate (MMS), ethyl methanesulfonate (EMS), nitrogen mustard (HN2), mitomycin C (MC), bifunctional acridine mustard (AM)--and of cyanate (KNCO) on heat inducible lambda cI857 prophage were studied. After treatment of lysogenic cells with mutagens, prophage was heat-induced either immediately or after 90 min incubation in nutrient broth and c mutants forming clear plaques at 32 degrees C were scored. NMU (0.02 M) when immediately induced with heat, induces c mutants very efficiently (maximal yield 10%) not only in the wild-type cells but also in repair-deficient mutants recA13, lexA102, uvrA6 umuC36, recF143, xthA9, polA1, uvrD3 and uvrD502. These data show that NMU-induced mutations are fixed as replication errors due to mispairing modified bases. After delayed heat induction, the prophage survival enhances and the frequency of c mutations declines considerably in host cells of all repair genotypes tested. Carbamoylation is not involved in the mutagenic action of NMU, because KNCO (0.02 M) has a very slight lethal effect and does not induce mutations. MNNG (100 micrograms/ml) and EMS (0.1 M) also induce mutations by replicative mechanism, because maximal yield of c mutations does not depend on RecA+ and is about 15 and 2%, respectively. MMS is a mutagen of the repair type, since its mutagenic action is suppressed by recA mutation of the host. NH2 only inactivates prophage, but does not induce mutations. MC (50 micrograms/ml) and AM (150 micrograms/ml) induce mutations rather inefficiently (the maximal yield 0.1 and 0.3%, respectively) both in recA+ and recA- hosts. The mutagenic action of these agents is probably due to intercalation.     

Female-specific mutagenic response of mice to hycanthone

Male and female gametogeneses differ markedly in all mammals. While male germ cells are continuously being produced from stem cells throughout the reproductive life span, the number of female germ cells is fixed during prenatal development and, soon after birth, all of the oocytes are arrested in a modified diplotene, or dictyate, stage. Following puberty, dictyate oocytes are hormonally triggered to mature either singly or in groups, resulting in ovulation and the completion of the first meiotic division. It has been hypothesized that female mice are more susceptible to dominant lethal effects of intercalating agents than male mice because oocyte chromosomes, which are arrested in a diffuse state, are generally more accessable to intercalation than are the more condensed chromosomes present within most male germ cell stages. This hypothesis was further tested using the intercalating agent hycanthone methane-sulfonate. Effects of hycanthone were studied in maturing and primordial oocytes and in male germ cells throughout spermatogenesis. No induction of dominant lethality was observed for treated males while a significant increase in embryonic death, expressed around the time of implantation, was observed in females that mated within 4.5 days after treatment. These effects were the result of dominant lethal mutations induced in maturing oocytes and not of maternal toxicity as indicated by the presence of chromosomal aberrations observed at first-cleavage metaphase of zygotes obtained from treated females. These results add support to the hypothesis that certain intercalating chemicals, which are not mutagenic to male mice, may be mutagenic to females and point to a need for more in-depth studies of female-specific mutagenesis.     

Action of mitomycin C on the variability of Actinomyces hygroscopicus in forming a proteolytic complex of hygrolytin enzymes and the antibiotic, hygromycin B]

The lethal and mutagenic effect of mitomycin C in doses of 10 and 15 micrograms/ml on the spores and 24-hour culture of Act. hygroscopicus, strain O878 producing hygrolytin, a proteolytic enzyme and hygromycin B, an antibiotic was studied. It was found that mitomycin C had a high lethal effect on the organism. The lethal effect of the antibiotic depended on the stage of the culture development, mitomycin C dose and exposure time. The 24-hour culture was most sensitive to the effect of mitomycin in a dose of 50 micrograms/ml. Exposure to mitomycin increased the actinomycete variation with respect to the colony morphology and induction of new morphological mutations. Exposure of strain O878 to mitomycin C significantly increased the culture variation with respect to the quantitative features of production of the hygrolytin proteolytic enzyme complex and hygromycin B. The character of the strain induced variation with respect to the features studied was different which indicated the absence of correlation between them. The use of mitomycin C proved to be promising in selection of Act. hygroscopicus with a purpose of increasing the culture proteolytic and antibiotic activity.     

The mutational spectrum of procarbazine in Drosophila melanogaster.

