Effects of a chromosome-3 mutator gene on radiation-induced mutability in Drosophila melanogaster females

A series of X-irradiation experiments was carried out using Drosophila melanogaster females homozygous for a third chromosome mutator gene and females which had a similar genetic background except that the mutator-bearing third chromosomes were substituted by normal wild-type chromosomes. The mutator females had been previously shown by Gold and Green to manifest a higher level of radiation-induced mutability (as measured by the X-ray-induction of sex-linked recessive lethals) in their pre-meiotic germ cells compared to normal females at an exposure of 100 R. In the presence work, the sensitivity of the pre-meiotic germ cells of mutator and normal females to the X-ray induction (2000 R) of sex-linked recessive lethals was studied. In addition, experiments were conducted to examine the sensitivity of the immature (stage 7; prophase I of meiosis) oocytes of both kinds of females to the induction of dominant lethals, X-linked recessive lethals and X-chromosome losses. The result show that in pre-meiotic germ cells, the frequencies of radiation-induced recessive lethals are similar in both kinds of females. However, the proportion of these mutations that occur in clusters of size 3 and higher, is higher in mutator than in normal females. In stage-7 oocytes, the frequencies of radiation-induced dominant lethals and sex-linked recessive lethals were similar in both kinds of females. The X-loss frequencies however, were consistently higher in mutator females although statistical significance was obtained only at higher exposures (3000 and 3750 R) and not at lower ones (750-2250 R). Possible reasons for the discrepancy between the present results and those of Gold and Green with respect to pre-meiotic germ cells are discussed.     

Effects of a small X-ray exposure to Drosophila melanogaster females on the recovery of genetic damage from X-irradiated males.

Wild-type (Oregon-K) Drosophila melanogaster males were X-irradiated and mated to Oster females (y sc^s1 In49sc⁸; bw; st p^p) that had received a 20 R X-ray exposure (Group MF) or no irradiation (group M). Mature spermatozoa of the irradiated males were sampled and the frequencies of dominant lethals, sex-linked recessive lethals and 2–3 translocations were measured. In the group in which the irradiated males were mated to irradiated females, the survival of eggs was significantly higher than in the group in which only the males were irradiated. However, there was no consistent and detectable difference between the two groups with respect to the frequencies of recessive lethals and translocations.The relatively higher egg survival in the MF group is amenable to an interpretation based on an inducible repair process in females that acts on radiation damage induced in spermatozoa but, such an explanation is inadequate to explain the other results. It is concluded that the observations considered together preclude a general and unifying interpretation based on a low-dose-X-ray-inducible genetic repair process in females (acting on damage in spermatozoa). Possible reasons for the discrepancy between the expectation of differences in response between the MF and M groups (in sex-linked lethal and translocation frequencies) and the observation of no consistent differences between them are discussed.     

The effect of caffeine on repair systems in oocytes of Drosophila melanogaster. I

Young Drosophila females were treated with caffeine, then mated for 24 h to males that had been irradiated with 2000 R X-irradiation, so that only mature spermatozoa were sampled. The radiation-induced frequency of dominant lethals and sex chromosome loss in the paternal genome was determined. The results show that treatment of females with caffeine leads to an increase in the frequencies of radiation-induced dominant lethals and to sex-chromosome loss.When young virgin females of the radioresistant stock RöI₂ were treated with caffeine and then irradiated with 3000 R X-irradiation, a striking increasein dominant lethals (in the maternal genome) was observed; caffeine treatment increased the X-ray response of the radioresistant stock to the level of the normal (+60) stock. It is suggested that caffeine reduces the efficiency of a system in Drosophila oocytes that repairs X-ray-produced chromosome breaks in both the paternal and maternal genomes.     

