Selection of Ergot Alkaloid Producers by Induced Mutagenesis

Using the induced mutagenesis technique, a series of genetically modified Clavicepssp. VKM F-2609 strains that display high levels of agroclavine and elymoclavine synthesis were selected by induced mutagenesis. Compared to the parent strain, c106 displayed a 40-fold higher level of agroclavine synthesis, and c66 displayed an eightfold higher level of elymoclavine synthesis. The levels of synthesis of other alkaloids were decreased in these strains. The effects of various carbohydrates on the strain growth and ergot alkaloid biosynthesis was then investigated in both the parent strain and c106. The largest amount of agroclavine was synthesized by c106 strain growing on a medium with maltose.     

Biotransformation of ergot alkaloids by plant cell cultures with high peroxidase activity

Ergot alkaloids agroclavine and elymoclavine have been modified using plant cell cultures exhibiting high peroxidase activity. Setoclavine and isosetoclavine have been isolated from media after transformation of agroclavine on a semipreparative scale. 10-Hydroxyelymoclavine resulted from similar treatment of elymoclavine.     

Sugar and phosphate metabolism and alkaloid production phases in submerged cultures of two Claviceps strains

Summary In submerged cultures of Claviceps sp. CP II, elymoclavine was synthesized only by the growing mycelium (phase P1), whereas cultures of C. purpurea strain 129 produced agroclavine after vegetative growth had also ceased (phase P2). In strain CP II, the peak of activity of malate dehydrogenase, glucose-6-phosphate dehydrogenase and phosphatases was related to the time of maximum growth rate and alkaloid production. Citrate synthase activity paralleled the course of alkaloid synthesis. Strain 129 exhibited a further activity peak of the same magnitude during phase P2. ATP levels in both cultures corresponded to the pattern of change in enzyme activities. Strain CP II contained roughly twice as much orthophosphate and ATP in its cells as strain 129 and exhibited higher average activity of glucose-6-phosphate dehydrogenase. It follows from these results that alkaloid synthesis requires the processes of primary metabolism, even when it occurs after active growth of the culture has ceased. Cultures producing alkaloids oxidized at C-8 exhibit higher glucose-6-phosphate dehydrogenase activity, probably because of a higher NADPH consumption.     

hREV3 is essential for error-prone translesion synthesis past UV or benzo[a]pyrene diol epoxide-induced DNA lesions in human fibroblasts

In S. cerevisiae, the REV3 gene, encoding the catalytic subunit of polymerase zeta, is involved in translesion synthesis and required for the production of mutations induced by ultraviolet radiation (UV) photoproducts and other DNA fork-blocking lesions, and for the majority of spontaneous mutations. To determine whether hREV3, the human homolog of yeast REV3, is similarly involved in error-prone translesion synthesis past UV photoproducts and other lesions that block DNA replication, an hREV3 antisense construct under the control of the TetP promoter was transfected into an infinite life span human fibroblast cell strain that expresses a high level of tTAk, the activator of that promoter. Three transfectant strains expressing high levels of hREV3 antisense RNA were identified and compared with their parental cell strain for sensitivity to the cytotoxic and mutagenic effects of UV. The three hREV3 antisense-expressing cell strains were not more sensitive than the parental strain to the cytotoxic effect of UV, but the frequency of mutants induced by UV in their HPRT gene was significantly reduced, i.e. to 14% that of the parent. Two of these hREV3 antisense-expressing cell strains were compared with the parental strain for sensitivity to (±)-7β,8-dihydroxy-9,10-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene (BPDE). They were not more sensitive than the parent strain to the cytotoxic effect of BPDE, but the frequency of mutants induced was significantly reduced, i.e. in one strain, to 17% that of the parent, and in the other, to 24%. DNA sequencing showed that the kinds of mutations induced by BPDE in the parental and the derivative strains did not differ and were similar to those found previously with finite life span human fibroblasts. The data strongly support the hypothesis that hRev3 plays a critical role in the induction of mutations by UV or BPDE. Because the level of hRev3 protein in human fibroblasts is below the level of antibody detection, it was not possible to demonstrate that the decrease in mutagenesis reflected decreased hRev3 protein. However, the conclusion is supported by the fact that in a similar study with a strain expressing a high level of antisense hREV1, a very similar result was obtained, i.e. UV or BPDE mutagenesis was virtually eliminated.     