The antineoplastic agent Procarbazine was tested for the induction of genetic damage in Drosophila melanogaster. The compound was administered to adult males by oral application. The following types of genetic damage were measured: (1) sex-linked recessive lethals; (2) dominant lethals; (3) total and partial sex-chromosome loss; and (4) translocations. Procarbazine is highly mutagenic in causing recessive lethal mutations in all stages of spermatogenesis. In sperm a clear-cut concentration-effect relationship is not apparent, but in spermatids such a relationship is obtained for mutation induction at low levels of procarbazine exposure, while at high concentrations the induction of recessive lethals is not a function of concentration. A low induction of total sex-chromosome loss (X,Y) and dominant lethals was observed in metabolically active germ cells (spermatids), but procarbazine failed to produce well-defined breakage events, such as partial sex-chromosome loss (YL,YS) and II-III translocations. The results obtained in Drosophila melanogaster are discussed and compared with the mutational pattern reported in the mouse after procarbazine treatment.     

Neutron- and X-ray-induced mutations at the yellow, white, forked and vermilion loci of Drosophila melanogaster; a preliminary analysis

Neutrons and X-rays were used to induce mutations at the yellow, white, vermilion and forked loci of Drosophila melanogaster by irradiation of spermatozoa in males. The mutations were characterized for the presence and location of simultaneously induced rearrangements and recessive lethal mutations. F1 females carrying induced visible mutations were identified, described and tested for fertility. The data are given in this paper. The proportions of mutants at the 4 loci, the ratios of whole-body: mosaic mutations, and the fertility of the mutant-carrying F1 females were similar for both types of radiation. Differences were observed between the frequencies of induced visible mutations and the rates of coincident visible and lethal induction. Although the analysis of the mutant chromosomes has not yet been completed, our data can be interpreted as providing confirmation that there are qualitative differences between the genetic effects of neutrons and X-rays.     

Non-random distribution of spontaneous and high temperature-induced recessive lethal mutations in the X-chromosome of Drosophila]

Frequency and localization of spontaneous and induced by high temperature (37 degrees C) recessive lethal mutations in X-chromosome of females belonging to the 1(1) ts 403 strain defective in synthesis of heat-shock proteins (HSP) were studied. No differences in frequencies of both spontaneous and induced lethals between 1(1) ts 403 and control strain were found, thus implying that the disturbances in HSP synthesis have no effect on this process in oocytes of Drosophila melanogaster females. Surprisingly, distribution of spontaneous and induced lethals along the X-chromosome of 1(1) ts 403 strain appeared to be non-random: they primarily are located in its distal portion (1-44 cM of genetic map or in I-II sections of the Bridges cytogenetic map). This correlates with non-random distribution of mobile elements in the X-chromosome of D. melanogaster (Leibovich, 1990).     

Protoplasmic Incompatibility and Cell Lysis in PODOSPORA ANSERINA. I. Genetic Investigations on Mutations of a Novel Modifier Gene That Suppresses Cell Destruction

The distribution of chromosomal aberrations between and within chromosomes of male D, melanogaster somatic cells after treatment with UV has been analyzed. -- Distribution of the breaks between chromosomes was largely nonrandom since we found a higher aberration frequency than that expected on the Y chromosome. Moreover, within the chromosomes the aberrations are clustered in the pericentromeric heterochromatic regions. The above distribution is compared with that of the breaks induced by X rays and methyl-methane-sulphonate (MMS) which were distributed in a different pattern.     

Heterogeneity of Lethals in a "Simple" Lethal Complementation Group

Of 24 ethyl methanesulphonate-induced, recessive-lethal mutations in the region 9E1-9F13 of the X chromosome of Drosophila melanogaster, eight fall into a typically homogeneous lethal complementation group associated with the raspberry (ras) locus. Mutations in this group have previously been shown to be pleiotropic, affecting not only ras but also two other genetic entities, gua 1 and pur 1, which yield auxotrophic mutations.--The eight new mutations have been characterized phenotypically in double heterozygotes with gua 1, pur 1 and ras mutations. Despite their homogeneity in lethal complementation tests, the mutations prove quite diverse. For example, two mutations have little or no effect on eye color in double heterozygotes with ras2. The differences between the lethals are allele-specific and cannot be explained as a trivial outcome of a hypomorphic series.--Taken alone, the lethal complementation studies mask the complexity of the locus and the diversity of its recessive lethal alleles. By extension, we argue that the general use of lethal saturation studies provides an unduly simplified image of genetic organization. We suggest that the reason why recessive lethal mutations rarely present complex complementation patterns is that complex loci tend to produce mutations that affect several subfunctions.     

