HETEROKARYOSIS AND PARASEXUALITY IN THE FUNGUS ASCOCHYTA IMPERFECTA

The object of this investigation was to discover whether heterokaryosis and parasexuality occur in the imperfect fungus Ascochyta imperfecta. Both phenomena have been observed. The wild type of A. imperfecta grows on a minimal medium containing only salts plus a carbon source. Auxotrophic and morphological mutants have been isolated after treatment with ultraviolet light. When 2 different mutant auxotrophs are inoculated together onto minimal medium, colonies are consistently formed. These colonies might be due, a priori, to back-mutation, diploidy, syntrophism or heterokaryosis. Back-mutation and diploidy have been eliminated, since no back-mutant nuclei have been isolated from any heterokaryon, and since the frequency of diploid nuclei is very low. The combination is primarily syntrophic (only 2% heterokaryotic hyphal tips) when the nicotinamide mutant is one component. The combination is primarily heterokaryotic (over 50% heterokaryotic hyphal tips) when both components are auxotrophs for amino acids. From the heterokaryotic hyphal tips, the 2 unaltered nuclear components have been isolated. Heterozygous diploid nuclei (4.2 X 10^−-7 per haploid nucleus) can be isolated from heterokaryons by plating, onto minimal medium, the primarily uninucleate conidia from a heterokaryon of 2 auxotrophs. The resulting colonies are isolated as potential diploids. Three properties of these isolates establish their diploid nature: (1) the isolates are wild type for nutrition and morphology; (2) their conidial length is uniformly greater than that of the haploids (1.21 times); (3) the isolates produce segregants with nonparental combinations of the marker genes. The diploid isolates are much more stable than heterokaryons. The recombinants from the diploids are still diploid, since (1) their conidial length falls in the diploid range, and (2) one of the recombinants has segregated a second-order recombinant. Many of the expected classes of recombinants have not been detected.     

米曲霉原生质体的营养互补融合及二倍体的诱发分离*

采用1％溶壁酶加1％蜗牛酶的混合液获得的原生质体,以30％聚乙二醇(MW=6,000)、0.01M CaCl_2、0.05M Gly做为融合剂,对米曲霉进行了原生质体的营养互补融合,融合频率为0.27—0.47％。自4个菌株的4对杂交组合中获得了异核体,并分离到97株绿色融合株。二倍体的孢子经PFA和UV诱发分离后,获得了二株生长速度快、蛋白酶活性高和产孢能力强的单倍体菌株。     

Ultraviolet Light-Induced Heterokaryon Formation and Parasexuality in Cryphonectria parasitica

Rizwana, R., and Powell, W. A. 1995. Ultraviolet light-induced heterokaryon formation and parasexuality in Cryphonectria parasitica. Experimental Mycology 19, 48-60. The effect of ultraviolet-light on heterokaryon formation, vegetative compatibility, and parasexuality in Cryphonectria parasitica was examined. Heterokaryons of complementary auxotrophic strains could not be made by hyphal anastomosis if the strains belonged to different vegetative compatibility groups. Protoplast fusions overcame incompatibility of strains differing in the alleles of a single but not multiple vegetative incompatibility loci. Fusion of protoplasts from ultraviolet light-treated complementary auxotrophs increased heterokaryon formation by 10⁴ to 10⁵ using the strains differing in alleles of a single vegetative incompatibility gene but had no detectable effect on strains differing in multiple vegetative incompatibility genes. Vegetative compatibility tests of single conidial isolates resolved from these heterokaryons suggest that diploids had formed followed by the loss of one of the VIC alleles. Presence of both auxotrophic markers in some of these single conidial isolates confirms the occurrence of a parasexual cycle. These experiments demonstrate that ultraviolet-light can enhance heterokaryon formation and parasexuality in C. parasitica .     

