Negative complementation among ad2 mutants of yeast

Summary Ad ₂ remedial mutants of Saccharomyces cerevisiae which showed conditional growth at 35°C or with 1 M KCl at 25° C or 35° C, were crossed with other remedial and non-remedial mutants in all pairwise combinations. 19 remedials (11 K ₂₅, 5 temp. and 3 K ₃₅) and 189 non-remedial mutants were used. The standard conditions used were incubation at 25° C in the absence of adenine.Among 1625 combinations there were 367 (22.6%) cases of negative complementation. In these cases the diploids were unable to grow under the same conditions which permitted a strong growth of the remedial haploid.No negative complementation was observed among K ₂₅×K ₂₅ combinations. When only one haploid partner was remedial the temp. ¢ non-remedial combinations showed a rate 2.5 times higher than that observed among K ₂₅ × non-remedial combinations. When the remedial haploid was a K ₃₅ the incidence was the same as that noted with temp. × non-remedial combinations. The high incidence observed in the latter temp. combinations was not subject to influence attributable to strain; the incidence being the same whether the remedial partner belonged to the a or to the mutant strains. The K ₂₅ × non-remedial combinations, on the other hand, showed such an influence.For an explanation of the mechanism involved in negative complementation it was postulated that, assuming non-random monomer aggregation, some mutant pairs would form only active heterologous multimers while others, due to the nature of their mutation, would form only inactive aggregates which entrap all the remedial monomers. It is thought that this postulate may have some application in explaning the complementation mechanism in general.Mit Unterstützung der Deutschen Forschungsgemeinschaft.     

Absence of the psbH gene product destabilizes the Photosystem II complex and prevents association of the Photosystem II-X protein in the thermophilic cyanobacterium Thermosynechococcus elongatus BP-1

PS II-H is a small hydrophobic protein that is universally present in the PS II core complex of cyanobacteria and plants. The role of PS II-H was studied by directed mutagenesis and biochemical analysis in the thermophilic cyanobacterium Thermosynechococcus elongatus BP-1. The psbH disruptant could grow photoautotrophically; however, its growth was much slower than that of the wild type cell. Chromatography enabled the isolation of active oxygen-evolving PS II complexes from both the mutant and the wild type. The mutant yielded a relatively large amount of inactive PS II complex that lacked the following extrinsic proteins: the 33-kDa protein, the 12-kDa protein, and cytochrome c ₅₅₀ . There were differences between the psbH disruptant and the wild type in terms of the oxygen evolution activities of the cells, thylakoids, and PS II complexes. At high concentrations of 2,6-DCBQ, the activity was much lower in the mutant than in the wild type. Gel filtration chromatography of the PS II complexes showed that both active and inactive PS II complexes isolated from the mutant were mostly in the monomeric form, while the active PS II complex from the wild type was in the dimeric form. The polypeptide composition of both active and inactive PS II complexes from the mutant showed the absence of another small polypeptide, PS II-X. These results suggest that the PS II-H protein is essential for stable assembly of native dimeric PS II complex containing PS II-X.     

The Saccharomyces cerevisiae Arr4p is involved in metal and heat tolerance*

Homologues of the bacterial ArsA ATPase are found in nearly every organism. While the enzyme is involved in arsenic detoxification in bacteria, the roles of eukaryotic homologues have not been identified. This article reports the function of the Saccharomyces cerevisiaehomologue encoded by ARR4 gene (YDL100c ORF). Disruption of ARR4 was not lethal, but the disrupted strain displayed increased sensitivity to As³⁺, As⁵⁺, Co²⁺, Cr³⁺, Cu²⁺ or VO ₄ ^3– salts and temperature. A plasmid-encoded copy of a wild-type ARR4 gene could complement the heat- or metal-related stress responses. Mutation of a codon within the consensus sequence for the nucleotide-binding site resulted in loss of complementation of the disrupted strain and produced a dominant negative phenotype in a wild type strain. Wild type and mutant Arr4p were purified from Escherichia coli. The wild type protein exhibited a low level of ATPase activity, and the mutant was inactive. The purified ATPase eluted as a dimer of 80-kDa species. A fusion of ARR4 and the GFP (green fluorescent protein) gene was constructed. The gene fusion was able to complement stress-related phenotype of the ARR4 disruption. Under non-stress conditions, GFP fluorescence was found diffusely in the cytosol. Under stress conditions GFP was localized in a few punctate bodies resembling late endosomes. It is proposed that under heat or metal stress, the soluble ATPase becomes membrane-associated, perhaps through interaction with a partner protein, and that this complex is involved in stress tolerance.     

