PGPR mediated management of stem blight of Phyllanthus amarus (Schum and Thonn) caused by Corynespora cassiicola (Berk and Curt) Wei

Bacillus subtilis (BSCBE4), Pseudomonas chlororaphis (PA23), endophytic P. fluorescens (ENPF1) inhibited the mycelial growth of stem blight pathogen Corynespora casiicola (Berk and Curt)Wei under in vitro. All these bacterial isolates produced both hydroxamate and carboxylate type of siderophores. But the siderophore production was maximum with the isolate ENPF1. Delivering of talc based formulation of BSCBE4 through seedling dip and foliar application effectively reduced stem blight disease incidence and increased the dry matter production under pot culture and field conditions. Application of BSCBE4, PA23 and ENPF1 increased the defense related enzymes such as peroxidase, polyphenol oxidase, chitinase and β-1,3 glucanase in P. amarus up to ten days after challenge inoculation with C. cassicola. Native gel electrophoretic analysis revealed that challenge inoculation of pathogen with BSCBE4 and PA23 induced both peroxidase and polyphnol oxidase isoforms.     

5,7-Dodecadien-1-ol: Candidate for the Sex Pheromone of the Pine Moth

Ferredoxin-nitrite reductase (EC 1.7.7.1), an enzyme which catalyzes the 6-electron reduction of nitrite to ammonia, has been isolated from Spinacia oleracea. The isolated enzyme was homogeneous by disc electrophoresis with polyacrylamide gel. The molecular weight of the enzyme was estimated to be 86,000 by Ultrogel AcA 34 gel filtration. In the oxidized form, the enzyme had absorption maxima at 278, 388 (Soret band), 573 (α band) and 690 nm, indicating that siroheme is directly involved in the catalysis of nitrite reduction. This absorption spectrum was modified by sulfite, hydroxylamine and cyanide. The enzyme exhibited electron paramagnetic resonance signals with g values of 6.9 and 5.2, which are characteristic of a high spin Fe³⁺ -siroheme in the molecule. These signals disappeared upon the addition of dithionite or nitrite. This isolated enzyme also contained four moles of labile sulfide and 7 g-atoms of iron per 86,000 g of protein.     

Purification and Properties of α-Glucosidase and Glucoamylase from Lentinus edodes (Berk.) Sing.

An α-glucosidase and a glucoamylase have been isolated from fruit bodies of Lentinus edodes (Berk.) Sing., by a procedure including fractionation with ammonium sulfate, DEAE-cellulose column chromatography, and preparative gel electrofocusing. Both of them were homogeneous on gel electrofocusing and ultracentrifugation. The molecular weight of α-glucosidase and glucoamylase was 51,000 and 55,000, respectively. The α-glucosidase hydrolyzed maltose, maltotriose, phenyl α-maltoside, amylose, and soluble starch, but did not act on sucrose. The glucoamylase hydrolyzed maltose, maltotriose, phenyl α-maltoside, soluble starch, amylose, amylopectin, and glycogen, glucose being the sole product formed in the digests of these substrates. Both enzymes hydrolyzed phenyl a-maltoside into glucose and phenyl α-glucoside. The glucoamylase hydrolyzed soluble starch, amylose, amylopectin, and glycogen, converting them almost completely into glucose. It was found that β-glucose was liberated from amylose by the action of glucoamylase, while α-glucose was produced by the α-glucosidase.

Maltotriose was the main α-glucosyltransfer product formed from maltose by the α-glucosidase.     

Properties of Crystalline α-Glucosidase from Mucor javanicus

Substrate and inhibitor specificities, and transglucosylation action of crystalline α-glucosidase from the mycelia of Mucor javanicus have been investigated. The enzyme hydrolyzed maltose, methyl-α-maltoside, and soluble starch liberating glucose, but little or not phenyl-α-glucoside, methyl-α-glucoside, sucrose, isomaltose, panose and dextran. The enzyme hydrolyzed phenyl-α-maltoside to glucose and phenyl-α-glucoside. The enzyme acted also as a glucosyltransferase when it was incubated with glucosyl donor such as maltose. Maltotriose was the principal transglucosylation product formed from maltose. The enzyme also catalyzed transglucosylation from maltose to riboflavin, pyridoxine, esculin and rutin. Tris and turanose inhibited the enzyme activity, but PCMB and EDTA did not. It is suggested that the enzyme activity is closely related to the histidine residue in the active center, from the inhibition experiments using diazonium-1-H-tetrazole and rose bengal.     

Lipids and Related Substances Inducing the Lipase Production by Candida paralipolytica

Properties of autolytic breakdown of rat skeletal muscle proteins in the alkaline pH range have been reported. The activity is almost exclusively localized in the myofibrillar fraction, but is not solubilized with Triton X-100. The activity is affected by the KCI concentration in the reaction mixture. In 0.6 M and the more concentrated KCI solutions, the maximum activity is attained. The optimum pH of the activity is in the range of pH 7.5～9.5, and the optimum temperature is between 47～57°C.

This autolytic activity seems to be different from catheptic activity which shows its optimum pH in the acid pH range. Moreover, though more than half of the catheptic activity of rat skeletal muscle is recovered in the myofibrillar fraction, the catheptic activity in the myofibrillar fraction can be removed from the fraction by the extraction with dilute saline solution containing Triton X-100.     

