天麻消化紫萁小菇及蜜环菌过程中细胞超微结构变化的研究

本文对天麻种子消化入侵的紫萁小菇菌丝及营养繁殖茎消化蜜环菌过程中,细胞超微结构的变化进行了研究。观察结果表明:紫萁小菇侵入种胚后,染菌胚细胞的细胞器逐渐消失,其细胞质产生囊状体起消化菌丝的作用,存在于胚细胞中的紫萁小菇菌丝有脱壁或失去细胞质成为空腔等变化;种子萌发形成的原球茎消化紫萁小菇的方式同胚萌发阶段类同。蜜环菌侵入原球茎分化的营养繁殖茎后,皮层细胞产生消化酶类颗粒或囊状体包围并分解蜜环菌菌丝;被皮层细胞消化的菌丝残物或部分菌丝进入皮层内面的大型细胞,此时大型细胞的代谢功能显著增强,该细胞中的各种水解酶颗粒及液泡等完成对菌体物质的最终同化。紫萁小菇及蜜环菌先后在天麻有性繁殖和无性繁殖阶段侵染供给其营养,但菌丝被消化过程中的细胞形态变化、被消化方式不完全一致。     

中国东北地区三种蜜环菌的生物学特性及奥氏蜜环菌人工培养

蜜环菌属Armillaria真菌具有较高的食药用价值。由于蜜环菌的生长发育过程较复杂,还未完全实现商业化栽培,野生资源的供应受到季节性和地域性的影响。本研究以采自东北地区蜜环菌属的3个菌株为研究对象,通过培养物的形态特征及分子标记确定菌株JG19016为奥氏蜜环菌A. ostoyae,菌株JG19017为高卢蜜环菌A. gallica,菌株JG19018为中国蜜环菌生物种C。奥氏蜜环菌JG19016最适生长温度为25 ℃,高卢蜜环菌JG19017的最适生长温度为22 ℃,中国蜜环菌生物种C JG19018则在22-25 ℃时菌丝生长速度最快;3个菌株最适pH为5-6。奥氏蜜环菌JG19016对葡萄糖和蔗糖利用率较好,高卢蜜环菌JG19017对葡萄糖利用率较好,中国蜜环菌生物种C JG19018对葡萄糖和淀粉利用率较好;蛋白胨对3个菌株促进作用最强,为最适氮源。培养基中加入VB₁,对3个菌株的菌丝生长均有明显的促进作用。奥氏蜜环菌JG19016菌丝生长的最优培养基配方为：葡萄糖20 g,蛋白胨3 g,磷酸二氢钾2 g,硫酸镁1.5 g,VB₁ 10 mg,琼脂20 g,水1 L。在木屑基质中培养,其配方的最优碳氮比为38:1,最佳木屑粗细比为3:1以上。出菇条件探索结果显示,菌丝及菌索长满菌袋(17 mm×33 mm×5 mm丝聚乙烯袋)需要50-60 d,之后在18 ℃、60%湿度和12 h散射光的环境中,10 d左右可观察到原基产生。增加菇房湿度到90%-95%,2-3 d可观察到1-3 cm的幼子实体,7 d左右菌柄和菌盖完全分化,10 d左右观察到菌盖展开。     

Biological species ofArmillaria and their mycoparasitic associations withRhodophyllus abortivus in Hokkaido

Specimens of basidiomes and/or rhizomorphs ofArmillaria mellea complex and basidiomes ofRhodophyllus abortivus, developing on the same decaying stumps or stems of forest trees, were collected in three forests in Hokkaido. Normal basidiomes ofR. abortivus were found near to, but free from, the rhizomorphs and/or basidiomes ofArmillaria, while abnormal basidiomes, as carpophoroid forms, were developed on the rhizomorphs ofArmillaria. Of three mycoparasiticArmillaria isolates found withR. abortivus, one was identified asA. gallica and two asA. jezoensis. The isolates ofR. abortivus showed excellent mycelial growth and rhizomorph formation on PDA. However, on MDA, RMDA and BMDA, they showed poor aerial mycelia growth and no rhizomorphs. In the contrapositional cultures, the growth ofA. gallica was completely inhibited byR. abortivus on PDA but only slightly inhibited on MDA and RMDA. On the other hand, mutual inhibition at a distance was observed on BMDA. The mycelial growth and rhizomorph formation inA. jezoensis were severely inhibited by the colony ofR. abortivus on PDA, but only slightly inhibited on MDA. On RMDA and BMDA, the colonies of twoArmillaria species andR. abortivus showed mutual inhibition at a distance and apparent rhizomorph formation by bothArmillaria species.     