Complementation pattern of lexB and recA mutations in Escherichia coli K12; mapping of tif-1, lexB and recA mutations

Summary Three lexB mutations, whose phenotypes have been previously characterized, are studied here in relation to a few recA mutations as to their complementation pattern and relative location.The restoration of resistance to UV-light and to X-rays in the hetero-allelic diploid bacteria was used as a test for dominance and complementation. The wild type allele was always dominant over the mutant allele. Only partial complementation was found between lexB and two recA alleles. There was no complementation between the recA alleles. All the data taken together strongly suggest that the complementations found are intragenic: lexB and recA mutations are in one gene.Mapping of lexB, recA and tif-1 mutations in relation to srl-1 and cysC by phage P1 transduction shows that lexB and the tif-1 mutations form a cluster proximal to srl-1 whereas recA mutations are located at the other extremity of the gene. Variability with temperature of cotransduction frequencies as well as their extended range of values prevent a meaningful calculation of the length of the recA gene.Our hypothesis is that the recA protein has two functional regions called A and B respectively defined at the genetical level by recA and lexB mutations and that it is, in vivo, an oligomeric protein forming a complex with the lexA protein. This complex is postulated to be multifunctional: recombination and control of exonuclease V are effected by the A region while the B region and lexA protein effect induced DNA repair and lysogenic induction.     

Effects of molybdenum and tungsten on induction of nitrate reductase and formate dehydrogenase in wild type and mutant Paracoccus denitrificans

Molybdenum is required for induction of nitrate reductase and of NAD-linked formate dehydrogenase activities in suspensions of wild type Paracoccus denitrificans; tungsten prevents the development of these enzyme activities. The wild type forms a membrane protein M _r150,000 when incubated with tungsten and inducers of nitrate reductase and this is presumed to represent an inactive form of the enzyme. Suspensions of mutant M-1 did not develop nitrate reductase or formate dehydrogenase activities but the membrane protein M _r150,000 was formed under all conditions tested, including without inducers and without molybdenum. Analysis of membranes, solubilized with deoxycholate, by polyacrylamide gel electrophoresis under nondenaturing conditions showed that the mutant protein had similar electrophoretic mobility to the active nitrate reductase formed by the wilde type. Autoradiography of preparations from cells incubated with ⁵⁵Fe showed that the mutant and wild type proteins contained iron. However, in similar experiments with ⁹⁹Mo, incorporation of molybdenum into the mutant protein was not detectable.We conclude that mutant M-1 is defective in one or more steps required to process molybdenum for incorporation into molybdoenzymes. This failure affects the normal regulation of nitrate reductase protein with respect to the role of inducers.Non-Standard Abbreviations DOC deoxycholate - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulfate     

Dominant negative mutants of ornithine decarboxylase.

Conserved lysines of mouse ornithine decarboxylase were individually mutated to arginines. The mutations at amino acid residues 69, 115, and 169 greatly reduced or abolished enzymatic activity. Lysine 69 is the site of Schiff base formation with the cofactor pyridoxal phosphate; the functional role of the other two lysines essential for activity is not known. Coexpression of wild type ornithine decarboxylase along with the lysine 115 to arginine mutant reduced the activity of the former without diminishing the amount of wild type protein. This form of negative complementation was seen when wild type and mutant protein were coexpressed either by in vitro translation or in bacteria. The data are consistent with the conclusion that a wild type and mutant subunit form a heterodimer that is enzymatically inactive.     

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.     

