柱状田头菇生长发育中9种胞外酶活性的测定

柱状田头菇Agrocybe aegerita作为一种新开发的食用菌,越来越受到消费者的喜爱和研究者的关注,但在其栽培生产中遇到的产量相对较低的问题,一直未能得到很好的解决,致使柱状田头菇的栽培难以得到大规模的推广。本研究对不同来源的柱状田头菇在其6个不同生长发育阶段中,9种与培养料中主要组分分解相关的胞外酶活性的变化进行了测定,结果表明：柱状田头菇属褐腐菌,对非木质纤维素的利用能力最强,对纤维素的利用能力较强,对木质素的利用能力较差,但柱状田头菇具有漆酶活性。     

培养温度对滑菇子实体阶段胞外纤维素酶活性的影响

本文研究了培养温度对滑菇子实体形成期间胞外羧甲基纤维素酶活性的影响。实验结果表明:1,低温(9—11℃)培养,菌丝体能分化形成子实体,并且在子实体担孢子释放期左右,培养物中有CMC酶活性高峰出现,酶峰期活力为40—100u左右。2、在23—25℃培养300天期间,培养物不能形成子实体,在相应于子实体生长期间(以有子实体生长的低温培养组为对照),培养物中无明显酶峰出现,酶活力为0—2u左右。由此可见,培养温度对滑菇子实体形成和胞外CMC酶活性有显著的影响。     

紫孢侧耳栽培期基质中纤维素类的降解和有关酶活的变化

以棉籽壳为基质栽培紫孢侧耳（Ｐｌｅｕｒｏｔｕｓｓａｐｉｄｕｓ）,分别在菌丝长满期、菇蕾期、一茬菇和二茬菇时测定培养料中纤维素和半纤维素含量的变化以及纤维素酶（ＣＭＣ酶）和半纤维素酶活性的变化。结果表明：从接种到一茬菇时期,纤维素酶、半纤维素酶活不断升高,此后,迅速降低;基质中两种酶的底物含量降低速度以菇蕾一一茬菇时最大。菇蕾期后,两种底物的减少量多,菇蕾期以前较少。菇蕾期以前半纤维素降解稍多,菇蕾期以后纤维素降解较多。     

柱状田头菇生长发育中9种胞外酶活性的测定

柱状田头菇Ａｇｒｏｃｙｂｅ ａｅｂｅｒｉｔａ作为一种新开发的食用菌,越来越受到消费者的喜爱和研究者的关注,但在其栽培生产中遇到的产量相对较低的问题,一直未能得到很好的解决,致使柱状田头菇的栽培难以得到大规模的推广。本研究对不同来源的柱状田头菇在其６个不同生长发育阶段中,９种与培养料中主要组分分解相关的胞外酶活性的变化进行了测定,结果表明：柱状田头菇属褐腐菌,对非木质纤维素的利用能力最强,对纤维素的     

有机碳和无机碳对3种真菌胞外酸性磷酸酶和蛋白酶活性的影响

多数研究表明外生菌根真菌能够促进植物养分吸收并提高植物生长,但是对其发生的原因研究较少。本文在室内控制条件下,研究了真菌菌丝分泌N、P相关胞外酶及其受土壤有机碳（胡敏酸）和无机碳（碳酸钙）添加的影响,结果表明：1）3种真菌——松乳菇(Lactarius deliciosus)、变色红菇（Russula integra）、铆钉菇（Gomphidius viscidus）菌丝均能够分泌酸性磷酸酶和蛋白酶,而且多数情况下,MMN培养基培养14 d时,各个酶活性较高,而不同菌的胞外酶活性存在较大的差异,平均值来看铆钉菇酸性磷酸酶活性最低而蛋白酶活性最高,其它2个真菌菌丝的胞外酶活性差异不大;2）添加胡敏酸后,3种菌丝的酸性磷酸酶活性都是随着胡敏酸添加量的增加而逐渐增加;但蛋白酶活性存在差异：松乳菇的蛋白酶活性随着胡敏酸添加量的增加而逐渐增加;变色红菇的蛋白酶活性对胡敏酸不敏感,受其影响不大;铆钉菇的蛋白酶活力在少量的胡敏酸作用下最强,但浓度过高反而抑制其蛋白酶的活性。3）添加碳酸钙后,总体来看,3种菌丝胞外酸性磷酸酶和蛋白酶活性都是添加少量碳酸钙时酶活性最强,随着浓度的增加(如0.1 g),其酶活性开始受到抑制。综上所述,真菌菌丝能够分泌酸性磷酸酶和蛋白酶,这可能是因为这些外生菌根真菌能够促进植物养分吸收和快速生长的原因;有机碳和无机碳的加入可以直接影响真菌菌丝胞外酶的分泌,进而影响土壤内有机磷和有机氮化合物的分解,显示其在土壤碳循环中的作用。     