The plant antifungal isoflavone genistein is metabolized by Armillaria mellea Vahl to give non-fungitoxic products

Abstract

Armillaria mellea, the causal agent of root rot, is a fungal pathogen which proved able to convert the leguminous plant antifungal compound 4′,5,7-trihydroxyisoflavone (genistein) into intermediate metabolites. After suitable periods of incubation, the metabolites were extracted and concentrated from liquid culture media, containing both the isoflavone and the fungus. After purification by column chromatography, the molecular structure of the metabolites was determined by means of mass spectrometry and nuclear magnetic resonance analyses. Five different compounds were identified: 1,3,5-trihydroxybenzene, 4-hydroxyphenylacetic acid, 2,5-dihydroxyphenylacetic acid (homogentisic acid), its lactone 5-hydroxy-2(3H)-benzofuranone, and 1,4-benzoquinone. In vitro experiments showed that while the starting compound, i.e. genistein, has some activity in inhibiting the growth of the fungal pathogen, the degradation products are devoid of any appreciable fungitoxic activity. Moreover, results show that the isoflavone metabolites can be, at least partially, utilized by A. mellea as a carbon source.     

黄绿蜜环菌菌丝体多糖分离纯化与含量测定

分离纯化黄绿蜜环菌菌丝体粗多糖,提高多糖含量,以进一步应用于工业化生产。采用DEAE-52纤维素层析柱分离纯化黄绿蜜环菌菌丝体多糖,依次用水、0.1 mol/L Na Cl、0.2 mol/L Na Cl、0.4 mol/L Na Cl、0.8 mol/L Na Cl进行洗脱;苯酚-硫酸法测定纯化后多糖含量,测定波长490nm,葡萄糖浓度与吸光度的回归方程为A=6.3137X+0.2156R2=0.9909。黄绿蜜环菌菌丝体水体粗多糖经DEAE-52纤维素层析柱分离纯化后,多糖含量达到99%以上。经过中试试验验证提取及分离纯化工艺适用于工业化生产。     

Gas chromatographic–mass spectrometric investigation of metabolites from the needles and roots of pine seedlings at early stages of pathogenic fungi <Emphasis Type="Italic">Armillaria ostoyae</Emphasis> attack

An investigation was carried out of the composition of metabolites in pine seedlings tissues at the initial stages of the infectious process caused by pathogenic fungi Armillaria ostoyae, which causes a root rot of trees and degradation of forest resources. With the help of successive extraction with organic solvents of different polarity, more than 190 metabolites were extracted from the needles and roots of the seedlings and then identified by GC–MS method. The composition of the extracts from control plants and those inoculated with Armillaria ostoyae were compared. It was established that part of secondary metabolites (glucosamines and free amino acids, carbohydrates raffinose and trehalose) were present only in the tissues of inoculated plants. Possible roles of some of these compounds appearing in the roots of seedlings infected with the fungus are also discussed in the paper.     

密环菌胞外多糖的发酵条件研究

密环菌是天麻的共生菌,有研究证明,密环菌的菌丝及发酵液有与天麻相类似的药理作用,为此,我们进行密环菌深层发酵产胞外多糖条件的研究。研究结果表明：菌丝生长和多糖产生的最适初始pH为5．9左右;消泡剂用量在一定内增加,有利于菌丝的生长,但增加消泡剂用量会不利于多糖的产生;接种量大,菌丝得率高,但接种量为10％时的多糖得率最高;装液量试验表明,通气量大,有利于菌丝的生长和多糖的产生;机械搅拌对菌丝的生长和多糖的产生都不利;生长动态实验证明,密环菌可在6d内完成液体发酵;以豆粕粉作氮源时,菌丝得率最高,以麸皮作氮源时,多糖产量最高;红薯粉为密环菌菌丝生长和多糖产生的最适碳源。     

Detection of genetic variation among single-spore isolates and identification of genets ofArmillaria ostoyae by AFLP analysis with Texas RedTM-labeled selective primer

AFLP (amplified fragment length polymorphism) analysis was applied toArmillaria ostoyae isolates (single-spore isolates and field isolates from the same forest). For detection of AFLP, we have developed a modified method using DNA sequencer with Texas Red-labeled selective primer. In analysis of single-spore isolates, this technique provided large numbers of highly polymorphic DNA markers, which can be used to identify genets. The results suggested that outbreeding might be common inA. ostoyae.