Investigations on radiosensitive and radioresistant populations of Drosophila melanogaster. IV. The genetics of the relative radioresistance in stage-7 oocytes of the irradiated population RO I

The genetic system that controls the relative radioresistance in an irradiated laboratory population of Drosophila melanogaster (RÖ I) was studied. Comparisons were made between an unirradiated control population (+60, +K), the population RÖ I (after 227–333 generations of irradiation at 2100 R per generation), the sub-population RÖ I₀ (derived from RÖ I after 260 generations of irradiation and kept without irradiation for up to 74 generations), the F₁ hybrids +60/RÖ I, various homo- and heterozygous carriers of the 3 major chromosomes of RÖ I and +60, respectively, in combination with suitable balancers, and several chromosome substitution stocks of +K and RÖ I. The criteria used to assess the magnitude of radiosensitivity were dominant lethals, X-chromosome loss, and sex-linked recessive lethals induced in stage-7 oocytes at various exposure levels of X-irradiation.The data show that the radioresistance in RÖ I is controlled by a stable and homozygous genetic system. The system is semidominant. With respect to the induction of dominant lethals and sex-linked recessive lethals, the relative resistance is mainly contributed by chromosomes I and II. The effects of the two chromosomes are additive, each contributing about half the relative resistance. Resistance to the X-ray induction of X-chromosome loss is solely contributed by chromosome II.The findings suggest that at least 2 different and independent mechanisms are involved in determining the resistance of the RÖ I population.     

Radioprotective effect of six chemicals against X-ray-induced genetic damage in D. melanogaster

In Drosophila melanogater six chemicals were tested for radioprotectiveeffect against X-ray-induced genetic damage such as sex-linked recessive lethals and autosomal translocations using Oster's ring-X chromosome stock. A 2-day brood pattern was followed to score the damage induced at different spermatogenic stages separately. In all cases the chemicals were injected before X-irradiation. 10-mM solution of reduced glutathione (GSH) provided statistically significant protection against sex-linked recessive lethals in all broods. In translocation tests this chemical reduced the frequency in all broods but the result is not statistically significant. Cysteamine (MEA) did not show any protective effect but the frequency of lethals was slightly reduced in the first and fourth broods. 2-Aminoethyl isothiuronium Br·HBr (AET) showed a statistically significant protective effect when the data of the replicate experiments were pooled. Negative results were obtained for 5-hydroxytryptamine (5-HT) in sex-linked lethal tests. Aminoethyl phosphorothioate (AEPT) reduced the frequencies of both sex-linked lethals and autosomal translocations in all broods consistently but the results are not statistically significant. In tests for both lethals and translocations the reduction was largest in the stages with highest radiosensitivity. N(3-Aminopropyl)aminoethyl phosphorothioate (3AP-AEPT) gave no protection.     

Radiation-induced dominant lethal mutations in oocytes of Musca domestica

Dominant lethal mutations induced by γ-radiation were measured in stage-7 and stage-14 oocytes of Musca domestica. At both stages the data are consistent with the multi-hit theory on radiation induction of dominant lethals. This conclusion is supported by fractionation experiments which indicate that both] S7 and S14 oocytes are capable of repairing, in defferent periods of time, a similar amount of dominant lethal damage.     

Exposure fractionation effects for X-ray-induced dominant lethals in immature (stage-7) oocytes of Drosophila melanogaster: A re-analysis

Young (0—4-h-old) Drosophila melanogaster females were X-irradiated with single or fractioned exposured over a range up to 6000 R and the induction of dominant lethals in immatuer (stage-7) oocytes was studied. The results show that (i) the frequencies of dominant lethals are higher after single than after fractionated exposures; (ii) at any given exposure level, the higher the number of fractions, the lower is the frequency of dominant lethals; (iii) conserquently, the reduction in dominant lethality relative to single exposures increases with increasing number of fractions; and (iv) this relative reduction in dominant lethality approaches a maximum value when the magnitude of the single X-ray exposure approaches zero (i.e., when tha egg survival after single X-ray exposure approaches 100%); the maximum, however, are different for the different fractionation regimes, being higher with increasing number of fractions.These findings are consistent with the assumed kinetics of X-ray induction of dominant lethality in stage-7 oocytes. It is shown that it is possible to predict the expected relative reduction in dominant lethality after fractionation, from appropriate dominant lethal data from single unfractioned exposures.     

