Analyses of spontaneous pink mutant events in the stamen hairs of Tradescantia clone BNL 4430 cultivated in a nutrient solution circulating growth chamber

In order to obtain more fundamental data on Tradescantia clone BNL 4430, one of the most suitable testers for environmental mutagens, the occurrences of spontaneous somatic pink mutations in the stamen hairs were scored for 52 weeks from 12 December 1998 to 10 December 1999, cultivating the young inflorescence-bearing shoots with roots in a nutrient solution circulating (NSC) growth chamber. The environmental conditions in the chamber were 22.0±0.5°C during the 16 h day with the light intensity of 7.5 klx from white fluorescent tubes, and 20.0±0.5°C at night. During the scoring period, 697,443 stamen hairs with an average cell number of 25.36 were observed and 2642 pink mutant events (PMEs) were detected. The overall spontaneous mutation frequency was 1.56±0.03 PMEs per 10⁴ hair-cell divisions, and the frequency was significantly lower in May, July and August and significantly higher in November and December. By analyzing the sectoring patterns of 1856 PMEs (70.25% of PMEs detected), the most of 172 cases of multiple (two to five) pink sectors observed in the same hairs (scored as 232 PMEs for calculating mutation frequency) were found to be the results of events involving somatic recombinations occurred in single cells or cell lineages, rather than those of two or more independent somatic mutations occurred in different cells. This finding clearly shows the significance of somatic recombinations in producing such multiple sectors (382 sectors in total) which occupied 19.0% of the 2006 pink sectors in total analyzed. Somatic recombinations were considered to be playing a significant role also in producing single PMEs in the stamen hairs.     

Recombinagenicity of caffeine for Candida albicans

Caffeine at concentrations of 0.5 × 10^–2 M or higher inhibited cell replication and induced gene segregations in Candida albicans cultured on defined complete medium. Both responses increased incrementally with increasing caffeine concentrations, and were more severe during incubation at 37 °C than 25 °C; at 37 °C, caffeine levels above 1.5 × 10^–2 M caused cellular inactivation. Caffeine effects occurred only under conditions permitting cell growth, and their magnitudes were greater for unbudded than budding cells, were influenced by cellular genetic backgrounds, and were unaffected by the presence of adenine in the medium. Evaluations of segregations for recessive auxotrophic markers of a four member linkage group carried heterozygously in a cis arrangement in treated cells established that induced segregants arise through either reciprocal or nonreciprocal recombinations. The frequency distributions of classes of reciprocal and nonreciprocal recombinants for these markers conformed with those previously obtained following induction by ultraviolet radiation, indicating that the probabilities of recombinational events within the chromosomal regions defined by the markers are not biased by the differences in kinds of initial DNA lesions caused by the two recombinagens. A panel of four protoplast fusion hybrids considered deficient for DNA repair because of enhanced susceptibilities to UV induced cellular inactivation and mitotic recombination exhibited corresponding increased sensitivities to caffeine, signifying that DNA damage induced by caffeine is subject to repair. Caffeine did not affect behavior of a variant strain exhibiting high frequency phenotypic switching between minute smooth and large rough colonial forms, and no evidence for mutagenicity of the drug was obtained with systems for detection of forward or reverse mutations. The mechanism of caffeine's recombinagenicity, and the implications of that property for genetic studies of C. albicans are discussed.     

Mutagenic activities of aflatoxin B 1 and G 1 in Neurospora crassa

Summary The mutagenicity and mutagenic specificity of aflatoxin B₁ and G₁ were studied with the adenine-3 (ad-3) test system of Neurospora crassa. Aflatoxin B₁ and G₁ failed to show mutagenicity in resting conidia, but both agents were mutagenic in growing vegetative cultures. The frequencies of ad-3 mutants induced by aflatoxin B₁ and G₁ (40g/ml) were 70.7x10^-6 survivors and 9.6x10^-6 survivors, respectively. Since aflatoxin B₁ gave a 177-fold increase over the spontaneous mutation frequency it is a rather potent mutagen, whereas aflatoxin G₁ gave only a 24-fold increase and so is only moderately mutagenic.Genetic analyses of ad-3 mutants induced by aflatoxin B₁ and G₁ indicate that both agents induce a low frequency of multilocus deletions. The spectra of point mutations at the ad-3A and ad-3B loci induced by aflatoxin B₁ and G₁ are not distinguishable from each other. Hence both agents probably induce the same relative frequencies of genetic alterations. The frequencies of leakiness, allelic complementation, and classes of complementation patterns among the ad-3 mutants induced by both agents are higher than the frequencies among ICR-170-induced mutants and somewhat lower than those among NA- and AP-induced mutants. The results of reversion tests with NA, MNNG, and ICR-170 indicate that in addition to multilocus deletion, aflatoxin B₁-induced ad-3 mutants consist of frameshifts, base-pair transitions, and possibly other types of intragenic alterations.     

