Morphogenesis in Schizophyllum commune. 3. A mutation that blocks initiation of fruiting

Summary In the basidiomycete Schizophyllum commune, a mutation in a locus coh-1 prevents the formation of cohensive masses of hyphae and thus precludes the development of fruiting bodies. The mutation does not interfere with dikaryosis. coh-1 ^- is recessive to its wild-type allele and is unlinked to either the B factor or to the modifying mutation M14.     

Isolation of a new paramutagenic allele of thesulfurea locus in the tomato cultivar Moneymaker following in vitro culture

A new allele, SC148, of thesulfurea locus inLycopersicon esculentum was detected in a line derived after repeated selfing of plants that had been regenerated from tissue culture. Like the originalsulf mutant, SC148 displayed two mutant phenotypes: green-yellow speckled plants in which thesulf ^vag allele is present and pure yellow plants homozygous for thesulf ^tpura allele. Although the mutant alleles are recessive to wild-type, an unpredictable number of variegated and pura plants appeared in F₁ progenies that had been derived from crosses between SC148 and wild-type tomato plants. The presence of the wild-typesulf ⁺ allele in these variegated heterozygotes was demonstrated using a cytological marker that is linked tosulf. It is concluded that the mutantsulf allele of SC148, imposes its variegated expression state on the wild-typesulf ⁺ allele present insulf ⁺/sulf^vag heterozygotes. This behaviour, known as paramutation, has also been described for the originalsulf allele. The SC148 allele, however, seems to induce changes at an earlier stage in development. The analogy of this paramutagenic system to dominant position effect variegation inDrosophila is discussed.     

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.     

Tight linkage between a nuclear male-sterile locus and an enzyme marker in tomato

Summary The linkage relationship of a nuclear male sterile locus, ms-10, was tested with two enzyme marker loci known to be on the same chromosome (long arm of chromosome 2). The results indicate the gene order is Est-1 — 18 cM — Prx-2 — 1.5 cM — ms-10. The linkage intensity of ms-10 and Prx-2 (1.5 cM) suggests that Prx-2 might provide a selectable marker for male-sterility. In accordance with this idea, the ms-10 allele was placed in cis with a rare-allele of Prx-2 (Prx-2 ¹). Selection on the basis of the codominant Prx-2 ¹ allele should allow for more rapid and efficient transfer of the recessive male sterile allele into an array of genetic backgrounds, thus promoting its use in hybrid seed production.     

Combination of kanamycin resistance and nitrate reductase deficiency as selectable markers in one nuclear genome provides a universal somatic hybridizer in plants

Summary The combination in the nuclear genome of a dominant resistance marker (to select against unfused wild-type cells) and a recessive deficiency marker (to select against unfused mutant cells) in a cell line should provide a system for selecting fusion hybrids between the mutant line and any wild-type line. To test this idea, we fused protoplasts from a non-morphogenic cell line of Nicotiana tabacum which was kanamycin resistant (by transformation) and deficient in nitrate reductase (NR^-K⁺) with protoplasts from N. tabacum cv. Petit Havana clone SR1, which provided resistance against streptomycin as an additional selectable marker (NR⁺K^-SR⁺). Putative hybrids were selected using a culture medium containing no available reduced nitrogen source and 50 mg/l kanamycin sulphate. After regeneration into plants, the hybrid character was demonstrated from: (i) the morphological variation of the regenerants; (ii) the chromosome number; (iii) the ability to grow on medium without a reduced nitrogen source and containing kanamycin sulphate at 50 mg/l; (iv) the presence of nitrate reductase activity; (v) the presence of the gene coding for neomycin phosphotransferase, which provides resistance to kanamycin sulphate; (vi) callus formation from leaves on medium containing 1 g/l streptomycin or 50 mg/l kanamycin sulphate; (vii) F₁ plants containing nitrate reductase and the gene for neomycin phosphotransferase. Fusions between the mutant cell line (NR^-K⁺) and three wild-type tobacco species and subsequent cultivation on medium containing no available nitrogen source but 50 mg/l kanamycin sulphate resulted in callus formation with all combinations, while hybrid plants were only regenerated when N. sylvestris was the fusion partner.     

