Mus308 Mutants of Drosophila Exhibit Hypersensitivity to DNA Cross-Linking Agents and Are Defective in a Deoxyribonuclease

Mutagen-sensitive strains that identify 16 different Drosophila genes have been screened for alterations in DNA metabolic enzymes. A characteristic defect in an acid-active deoxyribonuclease was observed in strains carrying the six available mutant alleles of the mus308 gene. Since that enzyme is detected at normal levels in a mutant strain that is deficient in the previously identified enzymes DNase 1 and DNase 2, it represents a new Drosophila nuclease that is designated Nuclease 3. The mus308 mutants were originally distinguished from all other mutagen-sensitive mutants of Drosophila because they exhibit hypersensitivity to the DNA cross-linking agent nitrogen mustard without expressing a concurrent sensitivity to the monofunctional agent methyl methanesulfonate. Further observations of hypersensitivity to the mutagens trimethylpsoralen, diepoxybutane and cis-platinum now establish a more general sensitivity of these mutants to agents capable of generating DNA cross-links. In spite of the hypersensitivity of the mus308 mutants to DNA cross-linking agents, the initial incision step of DNA cross-link repair is normal in mus308 cells as assayed by the alkaline elution procedure. The Drosophila mus308 mutants show promise of providing a useful model for analogous defects in other organisms including man.     

Purification and properties of the enzymes from Drosophila melanogaster that catalyze the synthesis of sepiapterin from Dihydroneopterin triphosphate

Sepiapterin synthase, the enzyme system responsible for the synthesis of sepiapterin from dihydroneopterin triphosphate, has been partially purified from extracts of the heads of young adult fruit flies (Drosophila melanogaster). The sepiapterin synthase system consists of two components, termed enzyme A (MW 82,000) and enzyme B (MW 36,000). Some of the properties of the enzyme system are as follows: NADPH and a divalent cation, supplied most effectively as MgCl₂, are required for activity; optimal activity occurs at pH 7.4 and 30 C; the K _m for dihydroneopterin triphosphate is 10 µm; and a number of unconjugated pterins, including biopterin and sepiapterin, are inhibitory. Dihydroneopterin cannot be used as substrate in place of dihydroneopterin triphosphate. Evidence is presented in support of a proposed reaction mechanism for the enzymatic conversion of dihydroneopterin triphosphate to sepiapterin in which enzyme A catalyzes the production of a labile intermediate by nonhydrolytic elimination of the phosphates of dihydroneopterin triphosphate, and enzyme B catalyzes the conversion of this intermediate, in the presence of NADPH, to sepiapterin. An analysis of the activity of sepiapterin synthase during development in Drosophila revealed the presence of a small amount of activity in eggs and young larvae and a much larger amount in late pupae and young adults. Sepiapterin synthase activity during development corresponds with the appearance of sepiapterin in the flies. Of a variety of eye color mutants of Drosophila melanogaster tested for sepiapterin synthase activity, only purple (pr) flies contained activity that was significantly lower than that found in the wild-type flies (22% of the wild-type activity). Further studies indicated that the amount of enzyme A activity is low in purple flies, whereas the amount of enzyme B activity is equal to that present in wild-type flies.This work was supported by research grants from the National Institutes of Health (AM03442) and the National Science Foundation (PCM75-19513 A02). G. G. K. was supported as a predoctoral trainee by National Institutes of Health Training Grant GM00515.     

dam methylation and the initiation of DNA replication on oriC plasmids

Summary Plasmid DNA containing the replication origin of the Escherichia coli chromosome (oriC) has been shown to be inefficient as a template for DNA synthesis in vitro when isolated from dam mutants. here, we extend this study to hemimethylated oriC plasmids and to replication in dam-3 mutant enzyme extracts. The results show that: (1) hemimethylated oriC plasmids replicate with the same low efficiency as nonmethylated DNA; (2) DNA synthesis starts at oriC regardless of the methylated state of the template; (3) replication in dam-3 enzyme extracts is inefficient because this strain is deficient in DnaA protein; and (4) consistent with this observation, the copy number of the oriC plasmid pFH271 is reduced in the dam-3 mutant. However, we have found that low DnaA protein levels in dam-3 mutants are not sufficient to explain the reduced transformation efficiency of oriC plasmids. We suggest that there must exist in vivo inhibitory factors not present or present in low quantities in vitro which specifically recognize the hemimethylated or nonmethylated forms of the oric region.     