Dominance and non-complementation among pink-adenineless mutants of Schizophyllum commune involving two discrete genes

Summary In Schizophyllum commune, adenineless mutations conferring pink color fell into two loosely linked loci, ad-4 and ad-7. The mutations were tested for dominance and complementation in dikaryons, and several of the ad-7 mutations were found to be partly dominant over their wild allele and noncomplementary with mutations of the ad-4 locus. The dominance and at least one case of intergenic noncomplementation were verified by quantitative tests.This research was partly supported by the U.S. Department of Agriculture Grant No. A10-CR-66.     

The nature of spontaneous mutations during vegetative growth in Schizosaccharomyc pombe

Summary Fifty five purple spontaneous mutants of the haploid fission yeast Schizosaccharomyces pombe have been isolated and distributed, by genetic analyses, between two loci (ad-6 and ad-7) which control two independent steps in the purine biosynthesis.The molecular nature of these mutants has been determined by both their physiological behaviour (leakiness, temperature-sensitivity, pH-sensitivity) and their interallelic complementation ability.It is concluded that during the mitotic cycle the large majority of spontaneous mutations are base-pair substitutions.Publication n. 6 from the Laboratorio di Mutagenesi e Differenziamento del Consiglio Nazionale delle Ricerche (C.N.R.), Pisa, Italy.     

A fine structure map of spontaneous and induced mutations in the lambda repressor gene, including insertions of IS elements

Summary Mutations at over 70 sites in the cI gene have been mapped by 4-factor crosses and assigned precise or approximate positions in the DNA sequence. 16 of 25 spontaneous mutations were insertions of IS1, IS3 or IS5 into AT-rich regions of cI. The 5-methylcytosine in the sequence Cm⁵CAGG is a hot spot for spontaneous cI amber mutations. Recombination frequencies between mutations were proportional to distance with the exception of amber mutations at 4 sites, including the host spot for spontaneous mutations. Mutations with a given phenotype are clustered on the genetic map. No missense mutations affecting repressor activity were found in the central one-third of cI, but 5 of 6 ind ^- mutations were located in this region. The aminoterminal third of the gene contains the sites of most trans-dominant cI^- mutations, and of all ts mutations that result in repressors that are reversibly inactivated at high temperatures.     

Mutation tests in Neurospora crassa: A report of the U.S. environmental protection agency gene-tox program

Many mutation tests have been developed in Neurospora crassa during the almost 40 years of its use in mutation research. These tests detect two major classes of mutation: gene mutation and meiotic nondisjunction. Within the first class, forward- and reverse-mutation tests have been used. The forward-mutation tests include those that detect mutations at many loci and at specific loci. Both kinds of forward-mutation tests have been done in homokaryons (n) and heterokaryons (n + n′). From the publications that were not rejected by our pre-established criteria, data were extracted for 166 chemicals that had been tested for mutagenicity. Only 6 of the 166 chemicals have been tested in one or more gene mutation test and the meiotic nondisjunction test; these 6 chemicals were positive in the first and negative in the second. Of the 102 chemicals tested in one or more gene mutation tests, 94 were positive and 8 were negative. Of the 70 chemicals tested in the meiotic nondisjunction test, 7 were positive and 63 were negative.Two tests, the ad-3) forward-mutation test and the meiotic nondisjunction test, have been used most frequently. These two tests are especially important for hazard evaluation, because each detects a class of mutations that is likely to be deleterious or lethal in the F₁ - disomics by the meiotic nondisjunction test and multilocus deletions by the ad-3 forward-mutation test in heterokaryons. Generally, direct-acting chemicals are mutagenic in the gene mutation tests, but few chemicals that required metabolic activation have been tested. Only 31 of the 166 chemicals tested in N. crassa have been tested for carcinogenicity. Among these chemicals, there is a good association between mutagenicity in gene mutation tests and carcinogenicity but a poorer association between meiotic nondisjunction and carcinogenicity; however, only a small number of chemicals has been tested in the meiotic nondisjunction test. Further use and development of certain mutation tests in N. crassa are desirable.     