Optimization of Conditions for Storage and Cultivation of the Fungus Claviceps sp., a Producer of the Ergot Alkaloid Agroclavine

Conditions of agroclavine biosynthesis by the mutant Claviceps sp. strain c106 were studied. The content of agroclavine was maximum (1.5–2 g/l) on days 15–16 of cultivation in the complex medium T25, containing sucrose, citric acid, and yeast extract. Agroclavine was the major component of the alkaloid fraction (90–95%). Storage of the culture at –70°C in T25 supplemented by 7% glycerol provided a stable level of alkaloid formation.     

Physiological control and process kinetics of clavine alkaloid production byClaviceps purpurea

Summary Kinetic parameters of production of clavine alkaloids were evaluated in twoClaviceps purpurea strains. Mutagenesis brought about enhanced resistance of the biosynthetic system towards alkaloids. Addition of glucose into the fermentation medium altered the zero order kinetics of production to activation-inhibition kinetics. The glucose treatment allowed performance of both elymoclavine-inhibitionless and clavine alkaloid-decompositionless fermentations if a combination of fermentation and separation units in a closed loop was used.Nomenlacture k ₁ rate constant of agroclavine synthesis (mg Agro · mg Elymo/l·g DW·day for stage 1, mg Agro/g DW·day for stage 2) - k ₂ parameter describing inhibition of agroclavine formation rate by elymoclavine (mg Elymo/l) - k ₃ specific rate of agroclavine decay (l/g DW·day) - k ₄ maximal specific rate of elymoclavine synthesis (stage 1, 1/g DW·day, stage 2, mg Elymo/g DW·day) - k ₄ ^– maximal specific rate of elymoclavine synthesis in stage 1 (inhibition-activation mechanism) (mg Elymo/g DW·day) - k ₅ physiological constant describing the elymoclavine decay rate (l²/g DW·day·mg Elymo) - k ₅ ^– physiological constant describing the activation of elymoclavine biosynthesis by elymoclavine (mg Elymo/l) - k ₆ physiological constant describing the repression of elymoclavine biosynthesis by elymoclavine (mg Elymo/l) - k ₇ maximal specific growth rate (1/day) - k ₈ specific rate of biomass decay (l/g DW·day) - A agroclavine concentration (mg/l) - E elymoclavine concentration (mg/l) - r _A specific rate of agroclavine biosynthesis (mg Agro/g DW·day) - r _E specific rate of elymoclavine biosynthesis (mg Elymo/g DW·day) - r _i specific rate of alkaloid biosynthesis (mg alkaloid/g DW·day) - X dry biomass concentration (g/l) - specific growth rate (1/day) Abbreviations Agro agroclavine - Elymo elymoclavine - Chano chanoclavine - DW dry weight of biomass     

Screening and selection of exopolysaccharide-producing strains of Lactobacillus delbrueckii subsp. bulgaricus

AIMS: The selection of exopolysaccharide (EPS)-producing strains of Lactobacillus delbrueckii subsp. bulgaricus. METHODS AND RESULTS: Improved EPS-overproducing strains of L. delbrueckii subsp. bulgaricus were derived by chemical mutagenesis and selection. Initial screening of the chemically induced mutant pool relied primarily on the selection of strains with raised levels of lactic acid and reduced biomass formation. Supporting selection criteria used were ropiness and colonial mucoidy. Final screening of candidate strains undertaken in a semi-defined medium in batch culture, resulted in the selection of a mutant with a 35% improvement in specific EPS yield relative to the parent strain. CONCLUSIONS: Initial selection of mutants of L. delbrueckii subsp. bulgaricus on the basis of enhanced formation of lactate and reduced biomass formation, coupled with a ropy or mucoid phenotype, proved to be a satisfactory means of isolating strains with the potential for a higher level of specific EPS production than the parent strain. SIGNIFICANCE AND IMPACT OF THE STUDY: The assay protocol allowed for the selection of an EPS-overproducing strain of L. delbrueckii subsp. bulgaricus. Such strains are useful for the purposes of metabolic studies related to EPS-production.     

Optimization of conditions for storage and cultivation of the fungus Claviceps sp.--a producer of the ergot alkaloid agroclavine

Conditions of agroclavine biosynthesis by the mutant Claviceps sp. strain s 106 were studied. The content of agroclavine was maximum (1.5-2 g/l) on days 15-16 of cultivation in the complex medium T25, containing sucrose, citric acid, and yeast extract. Agroclavine was the major component of the alkaloid fraction (90-95%). Storage of the culture at -70 degrees C in T25 supplemented by 7% glycerol provided a stable level of alkaloid formation.     

