从林业模型基地中分离出木霉属真菌及分离株 TpsT17 对尖孢镰刀菌的抑菌特性。

Isolation of Trichoderma from forestry model base and the antifungal properties of isolate TpsT17 toward Fusarium oxysporum.

机构信息

School of Forestry, Northeast Forestry University, 26 Hexing Road, Harbin 150040, China.

出版信息

Microbiol Res. 2020 Jan;231:126371. doi: 10.1016/j.micres.2019.126371. Epub 2019 Nov 5.

DOI:10.1016/j.micres.2019.126371

Abstract

Eleven soil samples were collected from different plantations at the Forestry Model Base, Northeast Forestry University, China (45°43'10″N, 126°37'15″E), and 122 Trichoderma strains (T1-T122) were isolated. Nine Trichoderma species were identified based on morphological and molecular classification methods. The diversity of woody fungi was analyzed based on the type and quantity of Trichoderma spp. in the soil samples isolated from each plantation. Subdominant T. pseudoharzianum T17 (TpsT17) was screened and its biocontrol potential against Fusarium oxysporum CFCC86068 (Fox68) and growth promotion of Populus davidiana × P. alba var. pyramidalis (PdPap) seedlings were investigated. Compared with PdPap + Fox68 treatment, PdPap + TpsT17 + Fox68 treatment had an obvious antagonistic effect on Fox68 based on the status of roots and stomata of the poplar seedlings. In addition, pretreatment with TpsT17 increased catalase activity 14-fold and decreased hydrogen peroxide and malondialdehyde concentrations 2.57- and 7-fold, respectively, in the PdPap + TpsT17 + Fox68 treatment compared with the PdPap + Fox68 treatment. The transcription levels of PR1, JAZ6751, MYC2, MP, and JAR1 in PdPap + TpsT17+Fox68-treated plants were upregulated 5.75-, 5.63-, 14.88-, 8.24-, and 10.45-fold, respectively, at 3 d, while LAX2 exhibited little change in comparison with the level in PdPap + Fox-treated plants. TpsT17 was detected in the roots and stems of PdPap + TpsT17- and PdPap + TpsT17+Fox68-treated PdPap 28 d after inoculation, which demonstrated the endogenous capacity of TpsT17.

摘要

从中国东北林业大学林业模型基地的不同种植园中采集了 11 个土壤样本（45°43'10″N，126°37'15″E），并从中分离出了 122 株木霉属菌株（T1-T122）。基于形态学和分子分类方法，鉴定了 9 种木霉属物种。根据从每个种植园分离的土壤样本中木霉属菌株的类型和数量分析了木本真菌的多样性。筛选出亚优势种拟康氏木霉 T17（TpsT17），并研究了其对尖孢镰刀菌 CFCC86068（Fox68）的生物防治潜力和对山新杨×银白杨杂种苗生长的促进作用。与 PdPap+Fox68 处理相比，PdPap+TpsT17+Fox68 处理对杨树幼苗根部和气孔的状况显示出对 Fox68 的明显拮抗作用。此外，与 PdPap+Fox68 处理相比，TpsT17 预处理使 PdPap+TpsT17+Fox68 处理中的过氧化氢酶活性增加了 14 倍，使过氧化氢和丙二醛的浓度分别降低了 2.57 倍和 7 倍。与 PdPap+Fox68 处理相比，PdPap+TpsT17+Fox68 处理中 PR1、JAZ6751、MYC2、MP 和 JAR1 的转录水平分别上调了 5.75 倍、5.63 倍、14.88 倍、8.24 倍和 10.45 倍，而 LAX2 与 PdPap+Fox 处理植物中的水平相比变化不大。在接种 28 天后，PdPap+TpsT17 和 PdPap+TpsT17+Fox68 处理的 PdPap 中检测到了 TpsT17，这表明了 TpsT17 的内源性能力。

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从林业模型基地中分离出木霉属真菌及分离株 TpsT17 对尖孢镰刀菌的抑菌特性。

Isolation of Trichoderma from forestry model base and the antifungal properties of isolate TpsT17 toward Fusarium oxysporum.

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