A note on auxotrophic mutants of cowpea rhizobia

We have examined a variety of common mutagens in producing auxotrophic mutants in cowpea rhizobia strains JRC23 and IRC256. While NTG (N-methyl-N-nitro-N-nitrosoguanidine), EMS (ethylmethane sulfonate), NA (nitrous acid), and UV (ultraviolet) irradiation were mutagenic with the strain JRC23, these mutagenic agents did not mutate strain IRC256. On the contrary, transposon mutagenesis with Tn5 yielded auxotrophs in strain IRC256 but not in strain JRC23, while only methionine (Met^–) auxotrophs from strain JRC23, histidine (His^–), and adenine plus thiamine (Ade^–+Thi^–) auxotrophs from strain IRC256 were isolated.     

Characterization of the Heterokaryotic and Vegetative Diploid Phases of MAGNAPORTHE GRISEA

The heterokaryotic and vegetative diploid phases of Magnaporthe grisea, a fungal pathogen of grasses, have been characterized. Prototrophic heterokaryons form when complementary auxotrophs are paired on minimal medium. Hyphal tip cells and conidia (vegetative spores) taken from these heterokaryons are auxotrophs with phenotypes identical to one or the other of the parents. M. grisea heterokaryons thus resemble those of other fungi that have completely septate hyphae with a single nucleus per cell. Heterokaryons have been utilized for complementation and dominance testing of mutations that affect nutritional characteristics of the fungus. Heterokaryons growing on minimal medium spontaneously give rise to fast-growing sectors that have the genetic properties expected of unstable heterozygous diploids. In fast-growing sectors, most hyphal tip cells are unstable prototrophs. The conidia collected from fast-growing sectors include stable and unstable prototrophs, as well as auxotrophs that exhibit a wide range of phenotypes, including many recombinant classes. Genetic linkage in meiosis has been detected between two auxotrophic mutations that recombine in vegetatively growing unstable diploids. The appearance of recombinants suggests that homologous recombination occurs during vegetative growth of M. grisea. No interstrain barriers to heterokaryosis and diploid formation have been detected. The mating type of the strains that are paired does not influence the formation of heterokaryons or diploids.     

Complementation analysis with new genetic markers in Phaffia rhodozyma

Isolation and characterization of auxotrophic mutants from wild-type and astaxanthin mutant strains of Phaffia rhodozyma is described. Differences in survival were observed when u.v. irradiation of P. rhodozyma wild-type and astaxanthin mutant strains were incubated in the dark or exposed to photoreactivating light. Ultra-violet mutagenesis was not effective to produce auxotrophic mutants in this yeast. Auxotrophic mutants were obtained with high efficiency through a nystatin enrichment procedure after a N-methyl-N-nitro-N-nitrosoguanidine (NTG) mutagenic treatment with a 0.12% survivor level. Stringent mutagenetic conditions were needed to obtain P. rhodozyma auxotrophs. The most frequent mutants were ade^- and met^- in a rather narrow auxotroph spectrum. These results may be associated with a possible diploid condition of this yeast. The high number of adenine auxotrophs obtained in relation to other auxotrophic mutants suggests the possibility of some degree of heterozygosity in the wild-type strain UCD 67-385.     

Effects of elevation of strain-ploidy on transmission and recombination of mitochondrial drug resistance genes in Saccharomyces cerevisiae