Effects of clavines, ergot alkaloids, on the membrane potential of an identifiable giant neuron of the African giant snail Achatina fulica Ferussac

The effects of seven clavines, alkaloids of ergot, on the electrical activity of an identifiable giant neurone (TAN, tonically autoactive neurone) of the African giant snail were examined. All the substances examined, lysergine, agroclavine, elymoclavine, festuclavine, chanoclavine, rugulovasine A and rugulovasine B, at 2 X 10(-4) kg/l have no constant effect on TAN, indicating that they have no direct effect on this neurone. However, the substances examined, except for chanoclavine, in the same concentration occasionally caused the transient depression with an augmentation of trans-synaptic influences. This depression may be due to the trans-synaptic influences. The four substances examined, lysergine, agroclavine, elymoclavine and festuclavine, in the same concentration produced TAN abnormal spike discharges, doublet or triplet spikes.     

Isolation and characterization of pigment mutants from a filamentous cyanobacterium

Five strains of a pigment mutant were isolated following UV irradiation and N-methyl-N′-nitro-N-nitrosoguanidine (MNNG) mutagenesis from a non-nitrogen fixing mutant of the cyanobacteriumGloeotrichia ghosei. Two of them (B-1 and V-1) were isolated by UV mutagenesis and other three (B-3, B-7 and Br-6) by MNNG mutagenesis. Among the five strains cultures of three strains (B-1, B-3 and B-7) were typically blue-green in colour. Culture of strain V-1 was found to be violet-pink and of Br-6 was brownish in colour. The parent strain of these mutants was dark-blue in colour. Blue-green mutants showed the predominance of phycocyanin (610 nm) whereas violet-pink and brown strains showed the predominance of phycoerythrin (550 nm) in the absorption spectra of water-soluble pigments. In contrast to these strains their parent strain showed both the absorption peaks (at 550 and 610 nm). Occurrence of stable pigment mutants of a filamentous cyanobacterium indicates that the synthesis of water-soluble pigments is genetically controlled in these mutant strains.     

A new Penicillium echinulatum strain with faster cellulase secretion obtained using hydrogen peroxide mutagenesis and screening with 2-deoxyglucose

Aims: The aim of this study is to improve cellulase production and secretion by Penicillium echinulatum using mutagenesis and selection in association with microfermentation and microanalysis methods. Methods and Results: A new genetic variant was isolated from strain 9A02S1 and named S1M29. It was obtained by mutagenesis with H₂O₂ and two screening steps, which involved selection in Petri dishes using the medium supplemented with 2‐deoxyglucose and microfermentations in submerged culture. The mutant showed higher cellulase productivity than 9A02S1 based on the Filter Paper Activity assay and endoglucanase; the peak activities for these enzymes were reached significantly faster than for the parent strain. Conclusions: The mutant obtained after mutagenesis and selection could produce and secrete cellulase faster than the parent strain. Significance and Impact of the Study: Mutagenesis followed by selection is a useful tool for rapidly generating new cellulase‐producing phenotypes in fungi. Faster production and higher titers of cellulases in mutant strains contribute to reduce the production costs for enzymatic complexes that hydrolyse lignocellulose residues and form fermented syrups, thus contributing to the economic production of bioethanol.     

Protonophore-resistance and cytochrome expression in mutant strains of the facultative alkaliphile Bacillus firmus OF4.

Two protonophore-resistant mutants, designated strains CC1 and CC2, of the facultative alkaliphile Bacillus firmus OF4 811M were isolated. The ability of carbonyl cyanide m-chlorophenylhydrazone (CCCP) to collapse the protonmotive force (delta mu H+) was unimpaired in both mutants. Both resistant strains possessed elevated respiratory rates when grown at pH 7.5, in either the presence or absence of CCCP. Membrane cytochromes were also elevated: cytochrome o in particular in strain CC1, and cytochromes aa3, b, c and o in strain CC2. Strain CC2 also maintained a higher delta mu H+ than the others when grown in the absence of CCCP. When grown in the presence of low concentrations of CCCP, strains CC1 and CC2 both maintained higher values of delta mu H+ than the wild-type parent and correspondingly higher capacities for ATP synthesis. In large-scale batch culture at pH 10.5, both mutant strains grew more slowly than the parent and contained significantly reduced levels of cytochrome o. Cells of stran CC1 also displayed a markedly altered membrane lipid composition when grown at pH 10.5. Unlike previously characterized protonophore-resistant strains of B. subtilis and B. megaterium, neither B. firmus mutant possessed any ability above that of the parent strain to synthesize ATP at given suboptimal values of delta mu H+. Instead, both resistant alkaliphile strains maintained a higher delta mu H+ and a correspondingly higher delta Gp than the parent strain when growing in sublethal concentrations of CCCP, apparently as a result of mutational changes affecting respiratory chain composition. Also of note in both the mutant and the wild-type strains was a marked elevation in the level of one of the multiple terminal oxidases, an aa3-type cytochrome, during growth at pH 7.5 in the presence of CCCP or during growth at pH 10.5, i.e. two conditions that reduce the bulk delta mu H+.     