The capsanthin-capsorubin synthase gene: a candidate gene for the y locus controlling the red fruit colour in pepper

The red colour of pepper fruits is determined by the y⁺ dominant allele and the yellow colour by the y recessive allele. The capsanthin-capsorubin synthase (CCS) gene is activated specifically during the final stages of pepper fruit ripening. RFLP and specific-PCR polymorphisms derived from the CCS gene were analysed in a F2 progeny of a red by yellow-fruited cross. They cosegregated completely with fruit colour. Our results support the hypothesis that the yellow phenotype might result from a deletion of the CCS gene. These specific markers were integrated into the genetic map and will be useful for marker assisted plant breeding.     

Genetic factors affecting allelic recombination at the histidine-3 locus ofNeurospora crassa

Summary In addition to the generec-4, other genetic factors affect the frequency of allelic recombination in thehis-3 locus. One dominant factor, designated asrec-6 ⁺, in association withrec-4 ⁺ causes greater reduction in prototrophic frequency than obtained withrec-4 ⁺ alone. The action ofrec 6 ⁺ in crosses recessive homozygous forrec-4 is not established at the present. The effect ofrec-6 ⁺ is recognised only with onehis-3 allele but not with another. Interaction ofrec-4 ⁺ orrec-4 with other genetic factors can give approximately ten fold variation in the prototrophic frequencies obtained with a pair of alleles. It is suggested that the control of the rate of mutations during meiosis might be one of the roles of the recombination genes.     

The isolation and characterization of a mutant allele at a new X-linked locus,mex, affecting NADP+-dependent enzymes inDrosophila melanogaster

The isolation and characterization of mutant alleles in a regulatory gene affecting NADP⁺-dependent enzymes are described. The locus,mex, is at position 26.5 ± 0.74 on the X chromosome ofDrosophila melanogaster. The newly isolated mutant allele,mex ¹, is recessive to either themex allele found in Oregon-R wild-type individuals or that found in thecm v parental stock in which the new mutants were induced. Themex ¹ mutant allele is associated with statistically significant decreases in malic enzyme (ME) specific activity and ME specific immunologically cross-reacting material (ME-CRM) in newly emerged adult males. During this same developmental stage in males, the NADP⁺-dependent isocitrate dehydrogenase specific activity increases to statistically significant levels. Females of themex ¹ mutant strain show statistically significant elevated levels of the pentose phosphate shunt enzymes, glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase. Isoelectric focusing and thermolability comparisons of the active ME from mutant and control organisms indicate that the enzyme is the same. Developmental profiles ofmex ¹ and control strains indicate that this mutant allele differentially modulates the levels of ME enzymatic activity and ME-CRM during development. This work was supported by an Operating Grant from the Natural Sciences and Engineering Research Council of Canada to M.M.B.     

2种菊苣再生体系及遗传转化效率的比较

以普那菊苣和将军菊苣子叶为材料,通过植物组织培养的方法,探讨了不同激素浓度配比对二者愈伤组织诱导、芽分化以及根再生的影响,并通过农杆菌介导法将编码獐茅液泡膜Na+/H+逆向转运蛋白基因(AlNHX)导入菊苣中,比较普那菊苣和将军菊苣的遗传转化效率。结果表明:不同基因型的菊苣愈伤组织诱导和芽分化条件不同,普那菊苣最佳培养基为MS+1.5mg/L 6-BA+0.2mg/L IBA;将军菊苣最佳培养基为MS+1.0mg/L 6-BA+0.5mg/L NAA;二者最佳生根培养基均为1/2MS+0.1mg/L NAA。获得的抗性芽经PCR检测,初步证实AlNHX已插入到菊苣基因组中,且普那菊苣转化效率为10.0%,将军菊苣转化效率为13.3%。     

Non-Synonymous SNP in the ApoR Gene Associated with Pork Meat Quality

Two novel non-synonymous SNPs in the 2^nd and 3^rd exons of the porcine ApoR gene are reported. One was identified as a novel SNP significantly associated with multiple traits of pork meat quality. The data can provide a useful resource for developing a marker in the genetic improvement of pigs.     