Differential effect of UV irradiation on induction of intragenic and intergenic recombination during commitment to meiosis in Saccharomyces cerevisiae

A comparison was made between the induction of intragenic and intergenic recombinations during meiosis in a wild-type diploid of Saccharomyces cerevisiae. Under non-irradiated normal conditions, production of both intragenic and intergenic recombinants greatly increased in the cells with commitment to meiosis. The susceptibility of cells to the induction of both the spontaneous intra- and intergenic recombinations in meiotic cells was similar. However, under condition of UV irradiation, there were striking differences between intra- and intergenic recombinations. Susceptibility to induction of intragenic recombination by UV irradiation was not enhanced at meiosis compared with mitosis, and was not altered through commitment to meiotic processes. In contrast, however, susceptibility to the induction of intergenic recombination by UV irradiation was enhanced markedly during commitment to meiosis compared with mitosis. Genetic analysis suggested that the enhanced susceptibility to recombination during meiosis is specifically concerned with reciprocal-type recombination (crossing-over) but not non-reciprocal-type recombination (gene conversion). Hence it is concluded that the meiotic process appears to be intimately concerned with the mechanism(s) of induction of recombination, especially reciprocal-type recombination.     

Inhibition of repair of UV-damaged DNA by caffeine and mutation induction in Chinese hamster cells

The effect of caffeine on UV-irradiated Chinese hamster cells in vitro was studied on the cellular and molecular levels. Caffeine (1 mM) was shown to decrease the colony-forming ability and the frequencies of spontaneous and UV-induced mutations in Chinese hamster cells. The effect of caffeine in reducing the frequency of UV-induced mutations was demonstrated only if caffeine was present in the culture medium during the first post-irradiation cell division. Using alkaline sucrose gradient centrifugation, both parental and newly synthesized DNA in UV-irradiated and unirradiated cells were studied in the presence and absence of caffeine. Caffeine affected the sedimentation profile of DNA synthesized in UV-irradiated cells but not in unirradiated cells. Caffeine had no apparent effect on the incorporation of [³H]-thymidine into DNA of control or UV-irradiated cells, nor on the small amount of excision of UV-induced pyrimidine dimers. These results may be interpreted by a hypothesis that caffeine inhibits a certain S-phase specific, post-replication, dark-repair mechanism. The hamster and perhaps other rodent cells exposed to low doses of UV are capable of DNA replication, by-passing the non-excised pyrimidine dimers. This postulated repair process probably involves de novo DNA synthesis to seal the gaps in the nascent strand. This repair may be also responsible for the enzymatic production of mutations.     

Relative susceptibilities of caffeine-sensitive and caffeine-resistant strains of Candida albicans to inactivation and mutation by ultraviolet radiation

Summary Stable variants having increased resistance to growth inhibition by caffeine were obtained from four different absolute, amino acid auxotrophs of Candida albicans. Differences in growth rates and expression of auxotrophy between the resistant (Caf^R) variants and their sensitive (Caf^S) progenitors suggest that caffeine resistance arises through suppressor mutations which affect the fidelity of messenger RNA translation.Both Caf^S and Caf^R strains of C. albicans are more susceptible to inactivation by ultraviolet radiation (uv) when grown at 37°C rather than 25°C following exposure. Post irradiation growth on caffeine potentiates ultraviolet inactivation of all Caf^S strains at both temperatures. Depending on its origin, a Caf^R strain (i) may show greater, lesser or the same intrinsic susceptibility to uv inactivation as its Caf^S parent at 25°C or at 37°C and (ii) may or may not be refractory to post-irradiation contact with caffeine. Caf^R variants independently isolated from a given auxotroph are alike in inactivational responses whereas those obtained from different auxotrophs are dissimilar. This implies that different suppressor mutations are unique in the way they affect expression of potentially lethal uv damage and that only one kind of suppressor is obtained by selection for caffeine resistance in a particular auxotroph.The histidine requiring Caf^R strain WB-2CR is much more resistant to uv inactivation that its Caf^S parent WB-2. Moreover, post-irradiation survival of WB-2CR is unaffected by caffeine. However, WB-2CR and WB-2 are equally susceptible to uv-induced reversion to prototrophy. In both strains, caffeine does not enhance uv-induced reversion at 25°C or 37°C and exhibits an antimutagenic activity at high uv dosage at 37°C.The findings reinforce previously reported indications that, in C. albicans, (i) caffeine-sensitive excision-repair of uv damaged DNA does not occur and (ii) caffeine potentiates uv cellular inactivation by disturbing post-irradiation synthesis of protein essential for recovery from non-genetic damage.     