Mutagenicity of hycanthone in Drosophila melanogaster

The schistosomicidal agent hycanthone was tested for mutagenicity in Drosophila melanogaster. The compound was administered either by injection into adult males or by larval feeding. The following types of genetic damage were measured:(1) complete and mosaic sex-linked recessive lethal mutations; (2) II–III translocations; and (3) dominant lethals.In postmeiotic germ cells, especially in late spermatids, a pronounced increase was found in the frequency of sex-linked recessive lethals, both completes and mosaics. By contrast, translocations and dominant lethals were not induced.     

Radiosensitivity of Drosophila lines. VII. The effect of the maternal genotype on the yield of recessive and dominant lethal mutations induced by the gamma irradiation of males

The effect of material repair on induction of paternal mutations was tested with radiosensitive rad(2)201G1 mutant. Basc males were irradiated at doses from 0 to 60 Gy of gamma-rays and mated to the radiosensitive mutant or control females. Frequencies of sex-linked recessive lethals and dominant lethals (induced in the paternal genome) were determined. With control females, the rate of recessive lethals increased linearly from 0 to 60 Gy. With rad(2)201G1 mutant, an increase in spontaneous and induced rates of paternal dominant lethals was observed; the rate of sex-linked recessive lethals increased non-linearly from 0 to 60 Gy.     

Increment kinetics of recessive lethal mutations and dominant lethals in offspring of Drosophila melanogaster on storage of methyl-methanesulfonate-treated sperm in females

The frequencies of sex-linked recessive lethal mutations in F1 males after feeding adult male Drosophila melanogaster with 0.25 and 0.5 mM methyl methanesulfonate (MMS) orally for 24 h increased approximately linearly with storage of the treated spermatozoa in females, whereas the number of hits of dominant lethals in the sperm after feeding 0.3 and 0.5 mM MMS increased approximately with the square of the storage time. Chromosome losses and mosaics in F1 males also increased with the dose of MMS to males, but their yields were too low to be analyzed quantitatively, only indicating a slight increase of chromosome loses and a slight decrease of mosaics with the time of storage of sperm. Maternal non-disjunctions (or chromosome losses), detected in F1 males, decreased with the dose of MMS to spermatozoa and their yield decreased with the time of storage of sperm of both MMS-treated and the control groups. A unitary model is proposed to explain the effect of storage on the dominant lethals and recessive lethal mutations.     

Studies on mutagen-sensitive strains of Drosophila melanogaster. V. Biochemical characterization of a strain (ebony) that is UV- and X-ray sensitive and deficient in photorepair

We investigated larval sensitivity to UV and repair of UV- and X-ray-induced lesions in the DNA of the ebony strain compared to a wild-type strain (Canton S). The ebony strain was previously characterized as being more sensitive to UV-induced killing of embryos than Canton S. Also the ebony strain is more sensitive to X-rays for induction of larval killing, dominant lethals and recessive lethals. In this paper it is demonstrated that (1) ebony larvae are more sensitive to killing by UV and less proficient in photoreactivation (PR) ability than Canton S larvae; (2) the ebony strain has a defect in PR repair of endonuclease-sensitive sites induced in the DNA of primary cell cultures by UV irradiation; (3) the ebony strain has a defect in the repair of single-strand breaks induced in the DNA by X-rays (again in primary cell cultures), at least early on in the repair incubation. A rough localization of the UV sensitivity and the PR ability is presented and the possible relevance of the biochemical to the genetic results is discussed.     

Studies on mutagen-sensitive strains of Drosophila melanogaster. II. Detection of qualitative differences between genetic damage induced by X-irradiation of mature spermatozoa in oxygenated and anoxic atmospheres through the use of the repair-deficient mutant mei-9a