滑菇营养生理研究

本文研究了滑菇在木屑-麦麸基质上生长期间,菌体对基质的转化效率和基质中主要组分的降解规律。实验结果表明:子实体绝对生物学效率为12.43%,产量系数为16.94%。子实体阶段的木素、半纤维素和纤维素的降解量以及非木质纤维素组分的减少量占子实体阶段基物中干物质减少量的百分比值分别为:5.85、17.54、49.13和27.48%。由此可见,纤维素是子实体生长阶段的主要碳源。滑菇在菌丝生长和子实体生长阶段分别有纤维素酶和半纤维素酶的活性高峰出现。进一步证明了:子实体阶段这两种酶的活性增加与子实体形成有密切关系     

一株多糖降解菌的分离、鉴定与琼脂糖降解能力

【目的】筛选海洋来源的多糖降解菌,分析其多糖降解能力并初探机制。【方法】碘液染色法从海泥中初筛琼脂糖降解菌,唯一碳源生长法分析菌株的多糖利用能力,克隆16S rRNA基因以分析系统分类地位。用硫酸铵沉淀法制备胞外粗酶制剂,DNS-还原糖法测定琼胶酶活性,活性染色法分析胞外琼胶酶系的组成特征。分离、纯化琼脂糖的酶解产物,通过TLC测定寡糖Rf值、阳离子质谱测定分子量。【结果】分离到1株能液化琼脂糖的海洋细菌JZB09,鉴定至桃色杆菌属(Persicobacter)。JZB09能利用11种不同的多糖为唯一碳源生长,在利用琼脂糖、纤维素和木聚糖时生长较好。胞外粗酶制剂的琼胶酶活力约77.2U/mg,含有至少2条琼胶酶,大小约45kDa、70kDa。酶制剂降解琼脂糖后的产物是系列新琼寡糖,四糖是主产物,表明β-琼胶酶在胞外琼胶酶系降解琼脂糖时起关键作用。【结论】海洋细菌Persicobacter sp.JZB09是1株多能型多糖降解菌,可分泌β-琼胶酶降解琼脂糖且活性显著,具有潜在开发价值。     

低温胁迫下拟南芥CBF1超表达突变体胞质中Ca^2＋浓度的变化

低温严重影响植物的生长,低温刺激可引起植物细胞中Ca^2＋浓度迅速升高。以拟南芥（Arabidopsis thaliana）CBF1超表达突变体为材料,研究了低温处理时CBF1基因的表达情况及胞质Ca^2＋的浓度变化。结果表明,CBF1本身可受低温诱导。同时将水母发光蛋白基因转入该拟南芥突变体中并检测Ca^2＋的浓度变化,发现低温刺激时突变体细胞质中Ca^2＋的浓度变化幅度明显高于野生型,但液泡的胞质而两侧Ca^2＋的浓度变化相似。用EGTA和LaCl3处理拟南芥后,胞质Ca^2＋的浓度升高被抑制,并且CBF1突变体及对照胞质中的Ca^2＋浓度下降到同一水平。上述结果表明,Ca^2＋参与了CBF1应答低温信号的转导过程,并且CBF1超表达突变体可能是通过提高胞质Ca^2＋浓度来提高植物的抗低温胁迫能力。     