Strong antimutagenic effects of fluoride on mutation induction by trenimon and 1-phenyl-3,3-dimethyltriazene in Drosophila melanogaster

After fluoride treatment of mature and immature oocytes of Drosophila females, a clear-cut dose-dependent decrease in fertility and fecundity was observed. The hatchability of mature oocytes was reduced by as much as 35%. When immature oocytes were treated, a pronounced dose-dependent reduction in fecundity occurred.

Exposure of mature sperm to NaF resulted in a slight decrease in fertility, comparable to the effect obtained with immature oocytes. Of the criteria used to measure possible mutagenic effects of NaF (sex-linked lethals, partial and total X- and Y-chromosome losses), only the rate of total losses was enhanced significantly.

The slight mutagenic effect of NaF on mature sperm was not related to the strong antimutagenic activity observed, when applied simultaneously with any of the several chemical mutagens. NaF treatment drastically reduced both the Trenimon-induced decrease in fertility and Trenimon-induced increases in recessive lethal mutation frequencies and rates of partial and total chromosome losses. The inhibitory effect of NaF was less pronounced with 1-phenyl-3,3-dimethyltriazene (PDT), a poor chromosome breaker in Drosophila, and absent for A 137, a weak mutagen which so far has failed to induce chromosomal aberrations in Drosophila. Therefore, the data are interpreted as being the result of a specific fluoride inhibition of chemically induced chromosomal breakage.

In mature and immature oocytes, the decreases in fertility and fecundity, and increase in recessive lethal frequency (mature oocytes) produced by Trenimon were also suppressed in the presence of fluoride. However, since Trenimon failed to produce a significant rise in X losses and NDJ in both stages, the effect of NaF on these mutational classes was, of course, not testable.     

Mutagenic activity of dioxydine]

A previous evaluation of mutagenic activity of some drugs and perspective substances is carried out using indicator microorganisms. The mutagenicity of dioxydine, a drag with discovered antibacterial activity, is investigated. Dioxydine is shown to induce reversions in mutant of Salmonella typhimurium TA-1950, the indicator strain which demonstrates mutagenic activity of agents, producing mutations of base pair substitution type. Dioxydine proved to affect logariphmiically growing bacterial culture with great activity. Mutageni effect of dioxydine is not modified itself in microsomal oxidation system in vitro. Some data concerning participation of excision reparation enzyme (uvr-B+ gene product) in repair of lethal damages induced by dioxydine, have been obtained. The dioxydine ability to cause bacterial gene mutations in host mediated assay as well as dominant and recessive sex-linked lethal mutations in Drosophila is demonstrated. Dioxydine is capable of inducing chromosome aberrations in bone marrow cells and dominant lethal mutations in mouse germ cells.     

Mutagenicity of lead chromate in Drosophila melanogaster in the presence of nitrilotriacetic acid (NTA)

By using the sex-linked recessive lethal mutation test in Drosophila melanogaster (standard Basc scheme) we analysed the mutagenic effects of treatments by feeding with nitrilotriacetic acid (NTA: 5 X 10(-2) M), with the insoluble Cr(VI) compound lead chromate, PbCrO4 (supernatant of 4.6 X 10(-4)-M suspension in which the actual concentration was 0.06 gamma/ml as Cr(VI)) and with both compounds preincubated at 3 relative ratios (NTA: 5 X 10(-2) M; PbCrO4: 4.6 X 10(-4), 4.6 X 10(-5) and 9.2 X 10(-6) M, respectively). The estimation of mutation frequencies was done at different developmental stages of the germ cells, namely spermatozoa, spermatids and spermatocytes. Ethyl methanesulphonate (EMS: 5 X 10(-3) M) was used as the reference positive control, with clearly mutagenic results. Treatments with NTA or with PbCrO4 alone did not induce any significant increase of the mutation frequency. PbCrO4 at the 3 concentrations tested was completely soluble in the 5 X 10(-2)-M NTA solution, and the mixture of NTA and PbCrO4 induced significant increases of the frequency of sex-linked lethal mutations, with a significant dose-effect relationship with respect to PbCrO4, apparently as a result of the interaction of the compounds and subsequent release of the genotoxic heavy-metal Cr(VI) ions. This result indicates an important synergistic action of NTA with PbCrO4 under the conditions described.     