Complementation of notabilis, an abscisic acid-deficient mutant of tomato: importance of sequence context and utility of partial complementation

The abscisic acid (ABA)‐deficient tomato mutant notabilis (not) is believed to be a null mutation in the gene LeNCED1, encoding a 9‐cis‐epoxycarotenoid dioxygenase involved in ABA biosynthesis. We have sequenced and analysed a 19 kb genomic clone containing LeNCED1 and 5.4 kb of its promoter. This clone was transferred to not homozygotes and several non‐wilty transformed plants were obtained. The basal ABA content, water relations, shoot and root growth, adventitious rooting, ethylene evolution and ability to accumulate ABA under water stress are described for two of these lines, not_comp.13 and not_comp.1. Partial complementation was observed for most parameters measured for not_comp.1. Full complementation was observed in not_comp.13 for all parameters measured in whole plants under well‐watered and water‐stressed conditions. These data provide further evidence that LeNCED1 is the wild‐type allele of the not mutant gene. However, not_comp.13 was unable to accumulate the wild‐type levels of ABA in rapidly dehydrated leaves, indicating that it too was only partially complemented. Since LeNCED1 is an environmentally regulated gene encoding a rate‐limiting enzyme, precise levels and patterns of gene expression may be needed to fully recreate wild‐type phenotype. The utility of partially complemented lines to study the role of ABA in plant responses to stress conditions, and in promoter analysis, is discussed.     

In vitro and in vivo characterization of alkyl hydroperoxide reductase mutant strains of Helicobacter hepaticus

Mutant strains in the tsaA gene encoding alkyl hydroperoxide reductase were more sensitive to O₂ and to oxidizing agents (paraquat, cumene hydroperoxide and t-butylhydroperoxide) than the wild type, but were markedly more resistant to hydrogen peroxide. The mutant strains resistance phenotype could be attributed to a 4-fold and 3-fold increase in the catalase protein amount and activity, respectively compared to the parent strain. The wild type did not show an increase in catalase expression in response to sequential increases in O₂ exposure or to oxidative stress reagents, so an adaptive compensatory mutation has probably occurred in the mutants. In support of this, chromosomal complementation of tsaA mutants restored alkyl hydroperoxide reductase, but catalase was still up-expressed in all complemented strains. The katA promoter sequence was the same in all mutant strains and the wild type. Like its Helicobacter pylori counterpart strain, a H. hepaticus tsaA mutant contained more lipid hydroperoxides than the wild type strain. Hepatic tissue from mice inoculated with a tsaA mutant had lesions similar to those inoculated with the wild type, and included coagulative necrosis of hepatocytes. The liver and cecum colonizing abilities of the wild type and tsaA mutant were comparable. Up-expression of catalase in the tsaA mutants likely permits the bacterium to compensate (in colonization and virulence attributes) for the loss of an otherwise important oxidative stress-combating enzyme, alkyl hydroperoxide reductase. The use of erythromycin resistance insertion as a facile way to screen for gene-targeted mutants, and the chromosomal complementation of those mutants are new genetic procedures for studying H. hepaticus.     

Dependence on the F<Subscript>0</Subscript>F<Subscript>1</Subscript>-ATP synthase for the activities of the hydrogen-oxidizing hydrogenases 1 and 2 during glucose and glycerol fermentation at high and low pH in <Emphasis Type="Italic">Escherichia coli</Emphasis>

Escherichia coli has four [NiFe]-hydrogenases (Hyd); three of these, Hyd-1, Hyd-2 and Hyd-3 have been characterized well. In this study the requirement for the F₀F₁-ATP synthase for the activities of the hydrogen-oxidizing hydrogenases Hyd-1 and Hyd-2 was examined. During fermentative growth on glucose at pH 7.5 an E. coli F₀F₁-ATP synthase mutant (DK8) lacked hydrogenase activity. At pH 5.5 hydrogenase activity was only 20% that of the wild type. Using in-gel activity staining, it could be demonstrated that both Hyd-1 and Hyd-2 were essentially inactive at these pHs, indicating that the residual activity at pH 5.5 was due to the hydrogen-evolving Hyd-3 enzyme. During fermentative growth in the presence of glycerol, hydrogenase activity in the mutant was highest at pH 7.5 attaining a value of 0.76 U/mg, or ~50% of wild type activity, and Hyd-2 was only partially active at this pH, while Hyd-1 was inactive. Essentially no hydrogenase activity was measured at pH 5.5 during growth with glycerol. At this pH the mutant had a hydrogenase activity that was maximally only ~10% of wild type activity with either carbon substrate but a weak activity of both Hyd-1 and Hyd-2 could be detected. Taken together, these results demonstrate for the first time that the activity of the hydrogen-oxidizing hydrogenases in E. coli depends on an active F₀F₁-ATP synthase during growth at high and low pH.     