Muller-5 males were irradiated with X-rays in nitrogen, in air or in oxygen (followed by nitrogen or oxygen post-treatments in the nitrogen and oxygen series) and were mated to females of a repair-proficient strain (mei+) or to those of a strain known to be deficient in excision repair of UV damage (in somatic cells). The latter strain, designated as mei-9a, is also known to be sensitive, in the larval stages, to the killing effects of UV, X-rays and to a number of chemical mutagens. The frequencies of sex-linked recessive lethals and autosomal translocations induced in the spermatozoa of males were determined and compared. The frequencies of sex-linked recessive lethals in the mei-9 control groups were consistently higher than in the mei+ groups. Irradiation in air or in nitrogen led to significantly higher yields of recessive lethals when the irradiated males were mated to mei-9 females, whereas, after irradiation in oxygen, the yields were similar with both kinds of female. No significant differences in the frequencies of reciprocal translocations were observed between the mei+ and mei-9 groups after irradiation of the males in nitrogen, in air or in oxygen. Likewise, no differential effects of the contrasting post-treatments (nitrogen versus oxygen), either for recessive lethals or for translocations, could be discerned. These results are considered to support the notion that the kinds of genetic damage induced in mature spermatozoa in air or in nitrogen are qualitatively similar (at least with respect to the component(s) that lead to the production of recessive lethal mutations), but clearly different when induced in an oxygen atmosphere. The enhanced yields of recessive lethals with mei-9 females (after irradiation of the males either in air or in nitrogen) has been interpreted on the assumption that the mei-9 mutant is also deficient for the repair of X-ray-induced, recessive lethal-generating premutational lesions. Possible reasons for the lack of differences between the mei+ and mei-9 groups with respect to translocation yields and for the absence of measurable differences in response between the contrasting post-treatments (after irradiation of the males in nitrogen) are discussed.     

Investigations on radiosensitive and radioresistant populations of Drosophila melanogaster. V. Relations between the relative radioresistance and some recombination properties in the irradiated population ROI

Experiments were conducted to inquire whether the radioressitance observed in an irradiated laboratory population (RÖI) of Drosophila melanogaster might be associated in some way with recombinational processes. Simultaneously, data were collected on the stage distribution of radioresistance in RÖI by studying the induction of dominant lethals and X-chromosome losses in mature females at various exposure levels of X-irradiation (in eggs sampled from subsequent 12-h broods).The data show that (1) the radiation response of both populations (RÖI and its control + K) is equal in the highly sensitive mature stages, (2) RÖI is resistant relative to +K in the medium-sensitive stage-7 and younger oocytes collected on days 1.0 to 5.5 after exposure, and (3) the difference between the populations disappears again when the sensitivity steeply decreases on days 5.5 to 6.5. Similar brood-pattern experiments indicate that exchanges between homologous chromosomes are induced (by temperature shock or X-irradiation) in eggs sampled after day 5.5. Thus it is evident that the relative radioresistance in RÖI is due to mechanisms which operate in the developing oocyte in the stages of a medium radiosensitivity between that phase in which recombination is inducible and stage-14.The observed temporal sequence of recombination and relative radioresistance in RÖI supports the speculation that the latter might be associated with recombination repair. However, the natural recombination frequencies were equal in +K and RÖI. Likewise, no clear evidence was obtained on differences between the two populations with respect to X-ray-induced modifications of homologous exchanges in various para- and pericentric parts of the genome.     

Effects of storing x-rayed spermatozoa on the frequency of translocations and sex-linked lethalsin Drosophila melanogaster

Summary x-rayed adult males ofDrosophila melanogaster were left with untreated females from 2 to 3 days after which the males were discarded. Sex-linked recessive lethals and translocations were scored in progeny produced during the first 2 or 3 days following irradiation, and after storage of the spermatozoa in the females for 6 days.The results obtained show that the frequencies of sex-linked lethals and of translocation involving the two large autosomes and the x-chromosome were unchanged by storage. In experiments in which Y, 2, 3 translocations were scored both the 2–3, and the Y translocations showed a slight increase. These experiments show that the strong storage effect on translocations produced by certain alkylating agents is peculiar to chromosomes treated by these chemicals.Guest investigator at the Institute of Animal Genetics, Edinburgh, on leave from Assuit University Egypt.     

Studies on mutagen-sensitive strains of Drosophila melanogaster VIII. Further data on differences between Canton-S and ebony strains with respect to maternal effects for the X-ray induction of autosomal translocations and ring-X chromosome losses in mature spermatozoa

The influence of the maternal genotype (Canton-S, proficient in the repair of X-ray-induced chromosome breaks and ebony, less proficient in this regard) on the recovery of X-ray-induced autosomal (II–III) translocations and ring-X chromosome losses in mature spermatozoa was studied. In the first series of experiments, males carrying appropriate markers on their second and third chromosomes were irradiated and mated to Canton-S or ebony females and the frequencies of II–III translocations were determined. In the second series of experiments, males carrying ring-X chromosomes were irradiated in N₂ or in O₂, mated to Canton-S or ebony females and the frequencies of XO males were determined; additionally, under similar gas-treatment and radiation conditions, the pattern of egg-mortality was also assessed.