Summary In order to study the effects of strainploidy on the transmission and recombination of the mitochondrial genes C, E and O conferring the resistance to chloramphenicol, erythromycin and oligomycin, respectively, haploids were crossed to diploids and the results of genetic analysis were compared with those from haploidxhaploid crosses. All haploidx diploid crosses showed an increased transmission of diploid derived alleles, relative to haploid derived ones, but the pattern of increase differed between homosexual and heterosexual crosses. In ^– haploid x ^– diploid homosexual crosses, the increase was of roughly equal magnitude at the C, E and O loci: there was a polar co-transmission of the diploid derived alleles. In ⁺ haploid x ^– diploid heterosexual crosses, on the contrary, a differential increase was observed at the different loci, the magnitude being the smallest at the C locus and the largest at the O locus. As a result, there was a preferential transmission in favor of the haploid derived C alleles and of the diploid derived O alleles. A near equal transmission from both parents was observed for the E alleles. A decrease and an increase in the recombination frequency were noticed in the above haploidxdiploid homosexual and heterosexual crosses, respectively.The above phenomena were ascribed to different dosages of mitochondrial genomes from parents. Experimental data were well accorded with the theoretical expectations which were obtained on the assumptions that diploids contain twice as many mitochondrial genomes as haploids, and that random pairing and recombination would occur among mitochondrial genomes from parents. The elevation of strain-ploidy did not affect the recombination polarity which is under the control of the gene.It was theoretically predicted that a preferential transmission in favor of diploid derived alleles at all the C, E and O loci would be seen in ^– haploid x ⁺ diploid heterosexual crosses as well as in ^+; haploid x ^+; diploid homosexual crosses, but that the magnitude of the polar transmission would vary depending upon the loci in the former crosses, while it would be the same at all the loci in the latter ones. The recombination frequency was predicted to decrease in both of these crosses.     

Isolation and characterization of streptomycin-resistant mutants in Nicotiana plumbaginifolia

Summary Streptomycin-resistant colonies were isolated from protoplast cultures of haploid Nicotiana plumbaginifolia based on their ability to green in medium containing 1 mg/ml streptomycin sulfate. The frequency of resistant colonies was 0.9×10^–5 in nonmutagenized culture, and increased ten-fold following treatment of culture with 10 g/ml N-methyl-N-nitro-N-nitrosoguanidine. Of a total of 52 resistant clones isolated, 2 gave rise to haploid, 15 to diploid, and 3 to tetraploid plants upon transfer of calli to differentiation medium. Leaf-segment and protoplast assays showed that all diploid regenerates were resistant to streptomycin but sensitive to chloramphenicol, kanamycin, lincomycin, neomycin, and spectinomycin. Plants in most diploid clones were fertile and able to set seeds when self-fertilized and crossed reciprocally to wild-type plants. Inheritance of streptomycin resistance was studied in the diploid clones and, without exception, the resistance was transmitted maternally. Comparative studies of the ultrastructure of organelles and protein synthesis in isolated chloroplasts between wild-type and resistant clones in the presence of streptomycin suggest that streptomycin resistance is controlled by chloroplasts.     

Extreme nuclear disproportion and constancy of enzyme activity in a heterokaryon ofNeurospora crassa

Heterokaryons ofNeurospora crassa were generated by transformation of multinucleate conidia of ahistidine-3 auxotroph withhis-3 ⁺ plasmid. In one of the transformants, propagated on a medium with histidine supplementation, a gradual but drastic reduction occurred in the proportion of prototrophic nuclei that contained an ectopically integratedhis-3 ⁺ allele. This response was specific to histidine. The reduction in prototrophic nuclei was confirmed by several criteria: inoculum size test, hyphal tip analysis, genomic Southern analysis, and by visual change in colour of the transformant incorporating genetic colour markers. Construction and analyses of three-component heterokaryons revealed that the change in nuclear ratio resulted from interaction of auxotrophic nucleus with prototrophic nucleus that contained an ectopically integratedhis-3 ⁺ gene, but not with prototrophic nucleus that containedhis-3 ⁺ gene at the normal chromosomal location. The growth rate of heterokaryons and the activity of histidinol dehydrogenase—the protein encoded by thehis-3 ⁺ gene-remained unchanged despite prototrophic nuclei becoming very scarce. The results suggest that not all nuclei in the coenocytic fungal mycelium may be active simultaneously, the rare active nuclei being sufficient to confer the wild-type phenotype.     