Genetic and biochemical studies on the conversion of flavanones to dihydroflavonols in flowers of Petunia hybrida

Summary Chemogenetic investigations and precursor experiments on flowers of Petunia hybrida suggest that recessive alleles of the gene An3 block the biosynthetic pathway of flavonols and anthocyanins between the flavanone and dihydroflavonol step. In confirmation of this hypothesis, activity of the enzyme flavanone 3-hydroxylase, which catalyses the conversion of flavanones to dihydroflavonols, was readily demonstrated in enzyme preparations from flowers of lines with the dominant allele An3, whereas no or very low activity could be found in extracts from lines with recessive alleles (an3an3). A second genetic factor is described which clearly reduces the amount of flavonols in the flowers but not the amount of anthocyanins. Crossing experiments revealed that this factor represents a third allele of the An3 gene. It is referred to as an3-1. As expected, a residual flavanone 3-hydroxylase activity of about 10% could be found in enzyme extracts from plants with the an3-1 allele. The decreased level of dihydroflavonol formed under this condition is obviously still sufficient for anthocyanin formation but not for flavonol synthesis.Similar to flavanone 3-hydroxylases from other plants, the enzyme of Petunia is a soluble enzyme and belongs according to its cofactor requirements to the 2-oxoglutarate-dependent dioxygenases. The residual flavanone 3-hydroxylase activity found in plants with the an3-1 allele is identical to the activity extracted from An3-genotypes with regard to cofactors, substrate specificity and most of the inhibitors. The difference observed in the respective pH-optima and the genetic data suggest that the mutation providing the an3-1 phenotype is localized in the structural gene for flavanone 3-hydroxylase.     

Isolation and characterization of nif::kanamycin and nitrogen fixation proficient Azotobacter vinelandii strain, and its implication on the status of multiple chromosomes in Azotobacter

Several lines of experimental analyses on the ploidy status of Azotobacter vinelandii genome lead to the conclusion that it contains more than 40 copies of its chromosome and therefore it is a polyploid organism. The genetic evidence argues against the existence of polyploidy in these cells since the segregation pattern of genetic markers under lack of selection pressure mimic that of haploids. However, when A. vinelandii was made Nif⁻ by inserting a kanamycin resistance marker gene in the nifDK sequence and the cells were selected for kanamycin resistance and Nif⁺ phenotype, we were able to score colonies that are both kanamycin resistant and Nif⁺. Therefore, when the cells were subjected to forced double selection of the same locus, they behaved as if they carried at least two chromosomes, one carrying the kanamycin resistance marker in the nifDK genes and the other carrying the intact nifDK genes. These analyses suggested that at least a diploidy status can be induced in these cells under selection pressure. This revised version was published online in July 2006 with corrections to the Cover Date.     

Dual autogenous regulatory role of threonine deaminase in Escherichia coli K-12.

Summary We describe the regulatory properties of two strains carrying either the ilvA624 or the ilvA625 mutations, located in the structural gene for threonine deaminase. Crude extracts of both these strains possess a threonine deaminase activity migrating on polyacrylamide gels, differently from the wild type enzyme. Growth studies demonstrate that these mutations do not cause a limitation of isoleucine biosynthesis, suggesting normal catalytic activity of deaminase.A regulatory consequence of the ilvA624 allele is a derepression of the isoleucine-valine biosynthetic enzymes, which is recessive to an ilvA ⁺ allele. The ilvA625 mutation causes a derepression which is dominant in an ilvA625/ilvA ⁺ diploid. We interpret these data assuming that threonine deaminase, previously shown to be an autogenous regulator of the ilv genes, lacks a repressor function in the ilvA624 mutant, while in the ilvA625 mutant it is a better activator than wild type threonine deaminase.The data are discussed in terms of a model requiring that threonine deaminase, or a precursor of it, is in equilibrium between two forms, one being an activator of gene expression and the other being a repressor.     