Inducible character of β‐xylanase in a hyperproducing mutant of Thermomyces lanuginosus

Ten strains of Thermomyces lanuginosus from various culture collections were evaluated for extracellular endo‐β‐1,4‐xylanase production. The best xylanase producer (5771±173 nkat/mL) T. lanuginosus SK, was subjected to UV and N‐methyl‐N‐nitro‐N‐nitrosoguanidine mutagenesis. A mutant strain T. lanuginosus MC134, that showed on oatspelts xylan a 1.5 fold higher xylanase production than the parent strain SK, was subjected to a study of the regulation of xylanase synthesis during growth on various carbohydrates and during induction in glucose‐grown cells. In the growth experiments the highest production of xylanase was observed in the presence of xylans, however, an appreciable amount of the enzyme, about 10%, was also produced during growth on xylose. Xylobiose was found to be the most efficient xylanase inducer in the glucose‐grown cells. Its induction efficiency was followed by xylose, beechwood and birchwood xylan. Xylanase induction by polysaccharides started several hours later but proceeded for a longer time than that induced by the low molecular mass inducers, indicating that the polysaccharides serve as more sustainable source of inducers and that they have to be first hydrolyzed by the low level of constitutively synthesized xylanase. The repression of the induction of xylanase by glucose confirmed that the xylanase synthesis in the mutant strain is similar to the parent strain and exhibits an induction‐repression regulation mechanism.     

一株新的产吡咯喹啉醌甲基营养菌全基因组测序和比较基因组学分析

【背景】由于甲基营养菌被发现的时间较短,而且可以生产吡咯喹啉醌(pyrroloquinoline quinone,PQQ)的甲基杆菌属细菌只有少数菌株的全基因组序列被公布,增加了该类细菌基因组学和生物代谢途径研究的难度。【目的】将本实验室筛选的PQQ生产菌经多种诱变方式处理,用于提高PQQ的发酵产量。对高产突变菌株进行全基因组解析,以探究甲基杆菌PQQ合成的分子机制,为后续分子育种提供序列背景信息。【方法】将野生型PQQ生产菌株进行紫外诱变、亚硝基胍诱变、甲基磺酸乙酯诱变、硫酸二乙酯诱变和紫外-氯化锂复合诱变。将突变菌株利用PromethION三代测序平台和MGISEQ-2000二代测序平台测序,然后进行组装和功能注释。组装得到的全基因组序列与模式菌株扭脱甲基杆菌AM1 (Methylobacterium extorquens AM1)进行比较基因组学分析。【结果】经11轮诱变获得一株突变菌株NI91,其PQQ产量为19.49 mg/L,相较原始菌株提高44.91%。突变菌株NI91的基因组由一个5 409 262 bp的染色体组成,共编码4 957个蛋白,与模式菌株M. extorquens AM1比较发现其PQQ合成过程中剪切加工相关的基因pqqF和pqqG缺失,但首次在甲基营养菌中发现与基因pqqF具有相似功能的基因pqqL,且基因pqqC/D的序列存在较大差异。【结论】为甲基营养类细菌甲基杆菌的功能基因组学研究及PQQ合成机理研究提供了基础数据支持,NI91与模式菌株M. extorquens AM1的比较基因组学分析为揭示PQQ合成的不同机理提供了分子基础。     

Comparison of ergot alkaloid biosynthesis gene clusters in Claviceps species indicates loss of late pathway steps in evolution of C. fusiformis

