墨西哥仙人掌植物内生真菌的研究Ⅰ.内生真菌分离及其抗菌活性筛选

从一种墨西哥仙人掌[Opuntiamicrodasys(Lehm .)Pfeiff]的肉质茎中分离获得31株内生真菌,经形态观察分类鉴定为3个目、3个科、14个属。同时选择2 2种病原微生物作为指示菌进行抑菌试验,研究其抗菌活性。结果表明:3株仙人掌内生真菌分别对细菌、植物病原真菌和皮肤致病真菌多种病原微生物有较为明显的抑制生长作用。     

一株仙人掌植物内生真菌的分离鉴定及活性研究*

从元江仙人掌的茎中分离到一株产广谱、高活性抑菌物质的内生真菌,经测定对细菌、植物病原真菌和皮肤致病真菌共21种病原微生物有较为明显的抑制作用。形态特征表明,该菌株与曲霉属(Aspergillus)中的土生曲霉(Aspergillus terreus)的特征基本一致,18S rDNA序列分析显示本菌株与土生曲霉的同源性高于99%,但该菌株的分生孢子梗上有明显的瘤状突起,不同于模式菌株。因此认为该菌株为土生曲霉的一个变种,命名为土生曲霉云南变种(Aspergillus ter     

元江印楝植物内生真菌及其抗菌活性筛选的研究

通过抗菌活性初步筛选,从采自云南元江县的印楝(Azadirachta indica A.Juss)植物茎和果实中已分离到的372株内生真菌中筛选出80株作为复筛菌株,经显微形态特征观察鉴定为5目、6科、29个属。选择16种病原微生物作为指示菌检测复筛菌株发酵产物的抗菌活性,结果表明,其中29株内生真菌对细菌、植物病原真菌和皮肤致病真菌中的一种或多种病原微生物有抑制生长作用,活性菌株比例占复筛菌株的36.25%,并显示种群多样性,其中7株内生真菌显示较强的广谱抗菌作用,活性较好的菌株主要分布在曲霉属和交链孢属。     

一株仙人掌植物内生真菌的分离鉴定及活性研究

从元江仙人掌的茎中分离到一株产广谱、高活性抑菌物质的内生真菌,经测定对细菌、植物病原真菌和皮肤致病真菌共21种病原微生物有较为明显的抑制作用。形态特征表明,该菌株与曲霉属（Aspergillus）中的土生曲霉（Aspergillus terreus）的特征基本一致,18SrDNA序列分析显示本菌株与土生曲霉的同源性高于99％,但该菌株的分生孢子梗上有明显的瘤状突起,不同于模式菌株。因此认为该菌株为土生曲霉的一个变种,命名为土生曲霉云南变种（Aspergillus terreus vat．yunnanensis）。并对其活性物质的生产条件进行了初步摸索,确定用查氏培养基为最佳种子培养基,PDA培养基为最佳发酵培养基,4d为最适发酵时间。     

云南重楼植物内生真菌的分离及抗菌活性筛选

从云南重楼[Paris polyphylla Smithvar.yunnnanensis(Franch.)Hand.Mazz.]块状茎中分离出166株内生真菌,对其进行形态分类鉴定归于4目,6科,20个属,体现了云南重楼植物内生真菌的生物多样性特征。同时,选择与人类和植物相关的37株病原微生物作为抗菌活性筛选指示菌,进行了云南重楼植物内生真菌抗菌活性的初步研究。结果表明,4株内生真菌对细菌、植物致病真菌、皮肤致病真菌多种病原微生物具有显著抑制生长的作用。     

杜仲内生真菌的抑菌活性筛选

以金黄色葡萄球菌、枯草芽孢杆菌、大肠杆菌为测试菌种。对杜仲(Eucommia ulmoides Oliv.)根、茎、叶中分离出的20株内生真菌及其次生代谢物进行抗菌活性筛选。结果表明：有15个菌株至少对1种实验细菌具有抑菌活性,19株的代谢产物至少对1种实验细菌具有抑菌活性,其中有3株内生真菌及其次生代谢产物对测试病原细菌均有较强抑制作用。     

骆驼蓬内生真菌抑菌活性的研究

以金黄色葡萄球菌、大肠杆菌、鼠伤沙门氏菌及大肠杆菌F为测试菌种,对从骆驼蓬(Peganum harmala L.)叶中分离出的14株内生真菌及其次生代谢产物进行了抗菌活性筛选。结果表明:8个菌株及10个菌株的代谢产物均至少对1种试验细菌具有抑菌活性,其中1株内生真菌及其次生代谢产物对测试病原细菌具有较强的抑菌作用。     

一株内生真菌黑曲霉的活性检测及鉴定

从飞龙斩血内分离到一株产广谱、高活性抑菌物质的内生真菌F-001,经测定对细菌、植物病原真菌和皮肤致病真菌共26种病原微生物有不同程度的抑制作用。对其进行了系统鉴定和生物学研究,形态特征表明,该菌株与曲霉属Paecilomyces Bainier中的黑曲霉Paecilomyceslilacinus的特征基本一致,ITS序列分析显示本菌株与多个黑曲霉菌株同源性都在99%,因此将菌株F-001命名为黑曲霉Paecilomyces lilacinusF-001。该研究首次从核桃树皮内分离得到黑曲霉并进行了该菌株的抑菌活性检测。     