滑菇子实体阶段胞外CMC酶和HC酶酶活性增加与培养温度和子实体形成的关系

本文研究了滑菇(Pholita nameko)子实体阶段培养物中胞外羧甲基纤维素酶(CMC酶)和半纤维素酶(HC酶)的活性增加与培养温度和子实体形成的关系。实验结果表明:(1)低温(9—11℃)培养,菌丝体能分化形成子实体,并且在子实体生长阶段培养物中胞外CMC酶和HQ酶的活性迅速增加,在子实体成熟期左右,有酶活性高峰出现,酶活力为40—100u左右。(2)在23—25℃培养,培养物上无子实体形成,在相应的子实体生长期间(以低温培养组为对照),培养物中CMC酶和HC酶活性很低(0—4u左右)     

构菌栽培过程中对木质纤维素的降解和几种多糖分解酶活性的变化

本文分析了构菌在木屑-麦麸基物上生长发育期间,基物主要组分的降解和几种多糖分解酶活性的变化。结果表明,菌丝体迅速生长期间呼吸强度最大,在菌丝长满基物到子实体发生期间的呼吸强度很小,子实体发育期呼吸强度再次升高。在以新鲜木屑为主要基物时,构菌对基物中的纤维素和半纤维紊的分解作用较弱,并且构菌仅有很徽弱的木紊分解能力。胞外羧甲基纤维素酶、滤纸纤维素酶,木聚糖酶、果胶酶和淀粉酶的活性存在于构菌整个栽培过程,在菌丝体迅速生长期淀粉酶活力较高,在菌丝长满基物后活力明显下降,其它四种酶的活性变化规律与淀粉酶活性变化规     

四种重金属在金针菇栽培过程中的迁移规律

为了掌握铅、镉、砷、汞4种有害重金属元素在金针菇栽培过程中的富集和迁移,为金针菇产品质量控制提供依据。采用在培养料中添加一定量的铅、镉、汞、砷栽培金针菇,测定其在各栽培阶段培养料、金针菇子实体中的含量。结果表明,在试验的浓度范围内,金针菇子实体中4种重金属的含量随着培养料中添加量的增加而增加,说明金针菇子实体中4种重金属主要是来源于培养料,但金针菇子实体对不同重金属的吸收富集能力不同,对汞的吸收富集能力最强,富集系数最高达到7.590,富集能力大小依次为汞>镉>砷>铅。     

Isolation and analysis of genes specifically expressed during fruiting body development in the basidiomycete Flammulina velutipes by fluorescence differential display

Using fluorescence differential display, cDNAs specifically expressed at the primordial stage of fruiting body development were isolated from the basidiomycete, Flammulina velutipes. Seventy-five cDNAs were sequenced and compared with the amino-acid sequences of proteins in the database by BLASTX search. Significant similarity was found for 29 cDNAs coding for proteins with known function, GTP-binding protein, growth factor, ubiquitin-proteasome, cytochrome P450 and hydrophobin, all of which would be associated with fruiting body development. Seventeen cDNAs were not similar to proteins in the database and may represent unique genes that play specific roles in the process of fruiting in F. velutipes.     

金针菇酶促褐变的区域分布及调控

金针菇的多酚氧化酶(PPO)、过氧化物酶(POD)和过氧化氢酶(CAT)活性在全株中呈现区域化分布。菌盖的酶活性最低,菌柄上部酶活性稍高,菌柄中部较高,菌柄下部活性最高。用硫脲、亚硫酸盐、CaCl₂、低CO₂、低温等方法处理金针菇,对以上三种酶的活性均有抑制作用。高0₂、H₂O₂和温度的提高均促进三种酶活性。高N₂(减压后充N₂)不能抑制三种酶活性。     

金针菇富锌条件及锌结合形态的研究

对金针菇深层发酵富锌培养条件进行了研究,并对Zn的生物有机化程度进行了初步探讨。结果表明,金针菇富锌的深层培养较好的Zn源为ZnAc_2,初始pH值为6.5,加入0.1％柠檬酸和0.4％的CMC-Na利于富锌和提高生物量。金针菇富锌过程中,93％以上的ZnAc_2以有机锌态存在,其中50％以上结合为Zn-蛋白,34％与糖及脂肪类物质结合。     

Influences of environmental factors on fruiting body induction,development and maturation in mushroom-forming fungi

