果实表达PGIPs的基因克隆及功能研究进展

多聚半乳糖醛酸酶(PGs)是病原真菌早期侵染植物的一个重要致病因子。多聚半乳糖醛酸酶抑制蛋白(PGIPs)作为植物防御蛋白,能特异性抑制真菌分泌的多聚半乳糖醛酸酶,并通过延长寡聚半乳糖醛酸(OGs)的稳定期激活植物防御反应。综述PGIPs在植物细胞中的定位,PGIPs与PGs之间的作用方式,PGIPs基因的分离与克隆,以及PGIPs对果实感病的影响,并对PGIPs的研究前景进行展望。     

真菌果胶酶的分子生物学研究进展

近10年来国外在果胶酶分子生物学研究上取得了重大进展,从11个属的真菌克隆了50个以上的基因并测序。对果胶酶基因的结构、功能、调控、录译后加工等方面进行了深入探讨。已克隆的果胶酶基因以多聚半乳糖醛酸酶(PG)基因和果胶裂解酶(PL)基因为主,也有果胶酯酶(PE)基因和鼠李半乳糖醛酸酶(RHG)基因,大多有内含子。前体蛋白一般有N信号肽和糖基化位点。果胶酶一般受果胶、低浓度的(01%)D半乳糖醛酸等诱导,而受较高浓度(1%)的半乳糖醛酸、抗体、某些抗菌素抑制。     

真菌多聚半乳糖醛酸酶研究进展

真菌多聚半乳糖醛酸酶是降解植物细胞壁果胶的主要降解酶之一,是植物病原真菌的致病因子之一。文中对真菌多聚半乳糖醛酸酶及其序列特征、多聚半乳糖醛酸酶的基因及其序列特征、多聚半乳糖醛酸酶的表达调控以及与病原真菌致病力之间的关系等方面进行了综述。     

小麦内切多聚半乳糖醛酸酶抑制蛋白的分离纯化研究

小麦内切多聚半乳糖醛酸酶抑制蛋白的分离纯化研究郑远旗,杨宗剑,李建吾,周立,吴文莲（四川大学生物系,成都６１００６４）余露（中国科学院成都生物研究所,成都６１００４１）关键词内切多聚半乳糖醛酸酶抑制蛋白;内切多聚半乳糖醛酸酶;纯化;小麦内切多聚半乳糖...     

重组菌产碱性果胶酯裂解酶酶学性质研究

利用盐析-透析-色谱流程建立快速高效纯化工程菌E.coli JM109(pHsh PL)所产碱性果胶酯裂解酶(PL)的方法,纯化后酶达到电泳纯,比酶活为1079U/mg.重组菌所产PL酶促反应适宜的pH为9～10,适宜温度为50～66 ℃,与酶基因来源野生菌所产PL相比,重组菌所产PL适宜pH范围有所扩大,并保持了野生菌PL的热稳定性.通过金属离子种类、浓度及存在时间对PL酶活力影响考察发现:在考察的离子中除Mg2 对酶活有较好的促进作用外,其余对重组菌PL均有抑制作用,其中Fe2 对酶活力抑制作用最强.该酶的Km值为20.93 mg/L,Vmax为105.3 μmol/min,反应活化能Ea为21.74 kJ/mol.对重组菌所产PL热稳定动力学进行分析,发现有底物情况下的失活常数kd(0.02 min-1)小于无底物情况下的失活常数kd(0.0342 min-1),说明当酶与底物结合形成复合物时对酶活具有保护作用.利用HPLC-ESI-MS对重组菌所产PL酶解产物进行测定发现,产物含有不饱和二聚半乳糖醛酸(m/z 350.82)和不饱和三聚半乳糖醛酸(m/z 527.04),同时测定结果中没有发现不饱和半乳糖醛酸单体(m/z 175),可以初步推测重组菌PL不能以不饱和二聚半乳糖醛酸和不饱和三聚半乳糖醛酸为底物进一步裂解.     