The Role of ABI3 and FUS3 Loci in Arabidopsis thaliana on Phase Transition from Late Embryo Development to Germination

Arabidopsis abi3 and fus3 mutants are defective in late embryo development and their embryos show precocious growth. To understand the function and role of ABI3 and FUS3, we analyzed expression patterns of genes which were normally activated during late embryo development and germination in these mutants. Using the differential display method, both upregulated and downregulated genes were observed in immature siliques of the abi3 fus3 double mutant. Four clones having more abundant expression in the abi3 fus3 double mutant than in wild type were isolated. These genes were activated during wild-type germination, suggesting that some genes that are activated during wild-type germination are precociously activated in the abi3 fus3 mutant during late embryo development. Also, genes that were activated during wild-type germination were isolated and their expression patterns during late embryo development in the wild type and in abi3, fus3, and abi3 fus3 mutants were analyzed. Sixteen such clones were found, and 11 of these showed derepression or precocious activation of gene expression in the mutants. These results indicate that ABI3 and FUS3 negatively regulate a particular set of genes during late embryo development. We also showed that immature fus3 siliques accumulated one-third of the wild-type level of abscisic acid (ABA), but mature fus3 siliques accumulated ABA at a level comparable to that in the wild type. The possible mechanisms of controlling developmental timing in late embryo development as well as collaborative and distinct roles of ABI3 and FUS3 are discussed.     

Genetic characterization of the mei-41 locus in Drosophila melanogaster

Summary The mutagen-sensitive mutant mus(1)104 ^D1 of Drosophila melanogaster maps to a position on the X chromosome very close to the meiotic mutant mei-41 ^D5 . Both mutants have been characterized as mutagen-sensitive and defective in post-replication repair. In the present report we show by complementation studies that mus(1)104 and mus(1)103 are allelic with mei-41. In addition, two reported alleles of mus(1)104 lie between the mei-41 alleles A10 and D5. The size of the mei-41 locus is estimated to be about 0.1 centimorgans (cM). Because several alleles of mei-41 have been shown to reduce recombination and increase meiotic chromosome loss and nondisjunction, mus(1)104 ^D1 females were examined for defects in meiosis. Although there was no evidence for reduced recombination on the second chromosome in homozygous mus(1)104 ^D1 females, heterozygous mus(1)104 ^D1 /mei-41 ^>D5 and mus(1)104 ^D1 /deficiency females showed reduced levels of recombination. However, there was no evidence of an increase in nondijunction in these females.We dedicate this article to the memory of Larry Sandler, who passed away suddenly on February 7, 1987     

Use of recA803, a partial suppressor of recF, to analyze the effects of the mutant Ssb (single-stranded DNA-binding) proteins in vivo and in vitro

Summary We examined the possibility that the ssb-1 and ssb-113 mutants exert some of their effects by interfering with the normal function of wild-type RecF protein. Consistent with this possibility, we found that recA803, which partially suppresses recF mutations, also partially suppresses both ssb mutations, as detected by an increase in UV resistance. No evidence was obtained for suppression of the defect in lexA regulon inducibility caused by the ssb mutations. Consequently we suggest that suppression occurs by increasing recombinational repair. In vitro tests of Ssb mutant and wild-type proteins revealed that the single-stranded DNA dependent ATPase activity of RecA protein is more susceptible to inhibition than the joint-molecule-forming activity. All three Ssb proteins inhibit the ATPase activity of RecA wild-type protein almost completely while under similar conditions they inhibit the joint-molecule-forming activity only slightly. Both activities of RecA803 protein were found to be less inhibited by the three Ssb proteins than those of RecA wild-type protein. This is consistent with the suppressing ability of recA803. We found no evidence to contradict the previously proposed hypothesis that ssb-1 affects recombinational repair by acting as a weaker form of Ssb protein. We found, however, only very weak evidence that Ssb-113 protein interferes directly with recombinational repair so that the possibility that it interferes with a normal function of RecF protein must remain open.     

