Induction and Characterization of Artificial Diploids from the Haploid Yeast Torulaspora delbrueckii

The yeast Torulaspora delbrueckii, which propagates as a haploid, was made into a diploid by treatment with dimethyl sulfoxide (DMSO) on the regeneration of protoplasts. The diploid state was stably inherited; the cell volume was three times that of the parent strain and the cellular DNA content was two times that of the parental strain. No essential difference was found between diploids induced by DMSO and those formed through intraspecific protoplast fusion. The diploid strains sporulated fairly well, with their cells converting directly into asci. Random spore analysis revealed that diploids induced through protoplast fusion gave rise to auxotrophic segregants (haploids) with the parental genetic marker or to segregants formed by recombination, while diploids induced by DMSO from a doubly auxotrophic parent gave rise to no recombinant, indicating that it was chromosomally homoallelic in nature. The magnesium level in the protoplast regeneration medium was found to be an important factor for inducing diploid formation. At 0.2 mM magnesium diploids appeared even in the absence of DMSO, while at 2 mM magnesium diploids never appeared unless DMSO was added to the regeneration medium. Evidence is provided that the diploids induced by DMSO or a low magnesium level are due to direct diploidization but not protoplast fusion. UV light irradiation of intact cells (without protoplasts), 10% of which survived, also produced diploids among this surviving population. From these results we conclude that the perturbation of protoplast regeneration or of cell division by the treatments mentioned above somehow induced direct diploidization of T. delbrueckii.     

Parental origin of triploidy in human fetuses: evidence for genomic imprinting

Two distinct phenotypes of triploid fetuses have been previously described and a correlation with parental origin of the triploidy has been suggested. We have studied the parental origin of the extra haploid set of chromosomes in nine triploid fetuses using analysis of DNA polymorphisms at a variety of loci. Maternal origin of the triploidy (digyny) was demonstrated in six fetuses with type II phenotype, paternal origin (diandry) in two cases with type I phenotype, and nonpaternity in one case. The predominance of digynic triploids in our study contrasts with the results reported in previous studies in which, through analysis of cytogenetic polymorphisms, paternal origin was found to account for the majority of triploid conceptuses. This difference may be accounted for by a combination of factors — the different methods of parental assignment used and analysis of a different subset of triploid conceptuses. The correlation between the observed phenotypes and the parental origin of triploidy may represent another example of imprinting in human development.     

Mitochondrial Genetics in a Natural Population of the Plant Pathogen Armillaria

Transmission and propagation of mitochondrial genotypes in fungi have not been previously investigated in the field. This study examined the distribution of nuclear and mitochondrial genotypes in a natural, local population of the fungal (Basidiomycetes) root-rot pathogen, Armillaria. Six vegetative clones, ranging in size up to 635 m, were identified on the basis of mating-type alleles. Mitochondrial DNA (mtDNA) restriction fragment patterns indicated that each vegetative clone has one, unique mtDNA type. However, as in other basidiomycetous fungi, biparental transmission of mitochondria following laboratory matings of sexually compatible haploid isolates of Armillaria resulted in a uniformly diploid mycelium that was a mosaic for both parental mitochondrial types. Therefore, either matings between monosporous, haploid isolates are uncommon in nature, or when mating does occur, cytoplasmic markers of one partner predominate during subsequent vegetative growth.     

Nuclear behaviour of colonies and regenerated buds from protoplasts ofNicotiana plumbaginifolia Viviani haploids

The ploidy level variations of protoplast cultures ofNicotiana plumbaginifolla Viviani (n=10) were investigated from protoplast isolation until regenerated buds, using cytophotometric measurements of nuclear DNA content and chromosome counting. An increase in the average nuclear DNA amount has been found to occur in freshly isolated protoplasts after 15 hours of maceration. Cytological abnormalities like nuclear fragmentation, chromatin connections between interphasic nuclei and micronuclei were observed during the following days. Chromosome counting in 15, 30 and 50-day-old calli and in regenerated buds revealed that nuclei are haploid, diploid or aneuploid.Abbreviations p-cells, p-calli or p-colonies protoplast-derived cells, calli or colonies - BAP 6-benzylaminopurine - NAA 1-naphtaleneacetic acid - 2iP ²-isopentyl-aednine     

酿酒酵母单倍体与双倍体原生质体的融合*

本文报道用酿酒酵母(Saccharomyces cerevisiae)原生质体融合,得到营养互补的融合子为三倍体,其生长速度、发酵速率均较亲株提高1—2倍。部分融合子酒精的产量高于亲株,同时高于目前使用的酒精发酵生产菌株。     