Development of a homologous transformation system for Aspergillus niger based on the pyrG gene

Summary The development of a homologous transformation system for Aspergillus niger is described. The system is based on the use of an orotidine-5-phosphate decarboxylase deficient mutant (pyrG) and a vector, pAB4-1, which contains the functional A. niger pyrG gene as a selection marker. Transformation of the A. niger pyrG mutant with pAB4-1 resulted in the appearance of stable Pyr⁺ transformants at a frequency of 40 transformants per g of DNA. In 90% of these transformants integration had occurred at the resident pyrG locus, resulting either in replacement of the mutant allele by the wild-type allele (60%) or in insertion of one or two copies of the vector (40%). The A. niger pyrG mutant could also be transformed with the vector pDJB2 containing the pyr4 gene of Neurospora crassa, at a frequency of 2 transformants per g of DNA. Integration at the resident pyrG locus was not found with this vector. The vector pAB4-1 is also capable of transforming an Aspergillus nidulans pyrG mutant to Pyr⁺. The pyrG transformation system was used for the introduction of a non-selectable gene into A. niger.     

Molecular cloning of the phosphate (inorganic) transport (pit) gene of Escherichia coli K12. Identification of the pit+ gene product and physical mapping of the pit-gor region of the chromosome

Summary The pit ⁺ gene, encoding the phosphate (inorganic) transport system of Escherichia coli, was isolated from a library of E. coli genes inserted in the cosmid vector pHC79. A 25.5-kb chromosomal DNA fragment was shown also to carry the gor locus encoding glutathione oxidoreductase. Physical mapping placed the two genes about 10 kb apart, confirming bacteriophage P1 mapping of the 77-min region. Subcloning and deletion analysis indicated that the entire pit ⁺ gene was located within a 2.2-kb Sal1-Ava1 fragment. The pit ⁺ gene product was identified by SDS-polyacrylamide gel electrophoresis as a 39-kdal inner membrane protein by two methods: (i) ³⁵S-methionine-labelling of minicells carrying pit ⁺ plasmids or plasmids from which all or part of the pit ⁺ gene was deleted. (ii) Overproduction of the Pit protein using a thermoinducible runaway replication plasmid.Complementation of the pit-1 mutant allele using a unit-copy-number pit ⁺ plasmid indicated that the pit-1 mutation is recessive.Strains carrying a multicopy pit ⁺ plasmid show a 10-fold increase in the initial rate of phosphate uptake; however there is no change in the steady-state level of ³²Pi accumulation.Abbreviations kb kilobase-pairs - kdal kilodalton - Pi inorganic phosphate - G3P sn-glycerol-3-phosphate - LB Luria broth - Tc tetracycline - Cm chloramphenicol - Ap ampicillin - UV ultraviolet light - TE 10 mM Tris.HCl, pH 8.0, 1 mM EDTA - HEPES N-2-hydroxyethylpiperazine-N-2-ethanesulphonic acid     

Cloning of the lkyB (tolB) gene of Escherichia coli K12 and characterization of its product

Summary The lkyB gene of Escherichia coli K12 has been cloned from the Clarke and Carbon colony bank by selecting a ColE1 plasmid conferring cholic acid resistance to lkyB mutants. The lkyB gene was localized on hybrid plasmid pJC778 by analysis of mutated plasmids generated by Tn5 insertions. Restriction analysis and complementation studies indicated that plasmid pJC778 carried genes nadA, lkyB and sucA which mapped at min 16.5; the lkyB ⁺ allele was dominant over the lkyB207 mutant allele. Analysis of cell envelope proteins from strains carrying plasmids pJC778 (lkyB ⁺), pJC2578 or pJC2579 (lkyB::Tn5), as well as plasmid-coded proteins in a maxicell system, made it likely that the lkyB gene product was a membrane protein of molecular weight 42,000.     