Mushroom-forming fungi (restricted to basidiomycetous fungi in this review) differentiate by sensing several environmental factors for fruiting body formation. For fruiting body induction, nutrient, temperature and light conditions are critical environmental factors. Higher nitrogen and carbon sources in the media will suppress fruiting body induction in many mushroom-forming fungi, with induction being triggered by lower nitrogen and carbon concentrations. Low temperature or temperature downshift is another critical influencing factor for fruiting body induction in many cultivated mushrooms, such as Flammulina velutipes, Lentinula edodes, and Volvariella volvacea. Fungal response toward starvation and cold involves the production of sexual spores as the next generation. Species like F. velutipes and Coprinopsis cinerea can form fruiting bodies in the dark; however, light accelerates fruiting body induction in some mushroom-forming fungi. Remarkably, fruiting bodies formed in the dark have tiny or no pileus on heads (called dark stipe, pinhead fruiting body, or etiolated stipe). Light is essential for pileus differentiation in many, but not all mushroom species; one exception is Agaricus bisporus. Mushrooms have positive phototropism and negative gravitropism for effective dispersal of spores. Carbon dioxide concentrations also affect fruiting body development; pileus differentiation is suppressed at a high concentration of carbon dioxide. Thus, the pileus differentiation system of mushrooms may allow the most effective diffusion of spores. Full expansion of the pileus is followed by pileus autolysis or senescence. In C. cinerea, pileus autolysis occurs during spore diffusion. Fruiting body senescence, browning of gill, and softening occur after harvesting in several mushroom species. Fruiting body induction, development, and maturation in mushroom-forming fungi are discussed in this review.     

金针菇子实体颜色的遗传规律研究

以金针菇黄色菌株F19和白色菌株F8801为亲本,原生质体单核化获得两亲本的单核菌株,配对杂交获得F1,从F1的子实体分离单孢菌株,与两亲本的原生质体单核化菌株进行回交配对,出菇观察子实体颜色,分析菇体颜色的遗传规律。研究结果表明,黄色为显性、白色为隐性,菇体颜色受一对基因(Cc)控制,与不亲和性因子A或B都没有连锁。     

Isolation of high quality and yield of RNA from Agaricus bisporus with a simple, inexpensive and reliable method

A method for isolating high purity and quantity RNA from Agaricus bisporus which is rich in proteins, carbohydrate, fiber and secondary metabolites, is described. RNA was extracted from mycelium, primordia, sporophores at two development stages and two post-harvest storage stages as well as from pileipellis, inner cap, gill and stipe of the mature sporophore. The A(260)/A(230) and A(260)/A(280) ratios of isolated RNA from fruiting bodies were both ~2 and the yield was about 200 μg/g fresh wt (FW). The yield of RNA from mycelium was approx. 100 μg/g FW. High quality RNA was also extracted from fruiting body tissues of Lentinus edodes, Pleurotus ostreatus, Flammulina velutipes and Pleurotus eryngii with yields from 130 to 225 μg/g FW. RNA extracted from all samples was intact, as demonstrated by gel electrophoresis and was suitable for downstream molecular applications, including RT-PCR and qPCR.     

金针菇液体培养特性及胞外酶研究

测定了金针菇在PDY液体培养基中生长时 ,培养液 pH值的变化 ,蛋白质含量和菌丝球重量 ;研究了羧甲基纤维素酶、半纤维素酶、多酚氧化酶、愈创木酚氧化酶和漆酶的酶活性变化。结果表明 ,在整个培养期内 5种酶均有酶活性 ,但不同酶的活性有较大差异 ,产酶高峰也不尽相同     

Relationship between fruiting body development and extracellular laccase production in the edible mushroom Flammulina velutipes

The biochemical mechanism underlying the development of fruiting bodies in Flammulina velutipes, an edible mushroom, was investigated using the YBLB colorimetric assay to distinguish between the normal strain (FVN-1) and the degenerate strain (FVD-1). In this assay, the color of the YBLB medium (blue-green) inoculated with FVN-1 exhibiting normal fruiting body development changed to yellow, while the color of the medium inoculated with FVD-1 changed to blue. In this study, we found that this color difference originated from extracellular laccase produced by FVN-1. Moreover, FVN-1 exhibited considerably higher extracellular laccase activity than FVD-1, under conditions facilitating fruiting body formation. Overall, these findings suggest that extracellular laccase is involved in the fruiting body development process in F. velutipes.