禾草内生真菌对其它微生物的影响研究进展

禾草内生真菌在宿主植物的茎叶等地上组织中普遍存在,不仅能够提高禾草对生物与非生物逆境的抗性,而且能够对周围环境中的不同微生物类群产生影响。主要总结了禾草Neotyphodium/Epichlo内生真菌对病原真菌、丛枝菌根真菌和土壤微生物的影响及其作用机理。发现禾草内生真菌普遍存在对病原真菌的抑制作用,而对丛枝菌根真菌存在不对称的竞争作用,且因种类而异。禾草内生真菌对土壤微生物群落的作用则会随着土壤类型和时间等外界因素发生变化。禾草内生真菌对不同类群微生物的影响机制主要包括:通过生态位竞争、抑菌物质分泌、诱导抗病性等对病原真菌造成影响;通过根系化学物质释放、营养元素调节、侵染条件差异等对丛枝菌根真菌造成影响;通过根际沉积物和凋落物等对土壤微生物群落造成影响。禾草内生真菌产生的生物碱能提高宿主植物对包括昆虫在内草食动物采食的抗性,影响病原菌的侵入、定殖和扩展;根组织分泌物中包含次生代谢产物能够抑制菌根真菌、土传病原真菌及其它土壤微生物的侵染与群落组成;也可能通过次生代谢物影响禾草的其它抗性。因此,禾草内生真菌在植物-微生物系统中的作用应该给予更多的关注和深入研究。     

飞龙斩血内生菌种群分布及抑菌活性检测

【目的】研究药用植物飞龙斩血内生菌的种群组成及其抑菌活性,以了解飞龙斩血内生菌的种群分布状态和得到抗菌活性菌株。【方法】采用严格的表面消毒程序、添加抑菌剂的方法分离、培养内生菌株。利用表型和分子技术相结合的方法对内生菌进行分类鉴定。纸片扩散法对分离获得的内生菌进行抑菌活性试验。【结果】从飞龙斩血植株内分离得到了3株内生细菌,1株内生放线菌和82株内生真菌。分类鉴定为14目16科27属,镰孢属(Fusarium)、拟盘多毛孢属(Pestalotiopsis)、曲霉属(Aspergillus)为飞龙斩血内生真菌中的优势种群。通过对30株病原指示菌的抑菌活性检测,18株内生菌对多种指示菌有明显的抑制作用。16株是内生真菌,分属11属。【结论】本试验研究了飞龙斩血内生菌的种群分布,获得了一些具有抗菌活性的内生菌,为飞龙斩血内生菌资源的开发利用提供了基础。     

Antifungal activity of some plant extracts on some pathogenic fungi

The inhibitory activity of five plant extracts viz. Artemisia absinthium L., Rumex obtusifolius L., Taraxacum officinale Weber ex Wiggers, Plantago lanceolata L. and Malva sylvestris L. were evaluated against the mycelial growth of three fungi Alternaria alternata (Fr.) Keissler, Penicillium expansum Link ex Thom. and Mucor piriformis Fisher that cause rot diseases in fruits and vegetables resulting in low yield and quality of fruits and vegetables. Results revealed that all the concentrations of plant extracts brought about significant inhibition in the mycelial growth of these pathogenic fungi. However, the highest concentration caused maximum inhibition in the mycelial growth followed by lower concentrations of plant extracts. The extract of A. absinthium leaves at highest concentration (S) proved highly effective in inhibiting the mycelial growth of all these pathogenic fungi followed by other plant extracts. These plants thus may have potential as the new natural fungicide for management of fungal rot diseases.     

Interaction of antimicrobial cyclic lipopeptides from Bacillus subtilis influences their effect on spore germination and membrane permeability in fungal plant pathogens

Bacillus subtilis cyclic lipopeptides are known to have various antimicrobial effects including different types of interactions with the cell membranes of plant pathogenic fungi. The various spectra of activities of the three main lipopeptide families (fengycins, iturins, and surfactins) seem to be linked to their respective mechanisms of action on the fungal biomembrane. Few studies have shown the combined effect of more than one family of lipopeptides on fungal plant pathogens. In an effort to understand the effect of producing multiple lipopeptide families, sensitivity and membrane permeability of spores from four fungal plant pathogens (Alternaria solani, Fusarium sambucinum, Rhizopus stolonifer, and Verticillium dahliae) were assayed in response to lipopeptides, both individually and as combined treatments. Results showed that inhibition of spores was highly variable depending on the tested fungus-lipopeptide treatment. Results also showed that inhibition of the spores was closely associated with SYTOX stain absorption suggesting effects of efficient treatments on membrane permeability. Combined lipopeptide treatments revealed additive, synergistic or sometimes mutual inhibition of beneficial effects.     

