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植物内生菌研究及其科学意义 总被引:14,自引:1,他引:14
植物内生菌是近三十年来在国内外迅速受到关注的微生物类群,研究的角度不同,概念也比较混乱。本文就植物内生菌研究及其科学意义进行了综述和讨论。植物内生菌在国外广受关注,始于禾本科植物内生真菌以及林木内生真菌的特殊作用。产紫杉醇的红豆杉内生真菌被报道后,植物内生菌研究在生理活性物质领域开始暴发式的增加。通过对一年生草本植物、多年生草本植物、木本植物和藤本植物各部位的内生微生物的比较和分析,总结了植物内生菌的一些共性和特殊性,指出了植物内生菌研究的一些发展趋势。本文探讨植物内生菌对地球上的微生物物种总量的贡献。提出"植物体在自然界的实际生存状态实际上是微生物和植物的状态"的观点,导出植物育种实际上是"植物和微生物的共生体的培育"的观点。还讨论了植物内生菌对生态学、生物学、微生物的进化和物种形成、内生菌/宿主的联合代谢、以及植物保护学、畜牧兽医学、林学等领域的意义和影响。本文认为,植物内生菌研究打开了微生物资源的一个新局面,将在多个领域中产生更广泛的影响。植物内生菌研究的真正意义不仅在于其生态独特性,更在于微生物在宿主体内和宿主植物的协同作用及协同作用所产生的新功能和新物质。 相似文献
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植物内生菌是存在于植物内部与植物密不可分的一类微生物,包括内生真菌和内生细菌两大类。随着研究的不断深入,发现内生菌不仅产生多种有益的生物学作用,如防病、促生、固氮等,还能对寄主植物的生长发育产生不利影响。近年来,植物内生菌已成为我国微生物学领域研究的热点问题之一。本文综述了植物内生真菌和内生细菌的研究概况,以期更好地研究和了解植物内生菌。 相似文献
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本文主要概述了植物内生真菌及其生理活性物质研究的最新进展,而今,它们在医药领域的应用越来越受到人们的关注,植物内生真菌是新的天然药物的重要源泉,在新药开发上具有广阔的发展前景。 相似文献
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从川乌(Radix aconiti)植物的根和茎中分离获得内生真菌61株,经显微形态观察进行内生真菌的分类鉴定,同时采用纸片法进行抗菌活性筛选。结果有29株内生真菌显示抗菌活性,占菌株数的47.54%;毛壳菌属是抗菌活性菌株的优势种属;活性高且抗菌谱广的菌株有3株,主要分布在毛壳菌属和束丝菌属。结果表明:川乌植物内生真菌中广泛分布着有抗菌活性的菌株。 相似文献
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Tian X.L. Cao L.X. Tan H.M. Zeng Q.G. Jia Y.Y. Han W.Q. Zhou S.N. 《World journal of microbiology & biotechnology》2004,20(3):303-309
The populations of endophytic fungi and actinomycetes from four rice cultivars in the Panyu district (Site 1) and Wushan district
(Site 2) in Guangdong province, South China, were studied. The preponderant endophytic fungi and actinomycetes isolated belonged
to Fusarium and Streptomyces respectively. The incidence of Streptomycetes griseofuscus ranged from 36.1 to 69% out of all the different rice cultivars from the two sites. It is the commonest population of endophytic
actinomycetes, and constituted the greatest part of all the antagonistic communities. The distributions of endophytic fungi
and actinomycetes in roots and leaves were different, endophytic fungi from leaves were diverse, some were organ-specific.