The grass parasites Claviceps purpurea and Claviceps fusiformis produce ergot alkaloids (EA) in planta and in submerged culture. Whereas EA synthesis (EAS) in C. purpurea proceeds via clavine intermediates to lysergic acid and the complex ergopeptines, C. fusiformis produces only agroclavine and elymoclavine. In C. purpurea the EAS gene (EAS) cluster includes dmaW (encoding the first pathway step), cloA (elymoclavine oxidation to lysergic acid), and the lpsA/lpsB genes (ergopeptine formation). We analyzed the corresponding C. fusiformis EAS cluster to investigate the evolutionary basis for chemotypic differences between the Claviceps species. Other than three peptide synthetase genes (lpsC and the tandem paralogues lpsA1 and lpsA2), homologues of all C. purpurea EAS genes were identified in C. fusiformis, including homologues of lpsB and cloA, which in C. purpurea encode enzymes for steps after clavine synthesis. Rearrangement of the cluster was evident around lpsB, which is truncated in C. fusiformis. This and several frameshift mutations render CflpsB a pseudogene (CflpsB(Psi)). No obvious inactivating mutation was identified in CfcloA. All C. fusiformis EAS genes, including CflpsB(Psi) and CfcloA, were expressed in culture. Cross-complementation analyses demonstrated that CfcloA and CflpsB(Psi) were expressed in C. purpurea but did not encode functional enzymes. In contrast, CpcloA catalyzed lysergic acid biosynthesis in C. fusiformis, indicating that C. fusiformis terminates its EAS pathway at elymoclavine because the cloA gene product is inactive. We propose that the C. fusiformis EAS cluster evolved from a more complete cluster by loss of some lps genes and by rearrangements and mutations inactivating lpsB and cloA.     

Effect of cultivation temperature,clomiphene, and nystatin on the oxidation and cyclization of chanoclavine in submerged cultures of the mutant strainclaviceps purpurea 59

Submerged cultures ofClaviceps purpurea 59 produce predominantly tricyclic chanoclavine and chanoclavine-I-aldehyde; formation of the tetracyclic agroclavine and elymoclavine is limited to 20%. The production cultures were characterized by the oxidation index o_i (100% chanoclavine/% chanoclavine) and cyclization index c_i (% agroclavine +% elymoclavine/% chanoclavine-I-aldehyde), expressing two functions of chanoclavine cyclase. Both indices were influenced by cultivation temperature and membrane agents. At 20°–24°C, clomiphene increased o_i and c_i; at 28°C and more it increased o_i only. At 24°C nystatin increased o_i and decreased c_i. During cultivation of vegetative inocula and production cultures at various temperatures (24°, 28°, and 33°C), the lower cultivation temperature of the inoculum increased c_i of the production culture with the higher temperature. The higher cultivation temperature of the inoculum decreased o_i and particularly c_i of the production culture with the lower temperature. In production cultures cultivated from the inoculum of an identical temperature, o_i decreased to 50% with increasing temperature above 24°C, whereas c_i decreased continuously. The role of the chanoclavine cyclase conformation as a membrane enzyme is discussed.     

The SOS-function-inducing activity of chemical mutagens in Escherichia coli

The SOS-function-inducing activities of 42 chemical mutagens were investigated in Escherichia coli K12. The induction of the SOS function was assayed by monitoring the beta-galactosidase activity in the sulA::lacZ fusion strain PQ37 . To correct for the inhibitory effects of test chemicals on mRNA or protein synthesis, the level of the constitutive alkaline phosphatase was assayed in parallel. Most of the mutagens reported to be mutagenic to the Ames' Salmonella tester strains showed the SOS-function-inducing activity. The inducible SOS repair may be responsible for not only base-change mutations but also frameshift mutations. However, 9-aminoacridine, ethidium bromide and 4-nitro-o-phenylenediamine did not induce the SOS function, suggesting that the mutagenesis induced by these mutagens may occur independently of SOS repair. Present results support the SOS mutagenesis model that error-prone SOS repair plays an important role in mutagenesis induced by most chemical mutagens.     

Genetic heterogeneity of heat shock protein synthesis as a factor determining the resistance to stressors in mammalia

The relationship between the levels of 70 kDa family heat shock protein (Hsp) synthesis and lymphocyte sensitivity to stressors was investigated. Lymphocyte cultivation in mitogen deprived culture medium and/or the cell treatment with alkylating agents have been used as a stress challenge. Model experiments with two inbred murine strains genetically contrasting by the sensitivity to alkylating agents demonstrated that the basic level of Hsp synthesis depends on genotype. The quantity Hsp70 mRNA, as well as intracellular level of the proteins, in BALB/c was significantly higher than those in C57BL/6 mice. The mice, which were characterized by higher Hsp levels, demonstrated higher resistance to alkylating agent action. The induction of surplus amount of Hsp by heat shock increased the cell resistance to an alkylating agent melphalan. Lymphocyte isolated from high Hsp producers BALB/c mice were more resistant to apoptotic signals induced by mitogen deprivation.