Bidirectional reprogramming of mouse embryonic stem cell/fibroblast hybrid cells is initiated at the heterokaryon stage

Immunofluorescent analysis of markers specific for parental genomes was used to study heterokaryons and hybrid cells soon after the fusion of diploid embryonic stem (ES) cells marked with green fluorescent protein and diploid fibroblasts labeled by blue fluorescent beads. Heterokaryons were identified by an analysis of parental mitochondrial DNAs. Within 20 h after fusion, most heterokaryons (up to 80%) had a fibroblast-like phenotype, being positive for typical fibroblast markers (collagen type I, fibronectin, lamin A/C) and for the modification me3H3K27 chromatin marking the inactive X chromosome but being negative for Oct4 and Nanog. Approximately 20% of heterokaryons had an alternative ES-like phenotype being positive for Oct4 and Nanog, with signs of reactivation of the previously inactive X-chromosome but negative for fibroblast markers. Hybrid cells having alternative phenotypes were easily identified from 24-48 h. The level of DNA methylation at the promoter of the fibroblast Oct4 allele in the ES-like hybrid cells at day 4 was similar to that of ES cells but at the same time, both parental Oct4 alleles were heavily methylated in fibroblast-like hybrid cells. Thus, bidirectional reprogramming initiated at the heterokaryon stage seems to lead to the formation of two types of hybrid cells with alternative dominance of the parental genomes. However, the further fates of two types of hybrid cells are different: ES-like hybrid cells form colonies at 4-6 days but no colonies are derived from the fibroblast-like hybrid cells. The latter grow as disconnected single cells and are unable to form colonies, like mouse embryonic fibroblasts.     

Linkage analysis of sex determination in the honey bee (Apis mellifera)

A colony-level phenotype was used to map the major sex determination locus (designatedX) in the honey bee (Apis mellifera). Individual queen bees (reproductive females) were mated to single drones (fertile males) by instrumental insemination. Haploid drone progeny of an F1 queen were each backcrossed to daughter queens from one of the parental lines. Ninety-eight of the resulting colonies containing backcross progeny were evaluated for the trait ‘low brood-viability’ resulting from the production of diploid drones that were homozygous atX. DNA samples from the haploid drone fathers of these colonies were used individually in polymerase chain reactions (PCR) with 10-base primers. These reactions generated random amplified polymorphic DNA (RAPD) markers that were analyzed for cosegregation with the colony-level phenotype. One RAPD marker allele was shared by 22 of 25 drones that fathered low brood-viability colonies. The RAPD marker fragment was cloned and partially sequenced. Two primers were designed that define a sequence-tagged site (STS) for this locus. The primers amplified DNA marker fragments that cosegregated with the original RAPD marker. In order to more precisely estimate the linkage betweenX and the STS locus, another group of bees consisting of progeny from one of the low-brood viability colonies was used in segregation analysis. Four diploid drones and 181 of their diploid sisters (workers, nonfertile females) were tested for segregation of the RAPD and STS markers. The cosegregating RAPD and STS markers were codominant due to the occurrence of fragment-length alleles. The four diploid drones were homozygous for these markers but only three of the 181 workers were homozygotes (recombinants). Therefore the distance betweenX and the STS locus was estimated at 1.6 cM. An additional linked marker was found that was 6.6 cM from the STS locus.     

酿酒酵母单倍体与双倍体原生质体的融合

本文报道用酿酒酵母(Saccharomyces cerevisiae)原生质体融合,得到营养互补的融合子为三倍体,其生长速度、发酵速率均较亲株提高1—2倍。部分融合子酒精的产量高于亲株,同时高于目前使用的酒精发酵生产菌株。     

Interspecific hybridization between Volvariella volvacea and V. bombycina by PEG-induced protoplast fusion

Interspecific hybridization between Volvariella volvacea and V. bombycina was studied using the protoplast fusion technique. The fusion frequency was found to be in the range of 0.032 to 0.333%. Protoplasts from various hybrids were released and regenerated to determine whether they were heterokaryons. In all regenerated colonies, both parental types could not be recovered at the same time. The nuclear DNA contents of hybrids were compared with their parents, and no diploid (parent 1 genome plus parent 2 genome) was found. Some hybrids revealed novel fragments in mitochondrial rDNA PCR profiles, which indicated that rearrangement of mtDNA could have occurred after fusion. Results from arbitrarily-primed polymerase chain reaction (AP-PCR) fingerprints also revealed that the majority of hybrids were similar to one parental type, but heterologous fragments were found in some hybrids.     