1-甲基环丙烯(1-MCP)对油桃果实软化的影响

1-甲基环丙烯(1-MCP)可延缓油桃果实硬度的下降,阻止引起果实软化的细胞物质(淀粉、纤维素、果胶)的降解,抑制与果实软化相关的酶(淀粉酶、纤维素酶、多聚半乳糖醛酸酶)活性。     

Endo-PG诱导培养小麦细胞PGIP产生的研究

内切多聚半乳糖醛酸酶（endo-polygalacturonase,endo-PG）是待异水解细胞壁成分多聚半乳糖醛酸的酶,水解产生的10～13个糖基的寡聚半乳糖醛酸片段是活性诱导因子,激活植物自身防御系统．我们已研究发现单子叶植物小麦中存在多聚半乳糖醛酸酶抑制蛋白（polygalacturonaseinhibitingprotein,PGIP）,并已将其分离纯化,对其性质作了初步研究[1,2]文献报导[3]PGIP是在未分化的细胞中合成的．本文报导在悬浮培养的小麦细胞中加入Endo-PG观察其PGIP的生成,比较赤霉病的高抗品种与低抗品种中PGIP的合成情况,探讨PGIP与植物防御作…     

青霉菌聚半乳糖醛酸酶基因在毕赤酵母中的表达及酶学性质研究

筛选得到一株能分解果胶的青霉菌(Penicillium sp.),使用简并引物PCR和TAIL-PCR方法从该菌中克隆了一个聚半乳糖醛酸酶基因pgp1.pgp1基因全长1 225 bp,包含2个内含子,其cDNA全长1 104 bp,编码367个氨基酸和一个终止密码子,前18个氨基酸为信号肽序列.将pgp1基因连接pPIC9载体,在巴斯德毕赤酵母表达系统中进行了异源表达.在3L发酵罐水平,培养基中聚半乳糖醛酸酶活力达到700 U/mL.酶学性质测定表明,重组酶蛋白PGP1的最适pH为5.0,在pH4.0 -6.0下处理1h后,剩余酶活力超过90％;最适温度为38℃,以聚半乳糖醛酸为底物,PGP1的Km=(1.172±0.169)mg/mL,Vmax=(0.061±0.002) mg/min/mL.     

栗疫病菌不同毒力菌株胞外酶活性和草酸产量的比较

对栗疫病菌不同毒力菌株产生胞外酶的种类、活性和草酸产量以及草酸对多聚半乳糖醛酸酶水解聚果胶酸钙的影响进行了研究。所有供试菌株均未能检测到淀粉酶活性。栗疫病菌在培养中可分泌漆酶,多聚半乳糖醛酸酶、蛋白酶、纤维素酶和脂酶,但不同毒力菌株产生这些酶的能力不同。总的来说,强毒力菌株均可分泌这些酶,且活性强,但弱毒力菌株的酶活性较弱或不分泌这些酶。菌丝产量和草酸产量分析表明,强毒力菌株的草酸产量明显高于弱毒力菌株。菌丝产量与草酸产量没有相关性。在没有草酸盐存在的条件下,多聚半乳糖醛酸酶不能降解聚果胶酸钙。     

花椒和川黄柏精油对水稻纹枯病菌形态和细胞壁降解酶的影响

采用菌丝生长速率法测定了两种芸香科植物花椒和川黄柏精油对水稻纹枯病菌菌丝生长的抑制中浓度(IC50)分别为0.24和2.35μL/mL.花椒和川黄柏精油对水稻纹枯病菌菌丝直径抑制作用不明显,但导致菌丝分支增多,菌丝分支间距明显变短.当花椒精油浓度为1.5μL/mL时,对菌丝产生的三种细胞壁降解酶:多聚半乳糖醛酸酶(PG)、果胶甲基半乳糖醛酸酶(PMG)和果胶甲基反式消除酶(PMTE)的活性抑制率分别达到95.12%、85.94%和100.00%;当黄柏精油浓度为20.0 μL/mL时,对以上这三种酶活性抑制率分别达到87.65%、86.70%和100.00%.     

Production of pectolytic and cellulolytic enzymes byfusarium oxysporum andF. moniliforme under different cultivation conditions

Six-day incubation was most suitable for production of pectolytic and cellulolytic enzymes byFusarium on different culture media. Czapek’s medium favoured maximum production of polygalacturonase (PG) and cellulase (C_x), peptone dextrose gave highest yields of pectin methyl galacturonase (PMG) withF. oxysporum. Cole’s medium was found to be poor for the enzyme production by both organisms. A positive correlation was observed between the growth rate of the pathogenic forms and their enzyme production. InF. oxysporum the PG secretion was maximum at pH 4.5 and inF. moniliforme at pH 5.0. PMG production optimum was at pH 5.5. No PG and PMG were produced above pH 7. InF. oxysporum the C_x activity was highest at pH 5.5 and inF. moniliforme at pH 4.5. Maximum PG and PMG activities were recorded at 35 °C in both pathogens. The C_x activity of both organisms was maximum at 45 °C but some carboxymethyl cellulose hydrolysis was found even at 60 °C.     