Vegetative compatibility and parasexual segregation in Colletotrichum lindemuthianum, a fungal pathogen of the common bean

The heterokaryotic and vegetative diploid phases of Colletotrichum lindemuthianum are described using nutritional and biochemical markers. Nitrate non-utilizing mutants (nit), derived from R2047, R89, R73, R65, and R23 isolates, were paired in all possible combinations to obtain heterokaryons. Although pairings R2047/R89, R2047/R73, R65/R73, and R73/R23 showed complete vegetative incompatibility, prototrophic heterokaryons were obtained from pairings R2047/R65, R2047/R23, R65/R89, R65/R23, R73/R89, R89/R23, R2047/R2047, R65/R65, R89/R89, R73/R73, and R23/R23. Heterokaryons gave rise to spontaneous mitotic segregants which carried markers corresponding to one or the other of the parental strains. Heterokaryons spontaneously produced prototrophic fast-growing sectors too, characterized as diploid segregants. Diploids would be expected to yield auxotrophic segregants following haploidization in basal medium or in the presence of benomyl. Parental haploid segregants were in fact recovered from diploid colonies growing in basal medium and basal medium containing the haploidizing agent. Although barriers to the formation of heterokaryons in some crosses were detected, the results demonstrate the occurrence of parasexuality among vegetative compatible mutants of C. lindemuthianum.     

Developmental regulation of NAD+ kinase in Neurospora crassa

The specific activity of NAD⁺ kinase (ATP:NAD⁺ 2-phosphotransferase, EC 2.7.1.23) from Neurospora crassa shows sharp peaks when the organism enters a new developmental stage of the asexual life cycle: the peaks are observed during hydration and germination of conidia, at the transition from exponential to stationary growth and at the photostimulated conidiation. As stimulation of NAD⁺ kinase activity by light in conidiating mycelium is not sensitive to translation inhibitors, the activiation of pre-existing molecules, rather than induction of protein synthesis de novo may be supposed. Enzyme electrophoresis revealed the presence of four forms of NAD⁺ kinase having different apparent molecular weights (I=333,000; II=306,000; III=229,000 and IV=203,000). Manifestation of the activity of individual forms of NAD⁺ kinase is developmentally controlled: form III is most abundant during vegetative growth, forms I and II prevail in conidia. At the conidial germination the increase of NAD⁺ kinase activity is associated with the activation of form III, whereas during photostimulation of conidiation form II is the most activated one. Therefore, certain molecular forms of the enzyme may be regarded as biochemical markers for different developmental stages of N. crassa.     

Fusion of mitochondria with protoplasts in Saccharomyces cerevisiae.

Summary Protoplasts prepared from a neutral petite haploid BO60AF-1 (a ade2 arg4 leu2 trp C ^O E ^O O ^{O O O}) were mixed with mitochondria isolated from an oligomycin resistant respiring haploid AN^ROR 12D (a his4 leu2 thr4 C ^S E ^S O _II ^{R + +}) and treated with 30% polythylene glycol and CaCl₂. When the treated protoplasts were spread and incubated on selective agar plates, oligomycin resistant respiration-sufficient colonies appeared with low frequency. All of these colonies carried the mitochondrial genotype of C ^S E ^S O _II ^{R + +} and showed the same mating type and nutritional requirements as did BO60AF-1, thus evidencing the mitochondrial transfer into protoplasts. Recombination and transmission of the mitochondrial drug resistance markers were studied in crosses involving the strains issued from mitochondria accepted protoplasts.     

Number of adult female mites Varroa jacobsoni Oud. on hive debris from honey bee colonies artificially infested to monitor mite population increase (Mesostigmata: Varroidae)

Six honey bee colonies hived in Langstroth nuclei were each artificially infested with 100 phoretic Varroa mites. Hive debris on bottom inserts was inspected every 3–4 days. The adult Varroa mites were compared with mounted specimens and catalogued into lightly pigmented and darkly pigmented females. After 4 months, an acaricide treatment was used to estimate the final mite population. Based on light and dark adult counts, we propose a balancing equation that follows the Varroa population increase at 7 day intervals and allows the calculation of experimental population growth rates. The calculated Varroa finite rate of increase is =1.021. Exponential and logistic growth models fitted to the balancing equation data gave R ²=0.986 and R ²=0.991, respectively. To develop a more precise model it would be necessary to follow the population growth beyond our experimental data.     