The data on translocations show that the yields are higher with ebony than with Canton-S females; these and earlier results on dominant lethals and sex-linked recessive lethals support the interpretation that the maternal repair system in the ebony strain is less proficient and more error-prone than that of the Canton-S strain.

Those on the losses of ring-X chromosomes demonstrate that (i) the absolute yields of XO males are lower with ebony than with Canton-S females irrespective of whether the parental males are irradiated in N₂ or in O₂; (ii) the exposure-frequency relationships are all linear, but the slopes are higher when the males are irradiated in O₂ and are consistent with an oxygen-enhancement-ratio of about 1.5 and (iii) the relationships between the logarithm of egg-survival and XO male frequency are also linear, but the slopes for the O₂ groups are lower than those for the N₂ groups (slope ratios of 0.86–0.87).

The finding that at given survival levels, the XO frequencies are lower in the O₂ than in the N₂ groups of both the Canton-S and ebony series viewed in the context of the mechanisms that have been postulated to explain the loss of ring-X chromosomes in irradiated mature spermatozoa permits the following interpretation for the observed results: (i) a higher proportion of potential XO zygotes is lost through dominant lethality in the O₂ groups than in the N₂ ones presumably because the chromosome breaks induced in O₂ are qualitatively different in the sense that they have higher probability to undergo reunions relative to restitution, compared with breaks induced under anoxia and (ii) this leads to lower than expected oxygen-enhancement ratios (i.e., expected on the basis of published data on sex-linked recessive lethals, another kind of genetic damage which shows a linear exposure-frequency relationship).     

Evidence of an essential difference between point mutations and chromosome breaks induced by triethylene melamine inDrosophila spermatozoa

Summary Storing of triethylene melamine-treated mature spermatozoa in untreated females was found to result in increased frequencies of both sex-linked recessive lethals and translocations involving the Y, II and III chromosomes. Frequencies of these mutations in effectively unstored spermatozoa were determined from progenies produced using sperm 2–4 days after treatment. The increase in translocation frequencies was on the order of 12-fold in progenies from sperm utilized 11–13 days after treatment when the sperm were stored at 25°C, and 3- to 6-fold when comparable sperm were stored at 12.5°C. Consistent but much smaller increases in frequencies of sex-linked lethals were found, with the increase in lethals tending to be correlated with relative increase in translocation frequency in a given experiment. On the assumption that sex-linked lethals related to chromosome breakage would be expected to increase in frequency in the same proportion as do translocations, approximate agreement was obtained when the proportions of breakage-related lethals among unstored lethals were estimated from the data in the four experimental series. The data are thus consistent with the hypothesis that chromosome breaks but not point mutations are realized during storage of treated spermatozoa. Possible interpretations of a differential effect of storage on treated chromosomes are discussed.Studies carried out while the author was a guest investigator at the Institute of Animal Genetics on sabbatical leave from the University of Minnesota.     

Studies on mutagen-sensitive strains of Drosophila melanogaster. IV. Modification of genetic damage induced by X-irradiation of spermatozoa and spermatids in N2 or O2 by mei-9a, mei-41D5 and mus(1)101D1