Low expression of lipid-linked oligosaccharide due to a functionally altered Dol-P-Man synthase reduces protein glycosylation in cAMP-dependent protein kinase deficient Chinese hamster ovary cells

Chinese hamster ovary cells express a wide variety of glycoproteins with M_r ranging from 15,000 to 200,000 dalton and higher. Glycosylation of these proteins was much less in cAMP-dependent protein kinase (PKA)-deficient mutants which expressed either (i) a defective C-subunit with altered substrate specificity and having no detectable type II kinase (mutant 10215); or (ii) an altered RI subunit and having no detectable type II kinase (mutant 10248); or (iii) exhibited the lowest level of total kinase with no detectable type I kinase but having a small amount of type II kinase (mutant 10260). Addition of 8Br-cAMP enhanced protein glycosylation index in wild type cells 10001 by 120% but only 7 to 23% in the mutant cells. The rate of lipid-linked oligosaccharide (LLO) biosynthesis was linear for 1 h in all cell types, but the total amount of LLO expressed was much less in PKA-deficient mutants. Pulse-chase experiments indicated that the t_1/2 for LLO turnover was also twice as high in PKA-deficient cells as in the wild type. Size exclusion chromatography of the mild-acid released oligosaccharide confirmed that both wild type and the mutant cells synthesized Glc₃Man₉GlcNAc₂-PP-Dol as the most predominating species with no accumulation of Man₅GlcNAc₂-PP-Dol in the mutants. Kinetic studies exhibited a reduced mannosylphosphodolichol synthase (DPMS) activity in mutant cells with a K_m for GDP-mannose 160 to 400% higher than that of the wild type. In addition, the k_cat for DPMS was also reduced 2 to 4-fold in these mutant cells. Exogenously added Dol-P failed to rescue the k_cat for DPMS in CHO cell mutants; however, in vitro protein phosphorylation with a cAMP-dependent protein kinase restored their kinetic activity to the level of the wild type. Published in 2004.     

Mutants of the moss Physcomitrella patens which produce leaves of altered morphology

Abstract

After screening large numbers of survivors of mutagenic treatment with MNNG, 165 strains of the moss Physcomitrella patens altered in stem or leaf development were isolated. Of these, seven strains which produce leaves of greatly reduced size and cell number were analysed genetically, using protoplast fusion to obtain hybrids for dominance and complementation tests, since the strains are sterile. Three of the mutant alleles are recessive to the wild-type allele, but this is not true of the other four. Four of the mutant alleles can be assigned to one complementation group, and two to a second group.     

Complementation between uvr mutants of Streptococcus pyogenes

Summary From the group A streptococcal strains K 56 and 56 188, respectively 13 and 6 nitrosoguanidine-induced uvr mutants were isolated and used in complementation experiments employing strain 56 188 and its derivatives as donors in phage A 25-mediated heterologous transductions. When A 25 propagated on wild type or on 2 of the six 56 188-derived uvr mutants was used to infect 4 of the uvr recipient strains, a substantial increase in survivors of UV irradiation was found over those observed in selfing experiments or control experiments without phage. Less than 1% of the UV survivors had stably integrated the uvr ⁺ allele. The remaining 4 uvr donors failed to complement the 4 above-mentioned recipients, indicating that the strains in question fell into 2 complementation groups.Nine of the 13 K 56-derived mutants, which in contrast to the others were characterized by non-reversibility to UV resistance, did not even show an increase in UV survivors when infected with phage grown on wild type. The possibility is discussed that these strains might carry second mutations affecting UV sensitivity which, however, did not appear to be of the rec type.     