The Role of DNA Ploidy in the Differentiation of WEHI-3B D Leukemia Cells Transfected with the Granulocyte Colony-Stimulating Factor Receptor Gene

Granulocyte colony-stimulating factor (G-CSF) exerts various biological effects through occupancy of its receptor (G-CSFR). WEHI-3B D^- myelomonocytic leukemia cells do not express the G-CSFR, do not respond to G-CSF or to retinoic acid by the induction of granulocytic maturation, contain a near tetraploid content of DNA, and form tightly aggregated colonies. However, they still maintain the capacity to differentiate since they respond to vitamin D₃ by the formation of mature cells. Transfection of the G-CSFR gene into WEHI-3B D^- cells resulted in three major changes. G-CSFR-expressing clones (a) acquired the capacity to respond to the differentiation-inducing properties of G-CSF and retinoic acid, (b) formed colonies which exhibited a dispersed phenotype, and (c) exhibited near diploid DNA ploidy. In contrast, WEHI-3B D^- cells transfected with vector alone behaved like parental WEHI-3B D^- cells. The findings imply that the near diploid phenotype is required for WEHI-3B D^- leukemia cells to respond to certain inducers of differentiation.     

Modifications of Mitochondrial DNA Cause Changes in Floral Development in Homeotic-like Mutants of Tobacco

To investigate the influence of mitochondrial genes on stamen development of higher plants, protoplasts from three different, male-sterile tobacco cultivars were fused. The fused cells were cultured individually into calli, from which plants were regenerated. Cybrid plants were obtained that exhibited flowers with recombined biparental male-sterile morphology and with novel male-sterile stamens that differed from any types from sexual or somatic hybridizations described previously. The male-sterile morphologies of these cybrids and their parents support the hypothesis that nuclear-mitochondrial interaction occurs at several stages in tobacco floral development and that several mitochondrial genes are necessary for normal stamen and corolla development. Analysis by restriction endonuclease digestion of mitochondrial DNA of male-sterile cybrids and their parents revealed that the mitochondrial DNA of male-sterile cybrids with parental floral morphology was unchanged when compared with parental mitochondrial DNA. Cybrids that were morphologically similar to one parent's male-sterile phenotype had mitochondrial DNA almost identical to that parent, whereas cybrids with recombined biparental or novel male-sterile phenotypes contained mitochondrial DNA different from both male-sterile parents and from each other. A set of mitochondrial DNA fragments could be correlated with split corollas, a feature found in several tobacco male-sterile cultivars. DNA gel blot analysis using a number of mitochondrial genes confirmed the conclusions based on ethidium bromide staining of mitochondrial DNA restriction digests.     

Mating-type switching in yeast is induced by thymine nucleotide depletion

Summary Thymidylate biosynthesis was inhibited in a haploid heterothallic strain of Saccharomyces cerevisiae. When the treated cells were mixed with a haploid strain of the same mating-type, there was an increase in the recovery of diploid colonies. Genetic and biochemical analyses demonstrated that the diploid clones arose as a consequence of induced mating-type interconversion.     

Additional evidence for the genomic imprinting model of sex determination in the haplodiploid wasp Nasonia vitripennis: isolation of biparental diploid males after X-ray mutagenesis

The primary sex-determining signal in the haplodiploid wasp Nasonia vitripennis is not known. In haplodiploid reproduction, unfertilized eggs typically develop into uniparental haploid males and fertilized eggs into biparental diploid females. Although this reproductive strategy is common to all Hymenoptera, sex-determination is not strictly specified by the number of genome copies inherited. Furthermore, primary sex-determining signals differ among haplodiploid species. In the honeybee, for example, the primary signal is the genotype at a single, polymorphic locus: diploid animals that are homozygous develop into males while heterozygotes develop into females. Sex determination in Nasonia cannot be explained by this mechanism. Various lines of evidence show that the inheritance of a paternal genome is required for female sexual development and suggest a genomic imprinting mechanism involving an imprinted gene, expressed only from a paternal copy, that triggers female sexual development. In this model, haploid or diploid uniparental embryos develop into males due to a maternal imprint that silences this locus. The genomic imprinting model predicts that a loss-of-function mutation in the paternal copy of the imprinted gene would result in male sexual development in a biparental diploid embryo. In support of this model, we have identified rare biparental diploid males in the F1 progeny of X-ray mutagenized haploid males. Although uniparental diploid male progeny of virgin triploid females have been previously described, this is the first report of biparental diploid males in Nasonia. Our work provides a new, independent line of evidence for the genomic imprinting model of Nasonia sex determination.     