Evidence for human meiotic recombination interference obtained through construction of a short tandem repeat-polymorphism linkage map of chromosome 19

An improved linkage map for human chromosome 19 containing 35 short tandem repeat polymorphisms (STRPs) and one VNTR (D19S20) was constructed. The map included 12 new (GATA)_n tetranucleotide STRPs. Although total lengths of the male (114 cM) and female (128 cM) maps were similar, at both ends of the chromosome male recombination exceeded female recombination, while in the interior portion of the map female recombination was in excess. Cosmid clones containing the STRP sequences were identified and were positioned along the chromosome by fluorescent in situ hybridization. Four rounds of careful checking and removal of genotyping errors allowed biologically relevant conclusions to be made concerning the numbers and distributions of recombination events on chromosome 19. The average numbers of recombinations per chromosome matched closely the lengths of the genetic maps computed by using the program CRIMAP. Significant numbers of chromosomes with zero, one, two, or three recombinations were detected as products of both female and male meioses. On the basis of the total number of observed pairs of recombination events in which only a single informative marker was situated between the two recombinations, a maximal estimate for the rate of meiotic STRP “gene” conversion without recombination was calculated as 3 × 10⁻⁴/meiosis. For distances up to 30 cM between recombinations, many fewer chromosomes which had undergone exactly two recombinations were observed than were expected on the basis of the assumption of independent recombination locations. This strong new evidence for human meiotic interference will help to improve the accuracy of interpretation of clinical DNA test results involving polymorphisms flanking a genetic abnormality.     

Functional abnormalities in iPSC‐derived cardiomyocytes generated from CPVT1 and CPVT2 patients carrying ryanodine or calsequestrin mutations

Catecholaminergic polymorphic ventricular tachycardia (CPVT) is an inherited arrhythmia characterized by syncope and sudden death occurring during exercise or acute emotion. CPVT is caused by abnormal intracellular Ca²⁺ handling resulting from mutations in the RyR2 or CASQ2 genes. Because CASQ2 and RyR2 are involved in different aspects of the excitation‐contraction coupling process, we hypothesized that these mutations are associated with different functional and intracellular Ca²⁺ abnormalities. To test the hypothesis we generated induced Pluripotent Stem Cell‐derived cardiomyocytes (iPSC‐CM) from CPVT1 and CPVT2 patients carrying the RyR2^R420Q and CASQ2^D307H mutations, respectively, and investigated in CPVT1 and CPVT2 iPSC‐CM (compared to control): (i) The ultrastructural features; (ii) the effects of isoproterenol, caffeine and ryanodine on the [Ca²⁺]_i transient characteristics. Our major findings were: (i) Ultrastructurally, CASQ2 and RyR2 mutated cardiomyocytes were less developed than control cardiomyocytes. (ii) While in control iPSC‐CM isoproterenol caused positive inotropic and lusitropic effects, in the mutated cardiomyocytes isoproterenol was either ineffective, caused arrhythmias, or markedly increased diastolic [Ca²⁺]_i. Importantly, positive inotropic and lusitropic effects were not induced in mutated cardiomyocytes. (iii) The effects of caffeine and ryanodine in mutated cardiomyocytes differed from control cardiomyocytes. Our results show that iPSC‐CM are useful for investigating the similarities/differences in the pathophysiological consequences of RyR2 versus CASQ2 mutations underlying CPVT1 and CPVT2 syndromes.     

