棘孢木霉ACCC30536葡聚糖酶基因的克隆及表达

以棘孢木霉(Trichoderma asperellum)ACCC30536菌株为试材,采用聚合酶链式反应(PCR)技术克隆获得葡聚糖酶GH71基因的全长c DNA序列。结果表明:此基因的c DNA编码区序列全长1 296 bp,编码区可编码431个氨基酸。经Blast P相似性分析,其属于GH99~GH71超家族,与深绿木霉(T.atroviride)氨基酸序列XP_013941146的同源性最高,达到94%。7种不同诱导条件下,GH71基因的表达量变化明显。在2种病原菌细胞壁的诱导下,GH71基因的表达均呈先上升后下降又上升的趋势,在培养的12 h时达到最大值,分别为未诱导时的24.3倍和23.9倍。而在这2种病原菌发酵液的诱导下,GH71基因的表达均呈先下降后上升的趋势。在山新杨茎与叶的诱导下,GH71基因的表达量在24 h最大,分别为未诱导的25.4倍和25.2倍;在山新杨根的诱导下,GH71基因的表达量在48 h达到最大,是未诱导的28.1倍。     

培养基组成对里氏木霉合成纤维素酶的影响

研究了碳源种类及比例、氮源种类及比例、碳氮比和添加物等对里氏木霉合成纤维素酶的影响.里氏木霉以含纤维素质量比为4:6的蒸汽爆破玉米秸秆和微晶纤维素为碳源,含氮素质量比为5:2的硫酸铵-尿素为氮源,C/N为6,添加4g/L黄豆粉和10g/L麸皮为主要成分的培养基合成纤维素酶,纤维素酶活力在培养132 h达到最大,滤纸酶活...     

木霉菌对苹果主要真菌病害的抑制及其在土壤中的定殖作用

以胶东半岛老的果园中土壤为试材,采用逐步稀释法,涂平板于孟加拉红培养基中,根据形态和分子方法鉴定分离木霉菌。分离出的木霉菌与苹果主要病害对峙培养在不同pH的培养基上,观察不同pH条件下,对真菌病害的抑制效果。土壤有机质和pH是目前胶东果园的主要问题,采用正交法设计,研究了不同的土壤条件对木霉菌生长的影响。结果表明:在不同pH条件下,木霉菌抑制苹果病原真菌的效果不同,木霉菌在不同的pH条件下对腐烂病(Valsa mali)和炭疽病(Colletotrichum gloeosporioides)均可以抑制,但对轮纹病(Physalospora piricola Nose)只有在pH 6.0时没有效果外,其它pH时都对轮纹病有抑制作用。在土壤pH 6.5和土壤有机质含量为75 g·kg^-1时,最有利于木霉菌定殖。同时还发现木霉菌对土壤的pH具有调节作用,无论在碱性条件下,还是酸性条件下,均可以使土壤pH趋于中性,另外木霉菌可以增加土壤有机质含量,特别是在高土壤有机质含量的情况下,增加更加显著。总之,分离出的木霉菌对苹果腐烂病、炭疽病和轮纹病抑制效果好。土壤pH和有机质含量对木霉菌的生长有影响,高土壤有机质含量和中性土壤有利于木霉菌定殖。另外,木霉菌能有效地改良土壤有机质含量和土壤pH。     

木霉菌和番茄叶面主要微生物间的关系

对番茄叶表分离到的几种真菌和木霉菌BTW41(T.atroviride)之间相互关系作了初步研究,研究发现木霉菌具有较强的营养竞争能力,几种叶面真菌和木霉菌混合处理叶片试验中,黑曲霉菌混合木霉菌的处理会影响木霉菌在番茄叶表的定殖,使木霉菌在番茄叶表的定殖量减少,而其它几种真菌未使木霉菌定殖量减少。     

木霉菌对抑制梨轮纹菌的生理特性研究

梨轮纹病菌被木霉菌感染后,多酚氧化酶(PPO)、过氧化氢酶(CAT)、过氧化物酶(POD)和超氧化物歧化酶(SOD)的活性最终下降;丙二醛(MDA)含量和超氧阴离子(O2-)产生速率上升。初步确定,梨轮纹病菌被木霉感染后,活性氧清除系统等被破坏,膜脂过氧化作用加强,是最终导致菌体受害的原因之一。     

Evolution of humic substances from unripe compost during incubation with lignolytic or cellulolytic microorganisms and effects on the lettuce growth promotion mediated byAzotobacter chroococcum

Some recalcitrant organic wastes, which contain a large proportion of lignin or cellulose, are not changed much by composting, and thus the effectiveness of the compost as fertilizer is usua.lly low. In this study, incubation of unripe compost with ligno-cellulolytic microorganisms —Trichoderma viride orBacillus spp. — was investigated to increase the degree of humification of the organic matter present, and improve ils quality as a soil amendment. High-performance liquid chromatography (HPLC) analyses together with humification indices and electrofocusing patterns were used to monitor the evolution of the humic substances during the incubation process. Plant growth effects exerted by Azotobacter chroococcum on lettuce plants growing on the previously incubated compost were affected by the length of incubation and by changes in the composition of humic substances. Higher organic matter content and better humification seem to be important factors for predictingA. chroococcum hebaviour in the rhizosphere.     