Culture conditions of protoplast-derived cells of nicotiana sylvestris for mutant selection

Large numbers of protoplasts showing reproducible high plating efficiency can be isolated from in vitro propagated, haploid and diploid, plants of Nicotiana sylvestris. Their successful use in the selection of biochemical mutants depends on the establishment of suitable selection parameters: culture medium, cell density, age of cells at selection etc. Plating of protoplasts at low densities as well as simulation and reconstruction experiments of mutant selection were employed to optimize such selection parameters. The results show that some of the principles determined for tobacco protoplast cultures manipulated at low densities or in view of mutant selection are of more general value. However, requirements specific to N. sylvestris protoplast cultures have also been established; they play a decisive part in the successful isolation of resistant mutants in this species.Abbreviations AEC S-aminoethylcysteine - BA benzyl-adenine - NAA napthaleneacetic acid - p-cells or p-colonies protoplast-derived cells or colonies     

Industrial Application of Artificially Induced Diploid Strains of Torulaspora delbrueckii

Diploid strains of Torulaspora delbrueckii were tested for industrial application. Because the cell volume of the diploid strain was three times as large as that of the parental haploid strain, collection and subsequent dehydration to make compressed yeast cakes were greatly improved with the diploid YL3. The time required for dehydration of the diploid strain was shortened to 1/2.5 that of the parent strain under conventional conditions. Moreover, for the diploid cells frequent filter changes for dehydration were not required, which was the case with parental cells. Fermentation activity and tolerance to freeze-thawing in dough were succesfully inherited by the diploid strains. The diploid YL3 showed nearly the same activity as the diploid F31 in bread making. However, the endurance period of yeast cakes when stored at 30°C without softening to lead to liquefaction was much longer in YL3 (199 h) than in F31 (132 h). This superiority was ascribed to the fact that YL3 was induced through direct diploidization and had no genetic defect on chromosomes because the wild-type strain was employed as the parent, whereas F31 was obtained through protoplast fusion from two auxotrophic mutants and carried at least two mutagenized genes that were masked by heterolallelism.     

Direct induction of homozygous diploidization in the fission yeast Schizosaccharomyces pombe by pressure stress

Abstract Hydrostatic pressure stress and a dye plate method were first used to investigate the direct induction of homozygous diploids from the haploid yeast Schizosaccharomyces pombe . Above 100 MPa at 25 °C for 10 min, pressure stress greatly inactivated the haploid strains of JY1 (L972 h ⁻) JY3 (L975 h ⁹⁰) and JY334 ( ade 6-M216 leul h ⁺). At the same time, when pressure stressed cells of these strains at more than 100–200 MPa were spread on a dye plate, some pressure-effected visible colonies were stained violet (variant colonies); the rest were stained pink, similar to colonies originating from haploid cells that were not pressure-stressed. Based on the cell size, DNA content, crosses, and random spore analyses for the segregation of mating types or auxotrophic markers, variant cells originating from color changed colonies of JY1 after pressure stress were very stable and found to be homozygous diploid with an h− / h− genotype at the mating-type locus. From these results we conclude that pressure stress in combination with a dye plate is a simple and useful method for direct induction of homozygous diploid cells with very high stability.     

Tests which distinguish induced crossing-over and aneuploidy from secondary segregation in Aspergillus treated with chloral hydrate or gamma-rays