Effect of auxotrophic starvation on mitochondrial marker transmission in the cdc8 mutant of Saccharomyces cerevisiae

Summary Crosses were made using strains of S. cerevisiae which carried mitochondrial markers conferring resistance to erythromycin and chloramphenicol. The effect of auxotrophic starvation of one parent prior to mating on the transmission of its mitochondrial markers was studied in different crosses relative to the presence of the cdc8 nuclear mutation (a temperature-sensitive DNA replication).In crosses between two cdc8 mutant strains, auxotrophic starvation of one of the haploid parental strains prior to mating caused a marked decrease of its mitochondrial marker transmission to the diploid progeny of the cross. The transmission decreased as a function of the time of starvation. This effect was not observed in the cross between two wild type strains and in crosses of starved cdc8 phenotypic revertants with cdc8 mutant strains. Only a small, if any, effect of starvation on mitochonrial marker transmission was observed when starved cdc8 mutant strains were crossed either with their phenotypic revettants or with the wild-type strains.In one of the haploid parental strains the starvation increased the frequency of petites as a function of starvation time, while in the other this effect was not observed.In the progeny of cdc8xcdc8 crosses (both in starvation experiments and in control crosses) an increased frequency of diploid petite cells accompanied by a decreased frequency of recombination between mitochondrial markers was noticed.The influence of the cdc8 mutation on the transmission of mitochondrial markers is discussed in terms of high frequency of ^– molecule formation in cdc8 strains.     

Preferential recovery of uniparental streptomycin resistant mutants from diploid Chlamydomonas reinhardtii

Summary Analysis of the streptomycin resistant mutants recovered from control and N-methyl-N-nitro-N-nitrosoguanadine (MNNG) treated haploid cultures of C. reinhardtii reveal that approximately 60% of the mutants are of the sr-1 type known to show Mendelian inheritance while 40% are of the sr-2 and sm-3 types known to be inherited in a uniparental (UP) manner. In contrast, most if not all streptomycin mutants recovered from similarly treated diploid cultures of C. reinhardtii are of the UP variety. Failure to recover sr-1 mutants from the diploid stock is explained by our findings that diploids heterozygous for Mendelian streptomycin resistance (sr-1/sr-1 ⁺) are both stable and sensitive to streptomycin. Efficient recovery of UP streptomycin resistant mutants from diploids can be explained by the observations of Gillham (1963a, 1969) which demonstrate that diploids heterozygous for an sr-2 mutation (sr-2/sr-2 ⁺) segregate resistant and sensitive progeny during mitotic cell division.The utility of diploids for isolating new UP mutant genotypes, for establishing the cellular localization of the UP genome(s), and for characterizing the rules governing UP gene segregation is discussed.Supported by NIH postdoctoral fellowship GM 52359 to R.W.L., NIH predoctoral traineeship GM 02007 to K.P.V., and NSF grant GB-22769 to N.W.G. and J.E.B.     

Alternative reproduction pathway inAspergillus nidulans

Recombinant haploid segregants were recovered in filamentous fungus Aspergillus nidulans (Eidam) G. Winter directly from the heterokaryons instead of diploid segregants (process described earlier as parameiosis). In spite of the reproductive complexity of A. nidulans, parameiosis has only now been observed in this fungus. Since parameiosis was characterized by the occurrence of genetic recombination inside heterokaryotic hyphae, master strains (uvs+) and uvs mutants with high rate of both mitotic exchanges or chromosome nondisjunction were used to form heterokaryons. Two groups of mitotic segregants were recovered directly from heterokaryons--aneuploids and stable haploids. Heterokaryons formed with uvs mutants produced a higher number of parameiotic segregants compared to the heterokaryons formed with uvs+ strains. Segregants were analyzed by nutritional markers, acriflavine resistance and conidial color. Normal meiotic behavior of haploid recombinants was observed.     