The trafficking protein SYP121 of Arabidopsis connects programmed stomatal closure and K⁺ channel activity with vegetative growth

The vesicle‐trafficking protein SYP121 (SYR1/PEN1) was originally identified in association with ion channel control at the plasma membrane of stomatal guard cells, although stomata of the Arabidopsis syp121 loss‐of‐function mutant close normally in ABA and high Ca²⁺. We have now uncovered a set of stomatal phenotypes in the syp121 mutant that reduce CO₂ assimilation, slow vegetative growth and increase water use efficiency in the whole plant, conditional upon high light intensities and low relative humidity. Stomatal opening and the rise in stomatal transpiration of the mutant was delayed in the light and following Ca²⁺‐evoked closure, consistent with a constitutive form of so‐called programmed stomatal closure. Delayed reopening was observed in the syp121, but not in the syp122 mutant lacking the homologous gene product; the delay was rescued by complementation with wild‐type SYP121 and was phenocopied in wild‐type plants in the presence of the vesicle‐trafficking inhibitor Brefeldin A. K⁺ channel current that normally mediates K⁺ uptake for stomatal opening was suppressed in the syp121 mutant and, following closure, its recovery was slowed compared to guard cells of wild‐type plants. Evoked stomatal closure was accompanied by internalisation of GFP‐tagged KAT1 K⁺ channels in both wild‐type and syp121 mutant guard cells, but their subsequently recycling was slowed in the mutant. Our findings indicate that SYP121 facilitates stomatal reopening and they suggest that K⁺ channel traffic and recycling to the plasma membrane underpins the stress memory phenomenon of programmed closure in stomata. Additionally, they underline the significance of vesicle traffic for whole‐plant water use and biomass production, tying SYP121 function to guard cell membrane transport and stomatal control.     

出芽酵母Saccharomyces cerevisiae转录抑制因子Rdr1负调控细胞胁迫应答

Rdr1是出芽酵母Saccharomyces cerevisiae的一个转录抑制因子,参与控制细胞的多重药物耐受性,并可能与细胞胁迫应答相关．利用PCR方法扩增RDR1基因片段,将其克隆至高拷贝表达载体pYES2/NTA上并诱导Rdr1蛋白在酵母细胞中过表达．为了揭示转录抑制因子Rdr1在胁迫应答中的作用,比较了RDR1过表达细胞、RDR1缺失突变体细胞和野生型细胞在过氧化氢处理、热胁迫和高盐处理条件下的生长状态,结果显示,RDR1过表达导致细胞对上述3种胁迫作用更敏感,而RDR1缺失则使细胞对这些胁迫作用的耐受性不受影响或有一定增强．为了揭示上述不同细胞在胁迫条件下生长状态的差异与细胞内抗氧化酶活性之间的关系,测定并比较了RDR1过表达细胞、RDR1缺失突变体细胞和野生型细胞中超氧化物岐化酶(superoxide dismutase SOD)、过氧化氢酶、葡萄糖-6-磷酸脱氢酶(glucose-6-phosphate dehydrogenase G6PDH)、谷胱甘肽还原酶(glutathione reductase GR)的活性．结果表明,RDR1缺失突变体细胞具高活性的SOD、过氧化氢酶、G6PDH和GR,而Rdr1过表达细胞中SOD、过氧化氢酶、G6PDH和GR的活性较低．RDR1对SOD和过氧化氢酶活性的影响要大于G6PDH和GR．细胞抗氧化酶活性的变化初步揭示,RDR1过表达细胞对胁迫的敏感和RDR1缺失突变体细胞对胁迫耐受性增加的原因．为转录抑制因子Rdr1在胁迫应答中的负调控作用及其机理提供了初步的遗传学和生物化学证据．     