The influence of defects in DNA repair processes on X-ray-induced genetic damage in post-meiotic male germ cell stages of Drosophila melanogaster was studied using the 'maternal effects approach'. Basc males were irradiated in N2, air or O2 either as 48-h-old pupae (to sample spermatids) or as 3-4-day-old adults (to sample mature spermatozoa) and mated to females of 3 repair-deficient strains (mei-9a: excision-repair-deficient; mei-41D5: post-replication-repair-deficient; mus(1)101D1: post-replication-repair-deficient and impaired in DNA synthesis). Simultaneous controls involving mating of males to repair-proficient females (mei+) were run. The frequencies of sex-linked recessive lethals and of autosomal translocations were determined following standard genetic procedures. The responses elicited in the different crosses with repair-deficient females were compared with those in mei+ crosses. The main findings are the following: with mei-9 females, the frequencies of recessive lethals are higher after irradiation of spermatids in N2, but not after irradiation in air of O2 (relative to those in the mei+ crosses); this result is different from that obtained in earlier work with spermatozoa, in which cell stage, higher yields of recessive lethals were obtained after irradiation of males in either N2 or air; in the mei-9 crosses, there are no significant differences in response (relative to mei+) after irradiation of either spermatozoa or spermatids in O2; the translocation frequencies in the mei-9 crosses are similar to those in the mei+ crosses, irrespective of the treated germ cell stage or the irradiation atmosphere; irradiation of either spermatozoa or spermatids in N2, air or O2 does not result in any differential recovery of recessive lethals in the mei-41 relative to mei+ crosses; irradiation of spermatids in N2 and of spermatozoa in air leads to a higher recovery of translocations in the mei-41 crosses; and after irradiation of spermatids or spermatozoa in any of the gaseous atmospheres, the frequencies of recessive lethals and of translocations are lower in the mus-101 crosses. The differences in responses (between cell stages, in different gaseous atmospheres and with different repair-deficient females) are explained on the basis of both qualitative and quantitative differences in the composition of the initial lesions and the extent to which their repair may be affected by the defects present in the different repair-deficient females. Several discrepancies between expectations based on biochemical results and the genetic results are pointed out.(ABSTRACT TRUNCATED AT 400 WORDS)     

The cytogenetics of mutator gene-induced X-linked lethals in Drosophila melanogaster

A third chromosome mutator gene effectively increases the spontaneous frequency of sex-linked recessive lethals in females but not in females of Drosophila melanogaster. Approximately half the mutator-induced mutants occur as clusters of the same mutant implying a premeiotic origin. An appreciable number of the mutator-induced lethals are associated with comparatively long deficiencies of several salivary gland chromosome bands. The possible modes of mutator gene action are conjectured.     

Mutagenicity of hycanthone in drosophila: Additional results and a comparison with some analogs

The data reported in this paper extend earlier results on the effects of hycanthone in Drosophila. The main findings are the following. (1) A refined brood-pattern analysis of hycanthone-induced sex-linked recessive lethals confirmed the specific sensitivity of mid- and late spermatids. Injection of young males (0–20 h old) did not cause a shift in the brood pattern, but tended to produce higher rates of recessive lethals than injection of 4-day-old males, although the difference was not significant. (2) An autosomal recessive lethal test (chromosome 2) similarly showed a low sensitivity of premeiotic stages. (3) Feeding of hycanthone was much less effective than injection. This difference was not observed for the methyl analog lucanthone. From the observation that hycanthone- and lucanthone-induced mutations exhibited different germ-cell-stage sensitivity patterns, it was concluded that lucanthone does not (at least not exclusively) act via metabolic activation to hycanthone. (4) After injection, the hycanthone analogs IA-4-N-oxide and IA-4-N-oxide were marginally mutagenic. (5) It was shown previously that hycanthone was ineffective in producing breakage events, in Drosophila. In this report, hycanthone is shown to be weakly active in inducing ring-X chromosome loss. This emphasizes the relat ive sensitivity of the ring-X-loss test, in comaprison with the tests that etect translocations or dominant lethals.     

Investigations on radiosensitive and radioresistant populations of Drosophila melanogaster: XI. The resistance factor rar-3: effects in inmature oocytes

The effects of the radioresistance factor rar-3 on the X-ray induction of various types of genetic damage in immature oocytes (about stage7) of Drosophila melanogaster were studied.

The dose-reduction factors previously postulated for rar-3 with respect to dominant lethals (1.58), sex-linked recessive lethals (1.87), non-disjunction of major chromosomes (1.58), and homologous interchanges (1.58)_were confirmed experimentally. It is concluded that all effects attributed arbitrarily to rar-3 are contributed by the single genetic factor rar-3.

No difference were found in quality of sex-linked recessive lethals (Y suppression, distribution over the X) induced in either rar-3 or rar-3⁺. Recombination frequencies were normal in unirradiated rar-3.