A system of tests with the ascomycete Aspergillus nidulans was devised that can detect 3 primary effects of genotoxic agents: (1) increases in mitotic crossing-over; (2) induced aneuploidy; and (3) clastogenic effects which cause chromosomal imbalance. Conidia of a new diploid tester strain, heterozygous for 4 recessive markers which alter conidial color, are treated and plated onto nonselective media. In cases of induced crossing-over, large color segments are found in normal green colonies, frequently adjacent to reciprocal twin segments. In contrast, both malsegregation and chromosome breakage produce unbalanced types which grow poorly and segregate further. Cases with yellow segregants are replated and their secondary diploid sectors tested for markers which are located on both chromosome arms in coupling with yA. Induced aneuploidy can be distinguished from chromosome breakage by the pattern of marker segregation. Any aneuploid type will produce euploid sectors solely by segregation of whole chromosomes; trisomic colonies (yA / yA / +) will show 1:2 ratios for yellow (homozygous yA) to parental green (yA/+) sectors and have characteristic phenotypes. Other induced unbalanced types, if heterozygous for deletions or aberrations may produce yellow diploid sectors by secondary crossing-over as well as by nondisjunction and such cases show unique patterns of genetic segregation and non- predictable phenotypes. As a complementary test, haploid strains are treated and induced abnormally growing types are replated and classified by phenotype. Aneuploids are unstable and produce many normal sectors, and some of these disomic or trisomic types can be visually identified.In contrast, induced deletions are lethal, and duplications or 'morphological' mutants show much more stable abnormal phenotypes. This test system was used to characterize the primary effects of gamma-rays and chloral hydrate. Results and evidence were as follows: (1) A dose-dependent increase of color segments resulting from reciprocal crossing-over was found after treatment of dividing nuclei in germinating diploid conidia with gamma-rays, but not with chloral hydrate. (2) Highly aneuploid and polyploid types were induced in diploid and haploid germinating conidia by chloral hydrate but not to any significant extent by gamma-rays. (3) gamma-Rays caused a dose- dependent increase off abnormally growing colonies when dormant or germinating diploid conidia were treated. These colonies produced secondary euploid sectors by spontaneous nondisjunction and frequently also by crossing-over, which provided evidence for induced semidominant and recessive lethal mutations of many types.     

产甘油假丝酵母(Candida glycerinogenes)染色体倍性分析

摘要：【目的】产甘油假丝酵母作为一株优良高产甘油菌株,已成功应用于工业生产15年。近年来由于产甘油假丝酵母染色体倍性尚不明确,限制了对其进行遗传改造的研究进展,因而我们对产甘油假丝酵母染色体倍性研究,分析确定其染色体倍性。【方法】选用酿酒酵母细胞进行生孢,制备酿酒酵母单倍体细胞作对照,并选用热带假丝酵母作为二倍体酵母细胞对照,利用血球计数板得到热带假丝酵母、产甘油假丝酵母、单倍体及二倍体酿酒酵母细胞数,提取染色体,通过二苯胺检测法测定DNA含量。由于在相同紫外照射条件下单倍体细胞比二倍体细胞更容易死亡,因     

Asia1型口蹄疫病毒受体结合位点多样性

摘要：【目的】产甘油假丝酵母作为一株优良高产甘油菌株,已成功应用于工业生产15年。近年来由于产甘油假丝酵母染色体倍性尚不明确,限制了对其进行遗传改造的研究进展,因而我们对产甘油假丝酵母染色体倍性研究,分析确定其染色体倍性。【方法】选用酿酒酵母细胞进行生孢,制备酿酒酵母单倍体细胞作对照,并选用热带假丝酵母作为二倍体酵母细胞对照,利用血球计数板得到热带假丝酵母、产甘油假丝酵母、单倍体及二倍体酿酒酵母细胞数,提取染色体,通过二苯胺检测法测定DNA含量。由于在相同紫外照射条件下单倍体细胞比二倍体细胞更容易死亡,因     

产黄青霉ds RNA病毒通过原生质体融合的转移

将国内青霉素产生菌(Penicillium chrysogenum)的黄孢子系统及绿孢子(包括淡绿,灰绿)系统的十多个菌株,经过病毒提取、电镜观察、奥氏免疫双扩散、凝胶电泳及放射免疫测定,证明黄孢子系统的菌株含有不同滴定度的、直径40nm的球形病毒,而绿孢子系统中检查不出病毒。从营养要求、孢子颜色不同的带病毒和无病毒菌体中分离原生质体,进行不同组合的原生质体的融合杂交,获得营养互补融合的异核体。异核体1中,病毒通过胞质融合转移到原来无病毒的灰绿孢子菌株及细胞核融合后的杂合二倍体中。灰绿孢子的病毒量接近二倍体的1/3。二倍体菌落生长稳定,低温保存二年后经0.01—0.02M对氟苯丙氨酸(PFA)诱发和分离,产生亲本类型的分离子,分离子及二倍体仍然含有病毒。异核体2作亲本性分离,黄孢子仍有病毒,淡绿孢子及细胞核融合后产生的二倍体均无病毒,表明非感染性为显性。此种淡绿孢子的突变体中存在非感病菌系,它不支持病毒的复制。提取各杂交组二倍体内的病毒所特有的dsRNA时,可看出dsRNA的存在和病毒的存在一致。多数杂合二倍体的青霉素产量比亲本高。