Super-suppressor induced interallelic complementation

Summary In yeast the dominant super-suppressorS ₅ has a distinct expression in heterozygotes depending on the particular combination of alleles at thead ₁ orad ₂ loci. If thead ₁ combination is represented by two suppressible alleles, the phenotype of diploid is wild. If thead ₁ combination consists of a suppressible and a non-suppressible allele the phenotype of the diploid is partially mutant. Such a difference in the manifestation of suppressor depending on the combination of alleles is more pronounced in the case ofad ₂ mutations. In the case when bothad ₂ alleles are suppressible, the diploid is prototrophic, but when only one allele is suppressible, the diploid is an adenineless auxotroph as a rule.This type ofS ₅-effect gave us the possibility to study interallelic complementation atad ₂ locus in presence of the super-suppressor. It was shown that some combinations of noncomplementing alleles do complement as a result of suppression.Comparison of the two complementation maps with and without suppressor is made for thead ₂ locus. The mechanisms of the phenomena and of super-suppression are discussed.     

The effect of the locus pstB on phosphate binding in the phosphate specific transport (PST) system of Escherichia coli

Summary The periplasmic phosphate binding protein is a product of the phoS gene and is an essential component of the phosphate specific transport (PST) system, which mediates Pi uptake in Escherichia coli. The binding of Pi to periplasmic protein(s) and the kinetic parameters of Pi uptake were studied in phoT and pstB mutants of E. coli. These mutants are impaired in Pi uptake but have a periplasmic Pi-binding protein whose Pi-binding acpacity was estimated by the retention kinetics. The Pi-binding activity in two pstB mutants was found to be weaker as compared to phoT9 and the wild type. The K _D values for Pi binding to periplasmic protein were determined by equilibrium dialysis. In the pstB mutants the K _D value was found to be 9–31 times higher than the values obtained for the wild type and the phoT mutant. The apparent K _m values for Pi uptake in one pstB mutant is 14.3 times higher than in the wild type. V _max of the mutant is 8.3 times lower that of the wild type. The data indicate that pstB, an essential gene of the PST transport system, is promoting the binding capacity of the Pi-binding protein.Abbreviations AP alkaline phosphatase - Pi inorganic orthophosphate - Km kanamycin     

Allelspezifische suppressormutationen vonSchizosaccharomyces pombe

By comparing the intragenic distribution of suppressor sensitive mutants in fine structure maps, 13 allele specific suppressor mutations (isolated from revertants in adenine dependent mutants of constitutionad ₇) have been analyzed for their allele specific patterns of action in three different groups of mutants blocked in adenine biosynthesis. The 13 suppressor mutations, which have resulted from mutations at seven different suppressor loci, are characterized by four different suppression patterns. Three of these patterns, which partially overlap, are not locus specific since they include sensitive mutants at each of the three lociad ₇, ad₆ andad ₁ studied. The relative frequency of mutants sensitive to one or the other of the suppressors of this type, the absence of osmotic-remedial strains among the suppressor sensitive mutants, and the polarized complementation behaviour of one suppressiblead ₆ mutant and two suppressiblead ₁ mutants capable of interallelic complementation, suggest that the suppression mechanism involves misreading of a mutant triplet of the nonsense type.     

Strategies to obtain stable transgenic plants from non-embryogenic lines: complementation of the nn 1 mutation of the NORK gene in Medicago sativa MN1008

Strategies to introduce genes into non-embryogenic plants for complementation of a mutation are described and tested on tetraploid alfalfa (Medicago sativa). Genes conditioning embryogenic potential, a mutant phenotype, and a gene to complement the mutation can be combined using several different crossing and selection steps. In the successful strategy used here, the M. sativa genotype MnNC-1008(NN) carrying the recessive non-nodulating mutant allele nn ₁ was crossed with the highly embryogenic alfalfa line Regen S and embryogenic hybrid individuals were identified from the F1 progeny. After transformation of these hybrids with the wild-type gene (NORK), an F2 generation segregating for the mutation and transgene were produced. Plants homozygous for the mutant allele and carrying the wild-type NORK transgene could form root nodules after inoculation with Sinorhizobium meliloti demonstrating successful complementation of the nn ₁ mutation.