Assessment of the biomass hydrolysis potential in bacterial isolates from a volcanic environment: biosynthesis of the corresponding activities

The biomass degrading enzymatic potential of 101 thermophilic bacterial strains isolated from a volcanic environment (Santorini, Aegean Sea, Greece) was assessed. 80?% of the strains showed xylanolytic activity in Congo Red plates, while only eight could simultaneously hydrolyze cellulose. Fifteen isolates were selected on the basis of their increased enzyme production, the majority of which was identified as Geobacilli through 16S rDNA analysis. In addition, the enzymatic profile was evaluated in liquid cultures using various carbon sources, a procedure that revealed lack of correlation on xylanase levels between the two cultivation modes and the inability of solid CMC cultures to fully unravel the cellulose degrading potential of the isolates. Strain SP24, showing more than 99?% 16S DNA similarity with Geobacillus sp. was further studied for its unique ability to simultaneously exhibit cellulase, xylanase, β-glucosidase and β-xylosidase activities. The first two enzymes were produced mainly extracellularly, while the β-glycosidic activities were primarily detected in the cytosol. Maximum enzyme production by this strain was attained using a combination of wheat bran and xylan in the growth medium. Bioreactor cultures showed that aeration was necessary for both enhanced growth and enzyme production. Aeration had a strong positive effect on cellulase production while it negatively affected expression of β-glucosidase. Xylanase and β-xylosidase production was practically unaffected by aeration levels.     

马铃薯干腐病菌硫色镰孢的生物学特性

从碳源、氮源、酸碱度及生长温度等方面对引起马铃薯干腐病的硫色镰孢Fusarium sulphureum的生物学特性进行了研究。结果表明,该病原菌在不同发育阶段对营养和环境条件的要求存在差异。在固体培养基上,菌落生长最佳碳源为葡萄糖、麦芽糖,最佳氮源为蛋白胨,pH8?为最佳;在液体培养基中,菌丝体生长以麦芽糖为最佳碳源,以硝酸钠为最佳氮源,pH6?为最佳;在分生孢子萌发阶段,在以羧甲基纤维素钠、蛋白胨和谷氨酸为碳、氮源的营养液中,分生孢子萌发率最高,最适pH 6–8。该病菌最适生长温度为25℃,分生孢子致死     

Identification of Mycelium-Associated Cellulase from Streptomyces reticuli

Among 180 Streptomyces strains tested, 25 were capable of hydrolyzing microcrystalline cellulose (Avicel) at 30°C. Streptomyces reticuli was selected for further studies because of its ability to grow at between 30 and 50°C on Avicel. Enzymatic activities degrading Avicel, carboxymethyl cellulose, and cellobiose were found both in the culture supernatant and in association with the mycelium and crystalline substrate. The bound enzymes were efficiently solubilized by repeated washes with buffer of low ionic strength (50 mM Tris hydrochloride [pH 7.5]) and further purified by fast protein liquid chromatography. A high-molecular-weight Avicelase of >300 kilodaltons could be separated from carboxymethyl cellulase (CMCase) and β-glucosidase activities (molecular mass, 40 to 50 kilodaltons) by gel filtration on Superose 12. The CMCase fraction was resolved by Mono Q anion-exchange chromatography into two enzymes designated CMCase 1 and CMCase 2. The β-glucosidase activity was found to copurify with CMCase 2. The purified cellulase components showed optimal activity at around pH 7.0 and temperatures of between 45 and 50°C. Avicelase (but not CMCase) activity was stimulated significantly by the addition of CaCl₂.     

Inhibitory effects of sodium silicate on the fungal growth and secretion of cell wall‐degrading enzymes by Trichothecium roseum

Trichothecium roseum causes decay in muskmelons, apples, tomatoes and mangoes, which leads to economic losses. In this study, we investigated the effect of sodium silicate on the growth of T. roseum and the cell wall‐degrading enzymes (CWDEs) secreted by the hyphae. The results indicated that sodium silicate significantly inhibited mycelial growth and spore germination of T. roseum. The sodium silicate treatment also retarded the secretion of several CWDEs, including pectate lyase (PL), polygalacturonic acid transeliminase (PGTE), pectin methyltranseliminase (PMTE), pectin methylgalacturonase (PMG), polygalacturonase (PG), cellulase (Cx) and β‐glucosidase. These results suggest that sodium silicate exerts its effects on T. roseum through direct inhibition of its growth and secretion of CWDEs.     