高温胁迫对不同热敏型辣椒同工酶及DNA甲基化的影响

分别以耐热型晚熟紫色辣椒‘7036’和热敏型早熟绿色辣椒‘9050’为材料,研究了40℃高温胁迫对其POD同工酶以及DNA甲基化表达的影响。结果显示:(1)在POD同工酶表达方面,未经高温胁迫的辣椒‘7036’比其它处理多出1条带,而同工酶活性在2种辣椒中呈现不同的变化趋势。(2)随着高温胁迫时间延长,辣椒‘7036’DNA无甲基化和全甲基化比率增加,半甲基化和总甲基化比率降低,而辣椒‘9050’只有高温处理7d(T_7)的甲基化水平变化与之类似,但半甲基化和全甲基化比率的绝对值远低于辣椒‘7036’。(3)高温处理7d的DNA甲基化模式中,辣椒‘7036’去甲基化C型条带比率较高,辣椒‘9050’以超甲基化B型条带为主。实验表明,高温胁迫下紫色辣椒‘7036’的POD同工酶活性恢复,半甲基化水平大幅下降和全甲基化水平快速上升以及去甲基化等变化可能与其耐高温胁迫特性相关。     

Location of binding sites in small molecule rescue of human carbonic anhydrase II

Small molecule rescue of mutant forms of human carbonic anhydrase II (HCA II) occurs by participation of exogenous donors/acceptors in the proton transfer pathway between the zinc-bound water and solution. To examine more thoroughly the energetics of this activation, we have constructed a mutant, H64W HCA II, which we have shown is activated by 4-methylimidazole (4-MI) by a mechanism involving the binding of 4-MI to the side chain of Trp-64 approximately 8 A from the zinc. A series of experiments are consistent with the activation of H64W HCA II by the interaction of imidazole and pyridine derivatives as exogenous proton donors with the indole ring of Trp-64; these experiments include pH profiles and H/D solvent isotope effects consistent with proton transfer, observation of approximately fourfold greater activation with the mutant containing Trp-64 compared with Gly-64, and the observation by x-ray crystallography of the binding of 4-MI associated with the indole side chain of Trp-64 in W5A-H64W HCA II. Proton donors bound at the less flexible side chain of Trp-64 in W5A-H64W HCA II do not show activation, but such donors bound at the more flexible Trp-64 of H64W HCA II do show activation, supporting suggestions that conformational mobility of the binding site is associated with more efficient proton transfer. Evaluation using Marcus theory showed that the activation of H64W HCA II by these proton donors was reflected in the work functions w(r) and w(p) rather than in the intrinsic Marcus barrier itself, consistent with the role of solvent reorganization in catalysis.     

苹果属皱叶矮生型株系及其亲本和后代实生苗的过氧化物酶同工酶特性研究

以母本平邑甜茶1株、父本扎矮山定子1株、皱叶矮生型株系(F1)6株及其自然授粉后代实生苗(F2)15株为试材,采用聚丙烯酰胺凝胶电泳法研究叶片过氧化物酶同工酶谱的异同。结果表明:皱叶矮生型株系叶片的过氧化物酶同工酶酶谱共有10条酶带,R f值范围0.18~0.90,各植株间的酶带数量基本一致,只有强弱不同,与平邑甜茶酶谱的差异也很小。在皱叶矮生型株系的后代实生苗叶片中,除15 a单株有16条酶带外,其他实生苗的过氧化物酶同工酶酶谱约有10条酶带,但株间差异明显,R f值范围0.18~0.84。不同树龄平邑甜茶叶片的酶谱一致性较好。     

Isozyme evidence for three sibling species in the Anopheles sundaicus complex from Indonesia

Electrophoretic studies of isoenzymes in three chromosomally distinct forms (A, B and C) of the mosquito Anopheles sundaicus Theobald (Diptera: Culiciae) were undertaken on wild samples collected from six geographically isolated populations in Indonesia. Analyses of 12 enzyme systems comprising 15 loci revealed significant allelic variations, genetic polymorphism, within and among the populations of the An. sundaicus complex. Phylogenetic dendrograms produced by analysis using the Biosys-1 program based on UPGMA methods show that all the populations of form A fall into one cluster, which is closely related to the form C cluster, whereas the populations of form B belong to a more distinct cluster. Allelic frequency and Wright's F statistics of Mpi (mannose phosphate isomerase) are sufficient to identify individuals of each cytological form. This isozyme data correlates with our previous cytological evidence for the existence of three isomorphic species within the taxon An. sundaicus in Indonesia. These three species of the An. sundaicus complex were found together sympatrically at one locality, Asahan in North Sumatra.     

Molecular cloning of a cytosolic ascorbate peroxidase cDNA from cell cultures of sweetpotato and its expression in response to stress

A cDNA encoding a cytosolic ascorbate peroxidase (APX), swAPX1 , was isolated from cell cultures of sweetpotato (Ipomoea batatas) by cDNA library screening, and its expression in the context of various environmental stresses was investigated. swAPX1 contains an ORF of 250 amino acids (27.5 kDa) encoding a protein with a pI value of 5.32. The swAPX1 ORF does not code for a transit peptide, suggesting that the product is a cytosolic isoform. RNA blot analysis showed that swAPX1 gene is expressed in cultured cells and mature leaves, but not in stems, non-storage or storage roots of sweetpotato. The level of swAPX1 RNA progressively increased during cell growth in suspension cultures. In leaf tissues, the gene responded differentially to various abiotic stresses, as revealed by RT-PCR analysis. swAPX1 was highly induced in leaves by wounding, and treatment with methyl viologen (50 M), hydrogen peroxide (440 mM), abscisic acid (ABA; 100 M) or exposure to high temperature (37°C). In addition, the gene was strongly induced in the leaves following inoculation with a bacterial pathogen (Pectobacterium chrysanthemi). These results indicate that swAPX1 may be involved in hydrogen peroxide-detoxification and thus help to overcome the oxidative stress induced by abiotic and biotic stresses.Communicated by G. Jürgens