Analysis of ENU-induced mutations at the Adh locus in Drosophila melanogaster

N-Ethyl-N-nitrosourea (ENU) was used to induce mutations in the Drosophila melanogaster, alcohol dehydrogenase (Adh) gene. Flies were treated with ENU and mated to homozygous intragenic Adh null mutants; Adh null mutations were selected by exposure of the F1 generation to 1-penten-3-ol. Fourteen Adh null mutations were recovered which included 11 from spermatozoa, 2 from oocytes and 1 from a premeiotic spermatocyte. 2 mutations from spermatozoa and 1 of the mutations from oocytes were multilocus deficiencies which included the Adh locus as determined by complementation tests. The remaining 11 intragenic Adh null mutations were sequenced using the Sanger dideoxy method. One Adh null mutation induced in an oocyte was an AT to TA transversion and the mutation induced in a premeiotic spermatocyte was a GC to AT transition, both of which resulted in a single amino acid substitution. The 11 null mutations induced in spermatozoa were a data set in which both the dose of ENU and the treated germ-cell stage were held constant; therefore, only these 11 mutations were used to calculate the mutation frequency and compare the mutations at the Adh locus with those recovered in other studies. The dose of ENU induced a sex-linked recessive lethal frequency approximately 300 times that of the spontaneous frequency; therefore, these mutations were assumed to have been induced by ENU. 2 of the 11 mutations induced in spermatozoa were multilocus deficiencies and 9 were intragenic mutations. 7 of the 9 intragenic mutations were GC to AT transitions which resulted in 5 single amino acid substitutions, 1 premature translation termination codon, and 1 splice site mutation.(ABSTRACT TRUNCATED AT 400 WORDS)     

Lack of Spontaneous Sister Chromatid Exchanges in Somatic Cells of DROSOPHILA MELANOGASTER

Neural ganglia of wild type third-instar larvae of Drosophila melanogaster were incubated for 13 hours at various concentrations of BUdR (1, 3, 9, 27 micrograms/ml). Metaphases were collected with colchicine, stained with Hoechst 33258, and scored under a fluorescence microscope. Metaphases in which the sister chromatids were clearly differentiated were scored for the presence of sister-chromatid exchanges (SCEs). At the lowest concentration of BUdR (1 microgram/ml), no SCEs were observed in either male or female neuroblasts. The SCEs were found at the higher concentrations of BUdR (3, 9, And 27 micrograms/ml) and with a greater frequency in females than in males. Therefore SCEs are not a spontaneous phenomenon in D. melanogaster, but are induced by BUdR incorporated in the DNA. A striking nonrandomness was found in the distribution of SCEs along the chromosomes. More than a third of the SCEs were clustered in the junctions between euchromatin and heterochromatin. The remaining SCEs were preferentially localized within the heterochromatic regions of the X chromosome and the autosomes and primarily on the entirely heterochromatic Y chromosome.--In order to find an alternative way of measuring the frequency of SCEs in the Drosophila neuroblasts, the occurrence of double dicentric rings was studied in two stocks carrying monocentric ring-X chromosomes. One ring chromosome, C(1)TR94--2, shows a rate of dicentric ring formation corresponding to the frequency of SCEs observed in the BUdR-labelled rod chromosomes. The other ring studied, R(1)2, exhibits a frequency of SCEs higher than that observed with both C(1) TR94--2 and rod chromosomes.     

Spontaneous and Ethyl Methanesulfonate-Induced Mutations Controlling Viability in DROSOPHILA MELANOGASTER. I. Recessive Lethal Mutations

The efficiency of the adult feeding method for EMS treatment in Drosophila melanogaster was studied by measuring the frequency of induced recessive lethals on the second chromosome. The treatment was most effective when mature spermatozoa or spermatids were treated and was much less effective on earlier stages. The number of mutations induced was proportional to the concentration except at the highest doses. The recessive lethal rate was estimated to be about 0.012 per second chromosome per 10(-4) M. In addition, about 0.004-0.005 recessive lethals per 10(-4) M were found in a later generation in chromosomes that had not shown the lethal effect in the previous generation. When the experiments are done in a consistent manner and gametes treated as mature sperm or spermatids are sampled, the results are highly reproducible. However, modifications of the procedure, such as starvation before EMS treatment, can considerably alter the effectiveness of the mutagen.     