吸附法固定化绿色木霉(Trichoderma reesei)生长细胞

本文应用辐射技术,在纸表面复盖不同性质的高分子,以此作为固定化生长细胞的载体,吸附绿色木霉细胞,并测定了固定化绿色木霉细胞的纤维素酶活性。当纸复盖有3种亲水性均聚体poly-HEA、poly-HEMA,poly-HPMA和一种疏水性均聚体poly-A4G时,细胞被吸附在这4种载体上,并能产生纤维素酶,但是只有复盖poly-HPMA的载体固定化细胞的纤维素酶活性(FPA)高于游离细胞。当纸复盖不同组成的HEA-A-TMPT、HEMA-A-TMPT.HPMA-A-TMPT和A4G-A-TMPT的共聚体时,用这些载体固定化细胞的FPA均比复盖均聚体的增加。用复盖不同组成的poly(HPMA-A-TMPT)载体固定化细胞,其FPA均比游离细胞增加,最高的增加了60％。用复盖有50％:50％和75％:25％的poly(HEA-A-TMPT)共聚体载体固定化细胞,其FPA分别比游离细胞增加了70％和60％。FPA增加是由于吸附的细胞重量增加,而固定化细胞的重量与复盖于纸上的高分子的性质(例如含水量)有关,复盖的高分子含水量10％左右时,固定化细胞重量最高,在载体表面复盖适宜的高分子有利于细胞的吸附和生长。     

Single and double inoculation with Azospirillum/Trichoderma: the effects on dry bean and wheat

A plant growth-promoting rhizobacterium (Azospirillum brasilense Sp7) and a bio-control fungus, which can solubilize insoluble phosphorus (Trichoderma harzianum Rifai 1295-22), were evaluated for their single and combined effects on dry bean (Phaseolus vulgaris) and wheat (Triticum aestivum L.) grown in soil. A pot experiment with bean and a field experiment with both bean and wheat were established. In contrast to single inoculation of Trichoderma, the single inoculation of Azospirillum and the double inoculation did not significantly (P >0.05) increase nodule numbers and nodule mass at 45 days after planting in pot grown beans. However, the Azospirillum inoculation with supplementary phosphorus significantly (P <0.05) increased nodule mass. There were no significant (P >0.05) differences among the inoculation treatments for plant dry weight, total plant nitrogen, and total plant phosphorus at 45 days after planting in both pot and field experiments with bean. However, the combined inoculation and rock phosphate application at 1 Mg ha^–1 significantly (P <0.05) increased bean seed yield, total seed nitrogen and phosphorus in the bean field trial. This treatment more than doubled the mentioned properties compared to the control. The microbial inoculations, with the exception of the combined inoculation, significantly (P <0.05) increased total seed nitrogen, but never affected seed yield in the wheat field trial (P >0.05). The combined inoculation improves many plant and yield parameters and, therefore, has some advantages over single inoculation provided that rock phosphate was supplied at an amount not exceeding 1 Mg ha^–1. Higher rock phosphate application rates decreased many plant and yield parameters in our study.This work was carried out at Gaziosmanpaa University, Tokat, Turkey.     

Effect of biocontrol agents and biofertilizers on root rot,yield, harvest index and nutrient uptake of cassava (Manihot esculanta Crantz)

Cassava is an important subsidiary food and industrial raw material in the tropics. Root rot disease, caused by Phytophthora palmivora, poses a serious threat to cassava cultivation in Tamil Nadu, India. Field experiments (2008–09) were conducted to study the effect of biocontrol agents (Trichoderma spp. and Pseudomonas fluorescens) and biofertilizers (Azospirillum, vesicular–arbuscular mycorrhizal fungi and phosphorus-solubilizing bacteria) on root rot, yield, harvest index and nutrient uptake of cassava at two NPK rates. The design of the experiment was a split plot with two NPK rates, recommended and 50% recommended rate, as the main plot treatments and five biocontrol agents and biofertilizers as subplot treatments. The results clearly indicated that use of a bioinoculants consortium significantly reduced root rot infection/disease incidence over uninoculated controls. Azospirillum significantly improved the yield of cassava at 50% of the recommended rate of NPK. NPK rates had no significant impact on harvest index of cassava and Trichoderma and vesicular–arbuscular mycorrhizal fungi resulted in a higher harvest index even at 50% of the recommended NPK rate. Nitrogen, phosphorus and potassium uptake was significantly improved when treated with biofertilizers and/or a consortium.     

日本落叶松根腐病病原丝核菌拮抗菌的研究

日本落叶松根腐病是由立枯丝核菌(RhizoctoriasalaniKhn.)引起的一种危害严重的侵染性病害,它腐烂树根,传染蔓延迅速。该病原还同时严重危害苗木,引起苗木大量发生立枯病。为了寻求一种有效抑制该病害的方法,从花盆土中分离到1株木霉菌(Trichodenmasp),采用对峙法研究其对丝核菌的抑菌作用。结果表明:该木霉菌株对丝核菌有明显的拮抗作用。将该菌株用于日本落叶松育苗和移栽生产中,可预防和减轻根腐病的发生。