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盐胁迫下内生真菌(Penicillium funiculosum LHL06)的协同共生作用提高了大豆(Glycine max L.)的生长。

Ameliorative symbiosis of endophyte (Penicillium funiculosum LHL06) under salt stress elevated plant growth of Glycine max L.

机构信息

School of Applied Biosciences, Kyungpook National University, Sangyuk-Dong, Buk-gu, Daegu 702-701, South Korea.

出版信息

Plant Physiol Biochem. 2011 Aug;49(8):852-61. doi: 10.1016/j.plaphy.2011.03.005. Epub 2011 Mar 9.

DOI:10.1016/j.plaphy.2011.03.005
PMID:21458283
Abstract

Experiments were conducted to investigate the role of a newly isolated endophytic fungus GMC-2A on physiology of host plant (Glycine max. L cv. Hwangkeum-kong) growing under salinity stress. GMC-2A was identified as a new strain of Penicillium funiculosum on the basis of sequence homology and phylogenetic analysis of D1/D2 regions of 28S rDNA. Preliminary screening experiment showed that the culture filtrate (CF) of GMC-2A promoted the growth of Waito-C, a dwarf gibberellin (GA) biosynthesis mutant rice cultivar. Analysis of fungal CF revealed the presence of GAs (GA₁ 1.53 ng/ml; GA₄ 9.34 ng/ml; GA₈ 1.21 ng/ml; GA₉ 37.87 ng/ml) and indole acetic acid (14.85 μg/ml). GMC-2A also showed high phosphate solubilization of tricalcium phosphate. Besides that, GMC-2A application enhanced soybean seed germination as compared to control. Under salinity stress (70 and 140 mM), GMC-2A significantly promoted the soybean growth attributes (shoot length, shoot fresh/dry biomass, chlorophyll content, photosynthesis rate and leaf area) in comparison to control treatments. We also observed low endogenous abscisic acid and elevated jasmonic acid contents in GMC-2A treated plants under salt stress. GMC-2A treatment significantly enhanced levels of isoflavones (34.22% and 75.37%) under salinity stress as compared to control. In conclusion, P. funiculosum LHL06 has significantly ameliorated the adverse effects of salinity induced abiotic stress, and re-programmed soybean to higher growth and isoflavone biosynthesis.

摘要

进行了实验以研究新分离的内生真菌 GMC-2A 在盐胁迫下生长的宿主植物(大豆 L cv. Hwangkeum-kong)生理中的作用。根据 28S rDNA 的 D1/D2 区序列同源性和系统发育分析,将 GMC-2A 鉴定为新的 Penicillium funiculosum 菌株。初步筛选实验表明,GMC-2A 的培养滤液(CF)促进了矮化赤霉素(GA)生物合成突变体水稻品种 Waito-C 的生长。真菌 CF 的分析表明存在 GA(GA₁ 1.53ng/ml;GA₄ 9.34ng/ml;GA₈ 1.21ng/ml;GA₉ 37.87ng/ml)和吲哚乙酸(14.85μg/ml)。GMC-2A 还表现出对磷酸三钙的高溶磷能力。除此之外,与对照相比,GMC-2A 的应用增强了大豆种子的萌发。在盐胁迫(70 和 140mM)下,与对照处理相比,GMC-2A 显著促进了大豆生长特性(茎长、茎鲜/干生物量、叶绿素含量、光合作用速率和叶面积)的生长。我们还观察到在盐胁迫下,GMC-2A 处理的植物中内源脱落酸含量降低,茉莉酸含量升高。与对照相比,GMC-2A 处理在盐胁迫下显著提高了异黄酮的含量(34.22%和 75.37%)。总之,P. funiculosum LHL06 显著改善了盐诱导的非生物胁迫对大豆的不利影响,并使大豆的生长和异黄酮生物合成得到增强。

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