The Formation, General Characteristics and Production of α-Amylase in Heterocaryons and Diploids of Aspergillus oryzae

S ummary . Heterocaryons and diploids from Aspergillus oryzae were investigated with respect to nuclear number/conidium and to conidial size. Heterocaryons usually had larger conidia and more nuclei/conidium than diploids and the haploid parent mutants. Diploids contained significantly fewer nuclei/conidium than haploids. However, they could not be distinguished from haploids by measurement of conidial size. The strains were examined for the production of α-amylase. All auxotrophic mutants produced less α-amylase than the prototrophic wild type. Heterocaryons gave yields which were intermediate between that of their parent mutants or the same as the best producing parent. Diploids which produced more α-amylase than the best producing parent strain were synthesized. The highest yield from a diploid was of the same order of magnitude as the yield from the wild type.     

Chromosomal loci of genes controlling site-specific restriction endonucleases of Bacillus subtilis

Summary In Saccharomyces cerevisiae, diploid strains which are respiratory deficient (e.g., rho^–) or are homozygous for the mating-type locus (i.e., either a/a or /) are unable to sporulate. In order to induce sporulation in these nonsporulating strains, the technique of protoplast fusion mediated by polyethylene glycol was adopted. In this study, the products of protoplast fusion were induced to sporulate without reversion to normal cells.Protoplasts from a respiratory-deficient diploid strain were mixed with those from a respiratory-competent haploid one carrying mitochondrial drug resistance markers, treated with 30% polyethylene glycol-4000 and 25 mM CaCl₂, and incubated in 0.1 M potassium acetate containing 0.8 M sorbitol as an osmotic stabilizer. After two days' incubation, asci with three to eight spores were formed at a frequency of 1×10^–3 to 2×10^–4. Sporulation was also observed in products of fusion between an a/a diploid and haploid strains and between an / diploid and a haploid strains. The analysis of the genotypes of spores revealed that when fusion products were cultured under conditions for sporulation, karyogamy did not take place, diploid nuclei underwent meiosis, and both diploid and haploid nuclei were able to develop into spores.     

Effects of growth temperatures on plating efficiencies and stabilities of heterokaryons of Candida albicans

Heterokaryons (hets) of Candida albicans constructed by fusing protoplasts of complementing auxotrophs produce heterogeneous clones on minimal medium consisting of (i) a minority of slow-growing hets, (ii) a preponderance of non-growing, parental-type auxotrophic monokaryons, and (iii) some prototrophic monokaryons bearing hybrid nuclei. Hets grown at a given temperature within the range 25° C to 41° C replate with higher efficiencies at any lower temperature and exhibit progressively declining plating efficiencies as plate temperatures increase beyond that at which they were initially grown. Neither auxotrophic nor prototrophic monokaryons show such responses. Growth of colonies produced by hets, wild-type strains or prototrophic hybrid monokaryons is stimulated by temperatures in the order, 37° C > 30° C > 41° C > 25° C. However, the proportion of hets to auxotrophic monokaryons within individual net clones increases directly from 25° C to 41° C. Though this pattern obtains whether colonies are compared at equivalent sizes or ages, het frequencies decline as colonies age at all temperatures. Appearance of hybrid monokaryons within het clones is unaffected by growth temperature. The relationships of temperatures to plating efficiencies and stabilities of hets are independent of the natures of their complementing auxotrophies or the wild-type backgrounds of their nuclear components and are, therefore, functions of heterokaryosis per se. Modifications of these relationships by selective metabolic antagonists or by growth of hets on different preand post-plating carbon sources indicate that they reflect temperature-dependent properties of mitochondria which are peculiar to hets.     

Heterozygous diploid strains of Aspergillus nidulans: Enhanced virulence for mice in comparison to a prototrophic haploid strain

The paper describes quantitative studies of the virulence for DBA/2J mice of three heterozygous diploid strains ofAspergillus nidulans synthesized from avirulent auxotrophic haploid strains, and auxotrophic strains of reduced virulence. These studies demonstrate that the heterozygous diploid strains possess an unusually high virulence for mice in comparison to a haploid prototrophic strain ofA. nidulans employed as a virulence standard.