The multi sex combs gene of Drosophila melanogaster is required for proliferation of the germline

We present a genetic analysis showing that the Drosophila melanogaster gene multi sex combs (mxc; Santamaria and Randsholt 1995) is needed for proliferation of the germline. Fertility is the feature most easily affected by weak hypomorphic mutations of this very pleiotropic locus. Pole cell formation and early steps of gonadogenesis conform to the wild-type in embryos devoid of zygotic mxc ⁺ product. mxc mutant gonad phenotypes and homozygous mxc germline clones suggest a role for mxc ⁺ in control of germ cell proliferation during the larval stages. mxc ⁺ requirement is germ cell autonomous and specific in females, whilst in males mxc ⁺ product is also needed in somatic cells of the gonads. Although mxc can be classified among the Polycomb group (Pc-G) of genes, negative trans-regulators of the ANT-C and BX-C gene complexes, germline requirement for mxc appears independent of a need for other Pc-C gene products, and mxc gonad phenotypes are different from those induced by mutations in BX-C genes. We discuss the possible functions of the mxc ⁺ product which helps to maintain homeotic genes repressed and prevents premature larval haemocyte differentiation and neoplasic overgrowth, but promotes growth and differentiation of male and female gonads.F.D. and O.S. should be considered as equal first authors     

Genetic analysis of Aspergillus niger: Isolation of chlorate resistance mutants, their use in mitotic mapping and evidence for an eighth linkage group

Summary This paper describes the use of chlorate resistant mutants in genetic analysis of Aspergillus niger. The isolated mutants could be divided into three phenotypic classes on the basis of nitrogen utilization. These were designated nia, nir and cnx as for Aspergillus nidulans. All mutations were recessive to their wild-type allele in heterokaryons as well as in heterozygous diploids. The mutations belong to nine different complementation groups. In addition a complex overlapping complementation group was found. Evidence for the existence of eight linkage groups was obtained. Two linked chlorate resistance mutations and two tryptophan auxotrophic markers, which were unlinked to any of the known markers (Goosen et al. 1989), form linkage group VIII. We used the chlorate resistance mutations as genetic markers for the improvement of the mitotic linkage map of A. niger. We determined the linear order of three markers in linkage group VI as well as the position of the centromere by means of direct selection of homozygous cnxA1 recombinants. In heterozygous diploid cultures diploid chlorate resistant segregants appeared among conidiospores with a frequency of 3.9×10^–2 (cnxG13 in linkage group I) to 2.1 × 10^–2 (cnxD6 in linkage group 111). The mean frequency of haploid chlorate resistant segregants was 1.3 × 10^–3. The niaD1 and niaD2 mutations were also complemented by transformation with the A. niger niaD ⁺ gene cloned by Unkles et al. (1989). Mitotic stability of ten Nia⁺ transformants was determined. Two distinct stability classes were found, showing revertant frequencies of 5.0 × 10^–3 and 2.0 × 10^–5 respectively.     

Drosophila tumor suppressor merlin is essential for mitochondria morphogenesis during spermatogenesis in <Emphasis Type="Italic">Drosophila melanogaster</Emphasis>

Mitochondria morphogenesis during spermatogenesis in Drosophila carrying merlin gene mutations was examined by electron and fluorescent microscopy. Hypomorphic allele mer3; null allele mer4; and genetic construct Mer ⁺, which encodes full-size protein, were applied in the experiments. A detailed analysis of anomalies in spermatogenesis induced by these mutations shows that Merlin is important for the formation, structural support, and modification of the apparatus of mitochondria (nebenkern). The possible role of a Merlin protein as an adaptor protein that can link mitochondria with the cytoskeleton and its activity defined by molecule conformation are discussed.     

Effects of linker insertions on the biogenesis and functioning of the Escherichia coli outer membrane pore protein PhoE

Summary The swi1 ⁺ gene is necessary for effective mating-type (MT) switching in Schizosaccharomyces pombe. It was cloned on a 4.2 kb genomic DNA fragment. By site-directed integration into the genome and gene disruption experiments it was proved that the swi1 ⁺ gene itself and not a suppressor had been isolated. Disruption of the swi1 ⁺ gene causes a phenotype identical to that of the original swi1 mutant, i.e. the strain still shows some MT switching. The swi1 gene is unique in the genome and gives rise to a 3 kb mRNA.