More diverse endophytic actinomycetes were isolated from roots than from leaves. The endophytic fungi isolated from rice in
Site 2 were more diverse than that in Site 1. The diversity of the endophytic actinomycetes, however, was less than that in
Site 1. Acid soil in Site 2 is ideal for the growth and colonization of fungi while the alkaline soil in Site 1 is better
for the growth and colonization of actinomycetes. The results suggested that differences in the chemical composition of soil
could influence the endophytic microbial communities of rice plants. The endophytic fungi and actinomycetes isolated from
poor-growing seedlings and susceptible rice cultivars were more abundant than that the disease-resistant counterparts. In
the dual culture and activity detection of the metabolites, 41.2% of all the isolated endophytic fungi showed antagonism to
rice pathogens. Fifty percent of all the isolated endophytic actinomycetes were antagonistic to those pathogens. The percentage
of Streptomyces griseofuscus and hygroscopicus reached 55.4 and 21.4% of all the active actinomycetes.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
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【背景】根瘤是植物-微生物共生的特殊结构,蕴含丰富的微生物资源。产铁载体根瘤内生细菌对促进结瘤固氮具有重要作用,但目前关于其是否对植物具有促生作用尚不明确。【目的】筛选鉴定达乌里胡枝子(Lespedeza daurica)根瘤产铁载体内生细菌,明确其促生作用,为丰富植物促生菌资源提供新的途径。【方法】利用铬天青(chrome azurol S, CAS)培养基初筛产铁载体根瘤内生细菌,对目的菌株进行鉴定;通过液体发酵试验确定其产铁载体能力;利用促生功能培养基测定其他促生特性;利用不同盐浓度(0.01%-9.00%)、不同pH值(3.0-12.0)的酵母甘露醇(yeast mannitol,YMA)液体培养基和不同培养温度(4-60℃)确定其抗逆特性;通过盆栽试验初步验证其对植物的促生作用。【结果】48株根瘤内生细菌可产铁载体,其中9株为高产铁载体细菌,分别为TG4、TG9、TG13、TG15、TG28、TG32、TG38、TG76和TG78,铁载体相对表达量为26%-93%;经鉴定,除了TG28为巨大普里斯特氏菌(Priestiamegaterium),其余8株菌均为耐寒短杆菌(Bre... 相似文献
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The unseen majority: soil microbes as drivers of plant diversity and productivity in terrestrial ecosystems 总被引:30,自引:1,他引:30
Microbes are the unseen majority in soil and comprise a large portion of life's genetic diversity. Despite their abundance, the impact of soil microbes on ecosystem processes is still poorly understood. Here we explore the various roles that soil microbes play in terrestrial ecosystems with special emphasis on their contribution to plant productivity and diversity. Soil microbes are important regulators of plant productivity, especially in nutrient poor ecosystems where plant symbionts are responsible for the acquisition of limiting nutrients. Mycorrhizal fungi and nitrogen-fixing bacteria are responsible for c. 5–20% (grassland and savannah) to 80% (temperate and boreal forests) of all nitrogen, and up to 75% of phosphorus, that is acquired by plants annually. Free-living microbes also strongly regulate plant productivity, through the mineralization of, and competition for, nutrients that sustain plant productivity. Soil microbes, including microbial pathogens, are also important regulators of plant community dynamics and plant diversity, determining plant abundance and, in some cases, facilitating invasion by exotic plants. Conservative estimates suggest that c. 20 000 plant species are completely dependent on microbial symbionts for growth and survival pointing to the importance of soil microbes as regulators of plant species richness on Earth. Overall, this review shows that soil microbes must be considered as important drivers of plant diversity and productivity in terrestrial ecosystems. 相似文献
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A dark-septate endophytic (DSE) fungus EF-M was isolated from the roots of an alpine plant Saussurea involucrata Kar. et Kir. ex Maxim. The fungus was identified by sequencing the PCR-amplified rDNA 5.8S gene and ITS regions. The sequence
was compared with similar sequences in the GenBank, and results showed that EF-M was congeneric to Leptodontidium. Resynthesis study was conducted to clarify the relationship between the root endophyte EF-M and the host plant S. involucrata using the material grown in sterile culture bottle. In roots recovered 6 weeks after inoculation, epidermal cells were colonized
by intercellular and intracellular hyphae and “microsclerotia” formed within individual cells in the epidermis layers. However,
hyphae did not invade the cortex and the stele. There were no profound effects of endophyte EF-M on plant root development,
but significant differences were detected in plant height and shoot dry weight between the treatments. The present study is
the first report hitherto on DSE fungi in S. involucrata. 相似文献
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The development of electrostatic interactions during the folding of the N-terminal domain of the ribosomal protein L9 (NTL9) is investigated by pH-dependent rate equilibrium free energy relationships. We show that Asp8, among six acidic residues, is involved in non-native, electrostatic interactions with K12 in the transition state for folding as well as in the denatured state. The perturbed native state pK(a) of D8 (pK(a) = 3.0) appears to be maintained through non-native interactions in both the transition state and the denatured state. Mutational effects on the stability of the transition state for protein (un)folding are often analyzed in respect to change in ground states. Thus, the interpretation of transition state analysis critically depends on an understanding of mutational effects on both the native and denatured state. Increasing evidence for structurally biased denatured states under physiological conditions raises concerns about possible denatured state effects on folding studies. We show that the structural interpretation of transition state analysis can be altered dramatically by denatured state effects. 相似文献