Genetic effects of N-methyl-N''-nitro-N-nitrosoguanidine in Neurospora crassa

Summary The mutagenicity of N-methyl-N-nitro-N-nitrosoguanidine (MNNG) was studied with a genetically marked, balanced heterokaryon of Neurospora crassa. Types of genetic alterations detectable in this system are (a) point mutations in the ad-3 A and ad-3 B loci, (b) multilocus (chromosome) deletions in the ad-3 region, and (c) recessive lethal mutations in the whole genome. Study of the inactivation kinetics of the heterokaryotic and homokaryotic conidial fractions makes it possible to distinguish between nuclear and cytoplasmic inactivation.Forward mutations in the ad-3 region induced by MNNG in the heterokaryotic fraction of conidia were obtained by a direct method, with the following results: (1) forward-mutation frequency increases as the square of the time of treatment, (2) MNNG is an extremely efficient mutagen, e. g., the frequency of mutation in the ad-3 region (2 loci) was 0.14% after 240 min treatment with 25 M MNNG at pH 7.0 with 73.4% survival, (3) at least 98.1% of the MNNG-induced ad-3 mutants are point mutations, (4) tests for genotype and allelic complementation showed that (a) the frequency of genotypes was ad-3 A=19.7%, ad-3 B=80.3% and ad-3 A ad-3 B=0.0%, and (b) 81.8% of the ad-3 B mutants have allelic complementation with 79.9% nonpolarized and 1.9% polarized complementation patterns and 18.2% noncomplementing mutants, and (5) the ration between mutations in the ad-3 A and ad-3 B loci and spectrum of complementation patterns among the ad-3 B mutants was independent of dose. Comparison of the spectrum of the complementation patterns among ad-3 B mutants induced by MNNG with the spectrum among ad-3 B mutants induced by 2-aminopurine, nitrous acid, hydroxylamine, and the acridine mustard derivative ICR-170 suggests that the majority of the MNNG-induced mutants have guanine-cytosine at the mutant site.Abbreviations used in this paper GC guanine-cytosine - MNNG N-methyl-N-nitro-N-nitrosoguanidine - HA hydroxylamine - AT adenine-thymine - MMS methyl methanesulfonate - 2AP 2-aminopurine - ICR-170 acridine mustard derivative-(2-methoxy-6-chloro-9-[(ethyl-2-chloroethyl) amino propylamino] acridine dihydrochloride) - NA nitrous acid Research sponsored by the U.S. Atomic Energy Commission under contract with the Union Carbide Corporation.     

Abnormal Condensation of Meiotic Chromosomes Caused by the mei8 Mutation in Rye Secale cereale L.

Inheritance of two spontaneous meiosis-specific mutations with similar cytologic phenotype was studied. Both mutations were independently obtained from two rye populations (Vyatka variety and weedy rye). Both mutations are recessive, allelic, and monogenically inherited; the corresponding gene is designated mei8. The mutant alleles of the gene cause abnormal meiotic chromosome structure expressed as irregular compaction along the chromosome length, chromatin stickiness at all stages of meiosis, and chromosome fragmentation in anaphase I.     

A new genetic element affecting somaticmnd recombination inSchizophyllum commune

Several spontaneous variants ofSchizophyllum commune, recovered both from unstable diploids and from meiotic progeny, have been found to prevent the conventional pattern of internuclear transfer of the recessive morphological markermnd. These variants, designatedmnd mob, still express the mound phenotype of unregulated hyperplasia in monokaryons and a modified mound phenotype in dikaryons homoallelic formnd. The high incidence ofmnd mob variants (ca. 2.5%) occurring among meiotic progeny of the crossmnd mob⁺ × mnd⁺ mob⁺, together with the failure to obtainmnd⁺ mob recombinants from crosses betweenmnd mob andmnd⁺ mob⁺, suggests some origin other than point mutation as the basis for generatingmnd mob variants. It is proposed thatmob⁺ is a transposable element closely linked to or withinmnd and that this element might be responsible for the internuclear transfer of themnd locus suggested to occur in the somaticmnd recombinations reported previously in [mnd + mnd⁺] dikaryons.     

The enhancement of the mutagenic effect of ultraviolet radiation inEscherichia coli by caffeine and acriflavine

The mutational synergism of caffeine and acriflavine was studied in five types ofEscherichia coli mutants induced by u. v.-radiation. The following types of mutations were compared: streptomycinrresistance (strain B/r), streptomycin-independence (strain Sd-4), and reversions to prototrophy (strains WP-14 pro⁻, WP-2 try⁻, and WP-2 try⁻ hcr⁻). In all hcr⁺ strains tested the presence of caffeine or acriflavine in a post-irradiation plate medium slightly decreases the survival of u.v.-irradiated cells and increases considerably the frequency of induced mutations. The mutational synergism of caffeine and acriflavine in the str-r and str-i mutants is observed only within the range of low doses. The abovementioned dose-dependence of the synergistic effect is discussed from the point of view of qualitative difference between the premutational damage caused by low and high doses. The post-irradiation treatment by caffeine slightly increases the frequency of induced prototrophs also in the WP-2 hcr⁻ strain. This finding is explained by the inhibition of the residual HCR-activity of the strain. The post-irradiation mutational synergism of acriflavine was not found in the WP-2 hcr⁻ strain.     