Ac/Ds transposon mutagenesis in Arabidopsis thaliana: mutant spectrum and frequency of Ds insertion mutants

Using a two-component Ac/Ds system consisting of a stabilized Ac element (Ac_c1) and a non-autonomous element (Ds_A), 650 families of plants carrying independent germinal Ds_A excisions/transpositions were isolated. Progenies of 559 of these Ac_c1/Ds_A families, together with 43 families of plants selected for excision/transposition of wild-type (wt)Ac, were subjected to a broad screening program for mutants exhibiting visible alterations. This resulted in the identification of 48 mutants showing a wide variety of mutant phenotypes, including embryo lethality (24 mutants), chlorophyll defects (5 mutants), defective seedlings (2 mutants), reduced fertility (5 mutants), reduced size (3 mutants), altered leaf morphology (2 mutants), dark green, unexpanded rosette leaves (3 mutants), and aberrant flower or shoot morphology (4 mutants). To test whether these mutants were due to transposon insertions, a series of Southern blot experiments was performed on 28 families, comparing in each case several mutant plants with others showing the wild-type phenotype. A preliminary analysis revealed in 4 of the 28 families analyzed a common, novel Ds_A fragment in all mutant plants, which was present only in heterozygous plants with wt phenotype, as expected for Ds_A insertion mutations. These four mutants included two showing embryo lethality, one with dark green, unexpanded rosette leaves and stunted inflorescences, and one with curly growth of stems, leaves and siliques. Further evidence for Ds_A insertion mutations was obtained for one embryo lethal mutant and for the stunted mutant, while in case of the second embryo lethal mutant, the Ds_A insertion could be separated from the mutant locus by genetic recombination.     

大肠杆菌碱性磷酸酶的体外定向进化研究

大肠杆菌碱性磷酸酶（E.coli alkaline phosphatase, EAP, EC 3.1.3.1）是一个非特异性二聚体磷酸单酯酶. 采用易错聚合酶链反应(error prone PCR)的方法,在原有高活力突变株的基础上,对EAP远离活性中心催化三联体的区域进行定向进化,经两轮error prone PCR,获得催化活力较亲本D101S突变株提高3倍、较野生型酶提高35倍的进化酶4-186,并对该酶的催化动力学特征进行了分析. 进化酶基因的DNA测序表明4-186含两个有义氨基酸置换：K167R和S374C,二者既不位于底物结合位点,也不位于酶的金属离子结合位点.     

Xylanase XYL1p from Scytalidium acidophilum: Site-directed mutagenesis and acidophilic adaptation

The role of residues Asp60, Tyr35 and Glu141 in the pH-dependent activity of xylanase XYL1p from Scytalidium acidophilum was investigated by site-directed mutagenesis. These amino acids are highly conserved among the acidophilic family 11 xylanases and located near the catalytic site. XYL1p and its single mutants D60N, Y35W and E141A and three combined mutants DN/YW, DN/EA and YW/EA were over-expressed in Pichia pastoris and purified. Xylanase activities at different pH’s and temperatures were determined. All mutations increased the pH optimum by 0.5–1.5 pH units. All mutants have lower specific activities except the E141A mutant that exhibited a 50% increase in specific activity at pH 4.0 and had an overall catalytic efficiency higher than the wild-type enzyme. Thermal unfolding experiments show that both the wild-type and E141A mutant proteins have a T_m maximum at pH 3.5, the E141A mutant being slightly less stable than the wild-type enzyme. These mutations confirm the importance of these amino acids in the pH adaptation. Mutant E141A with its enhanced specific activity at pH 4.0 and improved overall catalytic efficiency is of possible interest for biotechnological applications.     