Effect of garlic bulb extract on the growth and enzymatic activities of rhizosphere and rhizoplane fungi

Eighteen fungal species were isolated from rhizospheric soil and rhizoplane samples of three plant crops in southern Iraq. The fungal isolates were examined for the activities of four enzymes (amylase, cellulase, phenoloxidase, and protease), as well as their growth, against crude garlic extract added to the culture agar medium. A high reduction or inhibition of enzymatic activities was observed for the fungi treated with garlic extract compared with untreated fungal cultures. However, most of the species showed inhibition of enzymes due to the effect of garlic extract. The growth of the fungal species was also remarkably reduced by the garlic extract.This revised version was published online in October 2005 with corrections to the Cover Date.     

木本曼陀罗内生真菌抗菌活性的筛选研究

从木本曼陀罗植物内生真菌中筛选高效抗菌活性的菌株。选择与人类和植物相关的36株病原微生物,分别对分离自木本曼陀罗(Datura arborea L.)植物的内生真菌77株进行了发酵代谢产物的抗菌活性筛选研究。结果显示:对细菌病原菌、皮肤致病真菌、植物致病真菌有抑制作用的内生真菌分别有24,9,17株,其中5株内生真菌对10种以上的供试病原菌有明显的抑制作用,活性最好的1株对20种病原菌有较强抑制活性,最大抑菌圈直径达48mm。这说明木本曼陀罗植物内生真菌抗菌能力较强,抗菌谱较广。     

Phylogenetic relationships among prokaryotic and eukaryotic catalases

Seventy-four catalase protein sequences, including 29 bacterial, 8 fungal, 7 animal, and 30 plant sequences, were compiled, and 70 were used for phylogenetic reconstruction. The core of the resulting tree revealed unique, separate groups of plant and animal catalases, two groups of fungal catalases, and three groups of bacterial catalases. The only overlap of kingdoms occurred within one branch and involved fungal and bacterial large-subunit enzymes. The other fungal branch was closely linked to the group of animal enzymes. Group I bacterial catalases were more closely related to the plant enzymes and contained such diverse taxa as the Gram-positive Listeria seeligeri, Deinocococcus radiodurans, and gamma-proteobacteria. Group III bacterial sequences were more closely related to fungal and animal sequences and included enzymes from a broad range of bacteria including high- and low-GC Gram positives, proteobacteria, and a bacteroides species. Group II was composed of large-subunit catalases from diverse sources including Gram positives (low-GC Bacilli and high-GC Mycobacteria), proteobacteria, and species of the filamentous fungus Aspergillus. These data can be interpreted in terms of two gene duplication events that produced a minimum of three catalase gene family members that subsequently evolved in response to environmental demands. Horizontal gene transfer may have been responsible for the group II mixture of bacterial and fungal large-subunit catalases.      

Trichoderma/pathogen/plant interaction in pre-harvest food security

Large losses before crop harvesting are caused by plant pathogens, such as viruses, bacteria, oomycetes, fungi, and nematodes. Among these, fungi are the major cause of losses in agriculture worldwide. Plant pathogens are still controlled through application of agrochemicals, causing human disease and impacting environmental and food security. Biological control provides a safe alternative for the control of fungal plant pathogens, because of the ability of biocontrol agents to establish in the ecosystem. Some Trichoderma spp. are considered potential agents in the control of fungal plant diseases. They can interact directly with roots, increasing plant growth, resistance to diseases, and tolerance to abiotic stress. Furthermore, Trichoderma can directly kill fungal plant pathogens by antibiosis, as well as via mycoparasitism strategies. In this review, we will discuss the interactions between Trichoderma/fungal pathogens/plants during the pre-harvest of crops. In addition, we will highlight how these interactions can influence crop production and food security. Finally, we will describe the future of crop production using antimicrobial peptides, plants carrying pathogen-derived resistance, and plantibodies.     

植物几丁质酶及其在抗真菌病害中的应用

植物几丁质酶的研究是抗真菌基因工程的热点之一。几丁质酶能够水解真菌细胞壁的主要成分几丁质,在植物抗真菌病害反应中发挥重要的作用。介绍了几丁质酶的基本生物学特性、基因的诱导表达,并对植物几丁质酶基因在抗真菌病害基因工程中的应用进行了阐述。     

Modification of plant bait technique for direct diagnosis for Rhizoctonia rice pathogens from Myanmar paddy field soils

A modified baiting technique was conducted for selective isolation, fungal DNA diagnosis and fungal cell lipid assay derived from Myanmar isolates of Rhizoctonia spp., causal agents of rice sheath diseases by trapping selective plant stem segments. Bait plant materials of rice, mat rush and cotton were successfully used to isolate R. solani AG1-IA, R. oryzae and R. oryzae-sativae. Moreover, the three plant materials were also effectively used to detect genomic DNA derived from all Rhizoctonia spp. obtained from Myanmar. Rice segment was the most successful materials for detection of fungal cell lipids including palmitic, stearic and linoleic acids. The results of this experiment demonstrate that bait plant materials of rice, mat rush and cotton were the best useful tools for not only direct isolation, but also fungal DNA diagnosis and cell lipid assay of Myanmar soil environmental conditions.