Absence of insertions among spontaneous mutants of Salmonella typhimurium

Summary While insertion sequences (IS) in Escherichia coli transpose frequently to generate spontaneous insertion mutants, such mutations are rare in Salmonella typhimurium: the only documented insertion mutation is a hisD mutation caused by the Salmonella-specific IS element IS200. To obtain more examples of IS200 insertion mutations and to seek additional types of IS elements in Salmonella, we selected and characterized 422 independent, spontaneous His^– mutants and some 2100 additional mutants that are not necessarily independent. None of the mutants showed the absolute polar effect characteristic of insertion mutations or the reversion properties characteristic of insertions (low spontaneous reversion frequency and no reversion induction by chemical mutagens). A few mutants, showing a high spontaneous reversion frequency, were screened physically. No insertion mutations were found. Thus insertion mutations appear to be rare in S. typhimurium, in strong contrast to E. coli and despite the possession in Salmonella of at least one type of insertion element (IS200). These results suggest that in Salmonella transposition of the endogenous elements has been controlled. The transposition ability of the elements may have been reduced or favored target sites removed from the host genome.     

Antimutagenic effects of caffeine during nitrosoguanidine-induced mutagenesis ofSalmonella typhimurium cells and phages

The effect of caffeine on nitrosoguanidine-induced mutagenesis ofSalmonella typhimurium & nd its P22 and L phages was studied. The detected mutations included phage “clear” mutations, reversions of phage “amber” mutation, and prototrophic reversions of thehis ⁻ auxotroph ofSalmonella typhimurium. Neither therecA mutation of the host nor theerf mutation of the phage genome were found to affect the nitrosoguanidine-induced mutagenesis of the phage during vegetative growth. Beginning with a concentration of 0.2 mg/ml, caffeine decreased the frequency of mutants by 30–60%, attaining a maximum effect at 1.5 mg/ml and retaining this effect even at higher concentrations. A similar antimutagenic effeot was observed with the mutagenesis of the host cells. The nitrosoguanidine-induced mutagenesis does not seem to be related to the function of therecA cell gene or theerf phage gene. The mechanism of mutagenesis by nitrosoguanidine probably has two components, one of them caffeine sensitive, the other caffeine-resistant.     

The detection of mitotic and meiotic aneuploidy in yeast using a gene dosage selection system

Summary A system is described in which spontaneous and chemically-induced mitotic and meiotic hyperploidy can be assayed in the same diploid culture of Saccharomyces cerevisiae. Monitoring gene dosage changes at two loci on chromosome VIII, the test utilizes a leaky temperature-sensitive allele arg4-8 and low level copper resistance conferred by the single copy allele cup1 ^s. An extra chromosome VIII provides simultaneous increased dosage for both genes, resulting in colonies that are both prototrophic for arginine at 30° C and copper resistant. During mitotic cell divisions in diploids, spontaneous chromosome VIII hyperploids (trisomes and tetrasomes) occur at a frequency of 6.4×10^-6 per viable cell. Among ascospores, the spontaneous chromosome VIII disome frequency is 5.5×10^-6 per viable spore. The tubulin-binding reagent methyl benzimidazol-2-yl carbamate (MBC) elicits enhanced levels of mitotic and meiotic aneuploidy relative to control levels. The system represents a novel model for examining chromosome behavior during mitosis and meiosis and provides a sensitive and quantifiable procedure for examining chemically induced aneuploidy.     

A Germline Clone Screen for Meiotic Mutants in Drosophila melanogaster

Using a FLP/FRT-based method to create germline clones, we screened Drosophila chromosome arms 2L and 3R for new female meiotic mutants. The screen was designed to recover mutants with severe effects on meiotic exchange and/or segregation. This screen yielded 11 new mutants, including six alleles of previously known meiotic genes (c(2)M and ald/mps1). The remaining five mutants appear to define at least four new genes whose ablation results in severe meiotic defects. Three of the novel meiotic mutants were identified at the molecular level. Two of these, mcm5A7 and tremF9, define roles in meiotic recombination, while a third, conaA12, is important for synaptonemal complex assembly. Surprisingly, five of the nine mutants for which the lesion has been identified at the molecular level are not the result of mutations characteristic of EMS mutagenesis, but rather due to the insertion of the transposable element Doc. This study demonstrates the utility of germline clone-based screens for the discovery of strong meiotic mutants, including mutations in essential genes, and the use of molecular genetic techniques to map the loci.