Expression of a dominant negative allele of cdc2 prevents activation of the endogenous p34cdc2 kinase

Summary The cdc2 gene of the fission yeast Schizosaccharomyces pombe encodes a 34 kDa phosphoprotein with serine/threonine protein kinase activity that acts as the key component in regulation of the eukaryotic cell cycle. We used a repressible promoter fused to the cdc2 cDNA to isolate conditionally dominant negative mutants of cdc2. One of these mutants, DL5, is described in this paper. Overexpression of the mutant protein in a wild-type cdc2 background is lethal and confers cell cycle arrest with a typical cdc phenotype. Sequencing of the mutant cdc2 gene revealed a single amino acid substitution in a region highly conserved in cdc2-like proteins. The mutant protein exhibits no protein kinase activity, but is able to bind a component(s) required for an active protein kinase complex and thereby prevents binding of this component(s) to the co-existing wild-type cdc2 protein. We also demonstrate that S. pombe p34^cdc2 contains no phosphoserine.     

低H~+_-ATPase活性植物乳杆菌突变菌筛选及基因表达的相对定量分析

【目的】筛选H~+_-ATPase活性降低的植物乳杆菌突变菌,比较其与亲本菌基因表达水平的差异,进一步探索H~+_-ATPase的调控机制。【方法】利用硫酸新霉素诱变、筛选突变菌,并对亲本菌(ZUST)和突变菌(ZUST-1、ZUST-2)进行生长、产酸能力及H~+_-ATPase活性的测定。分别提取亲本菌和突变菌的基因组DNA,扩增H~+_-ATPase全部编码基因并测序。通过荧光定量PCR对H~+_-ATPase全部编码基因进行相对定量分析。【结果】突变菌的生长和产酸能力均低于亲本菌,突变菌ZUST-1和ZUST-2的H~+_-ATPase活性比亲本菌分别降低了10.1%和28.8%。突变菌ZUST-1和ZUST-2的atp A基因均有22个位点发生突变,而ZUST-2的atp C基因有6个位点发生突变。突变菌ZUST-1和ZUST-2的atp A在对数期基因表达水平分别比亲本菌ZUST下调了41.1%和35.7%,在稳定期分别下调了43.6%和14.2%;ZUST-1的atp C基因在对数期的表达水平比ZUST略高,在稳定期比ZUST上调了30%,而ZUST-2的atp C基因未表达。【结论】突变菌H~+_-ATPase活性减弱会导致其全部编码基因在稳定期表达水平上调(除ZUST-2的atp C不表达外),而且atp A和atp C基因突变导致的基因表达水平的差异是影响H~+_-ATPase活性的主要因素,此研究结果为进一步研究植物乳杆菌中H~+_-ATPase的调控机制奠定了基础。     

Identification of two new genes,mukE andmukF, involved in chromosome partitioning inEscherichia coli

We have previously reported that the MukB protein is essential for chromosome partitioning inEscherichia coli and thatmukB mutants produce anucleate cells and are temperature-sensitive for colony formation. ThemukB gene maps at 21 min on theE. coli chromosome andsmtA-mukF-mukE-mukB genes might comprise an operon, which is transcribed in a clockwise direction. Here, we report thatmukF andmukE null mutants are both temperature-sensitive for colony formation and produce anucleate cells even at the permissive temperature. These phenotypes are the same as those observed in themukB null mutant. The primary sequence of MukF includes a leucine zipper structure and an acidic domain. Mutational analysis revealed that both are required for MukF function. When the MukF protein was overproduced in the wild-type strain, anucleate cells were produced. In contrast, overproduction of either MukE or MukB did not cause the defect. In null mutants for themukF, mukE, andmukB genes, the synchronous initiation of chromosome replication was not affected. The mini-F plasmid was as stably maintained in these mutants as in the wild-type strain. These results indicate that the MukF, MukE, and MukB proteins are involved in the chromosome partitioning steps, but are not required for mini-F plasmid partitioning.     