Trenimon-induced sex chromosome loss in Drosophila: different dose-responses for ring-X loss as compared to rod-X loss and Y-marker loss

Drosophila melanogaster males carrying either a ring- or a rod-shaped X-chromosome were injected or fed with Trenimon (triaziquone) at concentrations ranging from 5 X 10(-5) to 2 X 10(-2) mM. The F1 generation was assayed for the occurrence of total sex chromosome loss and of Y-chromosome markers. Sex-linked recessive lethal tests were carried out simultaneously. The data show that significant induction of ring-X loss occurs already at very low treatment concentrations (5 X 10(-5) -10(-4) mM) whereas rod-X loss or Y-marker loss is only seen at 2-5 X 10(-3) mM and higher. Induction of sex-linked recessive lethals is observed from 10(-4) -10(-3) mM on. These results add to existing evidence that loss of ring-X chromosomes, induced by some chemicals, may proceed by a mechanism different from the kind of events leading to chromosome breakage, as measured by rod-X loss and Y-marker loss.     

The mutagenicity of azathioprine in mice, Drosophila melanogaster and Neurospora crassa.

The chemotherapeutic coumpound azathioprine was tested for possible mutagenicity in Swiss Albino mice, Drosophila melanogaster and Neurospora crassa. Utilizing the dominant-lethal assay it was found that acute oral doses of azathioprine (2 times 25 mg/kg body weight), induced dominant-lethal mutations in mouse spermatocytes. Chronic oral doses of azathioprine (2 times 25 mg/kg body weight/week for 10 weeks) resulted in a greater rate of dominant-lethality. This increase was not permanent, and by week 4 of gamete sampling there was no significant increase in dominant-lethal mutations. Histological sections showed that chronic treatment of male mice with azathioprine caused pyknosis of spermatocyte nuclei and depletion of the spermatid population. Both acute and chronic doses of azathioprine caused a temporary reduction in sperm viability. Oral treatment of male Canton-S, D. melanogaster with azathioprine caused an increase in dominant-lethality in broods assumed to correspond to spermatid and spermaotcyte stages. Azathioprine also increased the rate of non-disjunction of the X and Y chromosomes, loss of the long arm of the Y chromosome, and loss of the X or Y chromosome in treated male R(I)2, vf/BsYy+D. melanogaster. Since sex-ratio deviation did not occur in progeny from treated rod-X (yv/B2Yy+) male D. melanogaster, it was concluded that the observed sex-ration deviation in the treated ring-X stock was the result of induced ring-X lethality. Azathioprine induced recessive-lethal mutations in the ad-3 region of a N. crassa heterokaryon. In the host-mediated assay using this same heterokaryon and male Swiss Albino mice as host, the mutagenic activity of azathioprine did not appear to be potentiated or detoxified by the host. The results show that azathioprine has a deleterious effect on reproduction in mice and probably induces mutational events in mice, D. melanogaster and N. crassa.     

Mutagenicity of dimecron studied in 3 mosaic assays and the sex-linked recessive lethal test in Drosophila melanogaster

The genotoxicity of dimecron, a systemic organophosphate pesticide, has been tested in the wing, eye and germ line mosaic assays and the sex-linked recessive lethal test in Drosophila melanogaster. Larvae heterozygous for recessive marker mutations were fed the compound for various periods of time. On emergence, the wings and eyes of the adults were screened for mosaic spots and the eggs laid by the females were checked for induction of female germ line mosaicism. Dimecron is mutagenic to the somatic and germ line cells of Drosophila and induces a high frequency of sex-linked recessive lethals.     

Mutagenicity studies with x-ray-contrast media, analgesics, antipyretics, antirheumatics and some other pharmaceutical drugs in bacterial, Drosophila and mammalian test systems.

As part of our investigation into mutagenic effects of environmental compounds, we studied 21 pharmaceuticals most frequently sold in West Germany: 6 X-ray-contrast media, 13 analgesics, antipyretics and antirheumatics, 1 central stimulant, and 1 antidepressant. They were studied in different bacterial, Drosophila and mammalian test systems. 4 of these 21 compounds could be detected as mutagens in one of the test systems. namely: 1,2-dichloroethane induced an increase in the frequency of recessive sex-linked lethal mutations in Drosophila melanogaster, quinine dihydrochloride and dimethylaminophenazone were mutagenic in the Salmonella typhimurium tester strain TA98 in the presence of S-9 liver fraction derived from Aroclor-induced rats, and trilithium citrate caused a significant effect in the micronucleus test on bone marrow of NMRI mice.