Polymorphism of some glycosidases from barley

Barley grain extract displayed α-L-arabinosidase, β-fucosidase, β-galactosidase and β-glucosidase activities. Some of the glycosidases were separated from one another by Sephadex gel-filtration and CM-cellulose chromatography. The glycosidase types were more varied than reported by earlier workers. The multifunctional nature of some of the enzymes was demonstrated by inhibition studies, gel electrophoresis, pH and thermal stability studies.     

一株马铃薯干腐病拮抗菌的筛选、鉴定及其生物防效

【背景】马铃薯干腐病是一种由镰刀菌引起的田间和储藏期都普遍发生的病害,主要引起块茎腐烂,致使马铃薯品质和产量降低,严重影响其食用价值和经济价值。【目的】发掘有效的生防菌株以控制马铃薯干腐病,并探究其抑菌作用。【方法】从甘肃定西地区马铃薯根际土壤中分离到109株细菌,以硫色镰刀菌(Fusarium sulphureum)为靶标菌,采用平板对峙法筛选拮抗菌,并通过形态学、生理生化特征及16S r RNA基因序列分析对拮抗菌株进行鉴定。检测拮抗菌无菌发酵液对F.sulphureum菌丝生长、孢子萌发、马铃薯块茎损伤接种病斑直径、干腐病发病率及对绿豆种子发芽的影响。【结果】筛选到一株对马铃薯干腐病有较强抑制作用的菌株YL11,经鉴定其为假单胞菌属(Pseudomonas sp.)菌株。YL11菌株无菌发酵液对F.sulphureum菌丝生长、孢子萌发、马铃薯块茎病斑扩展、干腐病发病率、毒素活性均有显著抑制作用。20%无菌发酵液对F.sulphureum菌落生长的抑制率达到87.3%;75%无菌发酵液可完全抑制孢子萌发;无菌发酵液浸泡能有效抑制马铃薯干腐病病斑的扩展,14 d时对病斑扩展的抑制率达到67.1%;90 d后干腐病的发生率降低了68.4%;同时降低了F.sulphureum毒素的活性。【结论】拮抗菌株YL11能显著抑制F.sulphureum的生长,对马铃薯干腐病有较强的生物防治效果,具有潜在的应用价值。     

Purification and characterization of three β-glycosidases exhibiting high glucose tolerance from Aspergillus niger ASKU28

Production and utilization of cellulosic ethanol has been limited, partly due to the difficulty in degradation of cellulosic feedstock. β-Glucosidases convert cellobiose to glucose in the final step of cellulose degradation, but they are inhibited by high concentrations of glucose. Thus, in this study, we have screened, isolated, and characterized three β-glycosidases exhibiting highly glucose-tolerant property from Aspergillus niger ASKU28, namely β-xylosidase (P1.1), β-glucosidase (P1.2), and glucan 1,3-β-glucosidase (P2). Results from kinetic analysis, inhibition study, and hydrolysis of oligosaccharide substrates supported the identification of these enzymes by both LC/MS/MS analysis and nucleotide sequences. Moreover, the highly efficient P1.2 performed better than the commercial β-glucosidase preparation in cellulose saccharification, suggesting its potential applications in the cellulosic ethanol industry. These results shed light on the nature of highly glucose-tolerant β-glucosidase activities in A. niger, whose kinetic properties and identities have not been completely determined in any prior investigations.     

Identification of a fungus able to secrete enzymes that degrade regenerated cellulose films and analyses of its extracellular hydrolases

The LW03 strain was isolated from Chinese farmland soil and found to be able to secrete certain enzymes degrading regenerated cellulose films at low temperature. The LW03 strain was systematically identified as Rhizopus arrhizus var. arrhizus by morphological, physiological, and molecular methods. Incubation of regenerated cellulose films with the extracted crude enzyme of LW03 was done to measure morphological changes by using scanning electron microscopy. Microscopic observations showed that the morphology of the regenerated cellulose films changed drastically due to enzymatic hydrolysis. The extracellular hydrolases of LW03 strain incubated on bran medium were also assessed. The predominant activity in the crude enzyme was glucoamylase activity, followed by acid proteinase, phytase and pectinase activity. Interestingly, activities of β-glucosidase, endoglucanase, exoglucanase, and cellulase were also observed, but at a much lower extent. Based on initial evidence, the crude enzyme is most likely to contain some new constituents capable of degrading regenerated cellulose films.