The dominant mutation Suppressor of black indicates that de novo pyrimidine biosynthesis is involved in the Drosophila tan pigmentation pathway

A deficiency in the production of -alanine causes the black (b) phenotype of Drosophila melanogaster. This phenotype is normalized by a semi-dominant mutant gene Su(b) shown previously to be located adjacent to or within the rudimentary (r) locus. The r gene codes for three enzyme activities involved in de novo pyrimidine biosynthesis. Pyrimidines are known to give rise to -alanine. However, until recently it has been unclear whether de novo pyrimidine biosynthesis is directly coupled to -alanine synthesis during the tanning process. In this report we show that flies carrying Su(b) can exhibit an additional phenotype, resistance to toxic pyrimidine analogs (5-fluorouracil, 6-azathymine and 6-azauracil). Our interpretation of this observation is that the pyrimidine pool is elevated in the mutant flies. However, enzyme assays indicate that r enzyme activities are not increased in Su(b) flies. Genetic mapping of the Su(b) gene now places the mutation within the r gene, possibly in the carbamyl phosphate synthetase (CPSase) domain. The kinetics of CPSase activity in crude extracts has been studied in the presence of uridine triphosphate (UTP). While CPSase from wild-type flies was strongly inhibited by the end-product, UTP, CPSase from Su(b) was inhibited to a lesser extent. We propose that diminished end-product inhibition of de novo pyrimidine biosynthesis in Su(b) flies increases available pyrimidine and consequently the -alanine pool. Normalization of the black phenotype results.     

Isolation and characterization of temperature-sensitiveplc1 mutants of the yeastSaccharomyces cerevisiae

ThePLC1 gene of the yeastSaccharomyces cerevisiae has been discovered to encode a homolog of mammalian phosphoinositide-specific phospholipase C (PLC). Five temperature-sensitiveplc1 mutants were isolated by in vitro mutagenesis with subsequent plasmid shuffling. All of the amino acid substitutions that caused a temperature-sensitive growth phenotype were located in the X or the Y region, both of which are conserved among PLC isoenzymes. The PLC activity of all products of mutantplc1 genes was dramatically lower than that of the wild-type product, indicating that PLC activity itself is important for cell growth. At the restrictive temperature,plc1 mutant cells ceased growth at random times during the cell cycle, a result that suggests thatPLC1 is required at several or all stages of the cell cycle.     

地毯草黄单胞菌双组分系统VgrS-VgrR基因敲除及表型筛选

【目的】研究地毯草黄单胞菌双组分系统VgrS-VgrR与致病性的关系,为木薯细菌性病害的高效防控提供分子生物学证据。【方法】采用同源重组方法构建vgrS和vgrR的插入失活突变体,用可移动的cosmid载体p HM1构建互补菌株。检测突变体的致病性、细菌游动性、胞外酶、胞外多糖的变化,观察细菌对H_2O_2和金属离子胁迫的反应。【结果】相比野生型菌株,vgrS和vgrR突变体接种寄主植物木薯后致病力显著降低,突变体的游动性减少、蛋白酶活性减弱、H_2O_2耐受性降低,在高浓度金属离子Fe²⁺、Fe³⁺、Cu²⁺、Ni²⁺、Zn²⁺、Co²⁺的胁迫条件下菌体生长显著减弱。然而,vgrS和vgrR突变体的胞外多糖含量显著升高,分别是野生型的2.14和1.89倍。【结论】阐明了VgrS-VgrR系统在细菌致病过程中发挥的重要作用,为鉴定VgrS-VgrR调控机制提供线索,为药物筛选提供靶向目标。     

New tools for mitochondrial genetics of Chlamydomonas reinhardtii: manganese mutagenesis and cytoduction

Summary A novel and efficient genetic procedure is described for generating mitochondrial mutants of the green alga Chlamydomonas reinhardtii. The development of a mutagenesis procedure using manganese cations and the application of cytoduction techniques resulted in a combined approach for the generation and analysis of mitochondrial mutants. Although mitochondrial mutations are inherited in sexual crosses from the minus mating type parent, the cytoduction technique can be used to transfer mitochondrial mutations into recipient strains with different genetic backgrounds, irrespective of their mating type. Cytoduction allows the transfer of mitochondrial markers from diploid to haploid cells also, which is of great benefit since diploid cells do not germinate in C. reinhardtii. We report here the isolation and characterisation of eight mutants, which are resistant to the antibiotics myxothiazol and mucidin. The mutants all have point mutations in the mitochondrial gene for apocytochrome b. Using in vitro-amplified cytb gene fragments as probes for direct DNA sequencing, three different types of single base pair substitutions were revealed in all mutants tested. In particular, amino acid substitutions in the mutant apocytochrome b polypeptide have been identified at residues 129, 132 and 137, which have been implicated in forming part of an antibiotic-binding niche. The amino acid substitution at position 132 has not been so far described for mutant apocytochrome b in any other organism, prokaryotic or eukaryotic. The genetic approach presented here confirms C. reinhardtii as a model system that is unique among plant cells.     

Biosynthesis of Proteus mirabilis Nuclease

The culture liquid and periplasm of Proteus mirabilis contained nuclease, an enzyme with DNase and RNase activities. The nuclease was most actively synthesized in the early exponential and stationary growth phases. Nuclease synthesis was regulated by nucleic acids (induction by substrate) and inorganic phosphate (end-product inhibition). The synthesis and secretion of nuclease by P. mirabilis was induced by mitomycin C, an inducer of the SOS functions of cells. This suggests the involvement of SOS-response proteins in the regulation of nuclease synthesis.     

苏云金芽胞杆菌dxr1基因的转录受SigH控制

【目的】萜类化合物广泛分布在生物界,是重要的生命物质。目前发现有两条萜类化合物的生物合成途径,即甲羟戊酸(MVA)途径和2-甲基-D-赤藓糖醇-4-磷酸(MEP)途径。MEP代谢途径中的关键酶1-脱氧-D-木酮糖-5-磷酸还原异构化酶(DXR,EC1.1.1.267)催化1-脱氧-D-木酮糖-5-磷酸生成MEP。枯草芽胞杆菌中dxr基因编码DXR酶,而在苏云金芽胞杆菌(Bacillusthuringiensis,Bt)中有2个基因(dxr1和dxr2)编码DXR酶。通过分析BtHD73菌株的dxr1基因的转录活性和dxr1突变体表型,明确dxr1基因的转录调控机制和功能。【方法】通过5?RACE分析dxr1的转录起始位点;β-半乳糖苷酶活性测定分析dxr1基因启动子(Pdxr1)的转录活性;采用同源重组技术分别敲除BtHD73菌株的dxr1和dxr2基因;利用总蛋白定量确定Cry1Ac蛋白产量;利用DXR检测试剂盒检测Bt菌株的DXR活性。【结果】dxr1基因的转录起始位点位于起始密码子上游39 bp处的G碱基;与出发菌株HD73相比,Pdxr1在sig H突变体中的转录活性明显降低;dxr1或dxr2基因的缺失对菌体生长、芽胞形成率和Cry1Ac蛋白产量无显著影响,但使DXR活性下降。【结论】Bt中dxr1基因的转录受Sig H控制,dxr1基因的缺失影响DXR的活性。     

Analysis of the phenotypes exhibited by rudimentary-like mutants of Drosophila melanogaster

Flies mutant for one or both of the last two enzymes of de novo pyrimidine biosynthesis express a number of phenotypes that are also expressed by mutants of the first four pathway enzymes (r and Dhod-null mutants). However, r-1 flies also express two phenotypes, mottled eyes and poor viability, that are not usually expressed by r and Dhod-null flies. Chemical determinations show that orotic acid, a substrate for the fifth pathway enzyme, accumulates in r-1 individuals but not in r and wild-type individuals. Moreover, flies simultaneously mutant for r and r-1 do not express the mottled-eye phenotype, showing that r is epistatic to r-1 for this r-1-specific phenotype. When genotypically wild-type flies are cultured on a medium containing 6-azauracil, the base of a potent inhibitor of the last enzyme of de novo pyrimidine biosynthesis, phenocopies are obtained that include the mottled-eye as well as the wing phenotypes of r-1 flies. These results support hypotheses that the phenotypes common to r, Dhod-null, and r-1 flies are consequences of uridylic acid deficiency, whereas the r-1-specific phenotypes result from orotic acid accumulation in flies lacking either or both of the last two enzymes of de novo pyrimidine biosynthesis.This research was supported by NSF Research Grant PCM 78-14164, an NSF predoctoral fellowship award to T. Conner, and an NIH research career development award to J. Rawls.