哈茨木霉LTR-2中一氧化氮可缓解热胁迫诱导的氧化损伤。

Oxidative damage induced by heat stress could be relieved by nitric oxide in Trichoderma harzianum LTR-2.

作者信息

Yu Yang, Yang Zijun, Guo Kai, Li Zhe, Zhou Hongzi, Wei Yanli, Li Jishun, Zhang Xinjian, Harvey Paul, Yang Hetong

机构信息

Biology Institute, Shandong Academy of Sciences, Jinan, China.

出版信息

Curr Microbiol. 2015 Apr;70(4):618-22. doi: 10.1007/s00284-014-0764-8. Epub 2015 Jan 6.

DOI:10.1007/s00284-014-0764-8

PMID:25561405

Abstract

Trichoderma harzianum is an important commercial biocontrol fungal agent. The temperature has been shown to be an important parameter and strain-specific to the mycelia growth of fungi, but less report makes the known of the mechanisms in T. harzianum. In our study, a 6-h treatment of heat increased the thiobarbituric acid reactive substances (TBARS) and nitric oxide (NO) concentration in mycelia to 212 and 230 % the level of the control, respectively. The exogenous NO donor sodium nitroprusside (150 μM) reduced the TBARS concentration to 53 % of that under heat stress (HS). At the same time, the NO-specific scavenger at 250 μM, 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-1-oxyl-3-oxide, prevented the exogenous NO-relieved TBARS accumulation under HS. The increased NO concentration under HS was reduced 41 % by the NO synthase (NOS) inhibitor L-N(G)-nitroarginine methyl ester, but not the nitrate reductase (NR) inhibitor tungstate. Our study exhibited that NO can protect the mycelia of T. harzianum from HS and reduce the oxidative damage by enhancing the activity of NOS and NR.

摘要

哈茨木霉是一种重要的商业生物防治真菌制剂。温度已被证明是影响真菌菌丝体生长的一个重要参数，且具有菌株特异性，但关于哈茨木霉相关机制的报道较少。在我们的研究中，6小时的热处理使菌丝体中的硫代巴比妥酸反应性物质（TBARS）和一氧化氮（NO）浓度分别增加至对照水平的212%和230%。外源性NO供体硝普钠（150μM）将TBARS浓度降低至热应激（HS）下的53%。同时，250μM的NO特异性清除剂2-(4-羧基苯基)-4,4,5,5-四甲基咪唑啉-1-氧基-3-氧化物可阻止HS下外源性NO缓解的TBARS积累。HS下增加的NO浓度被NO合酶（NOS）抑制剂L-N(G)-硝基精氨酸甲酯降低了41%，但未被硝酸还原酶（NR）抑制剂钨酸盐降低。我们的研究表明，NO可以保护哈茨木霉菌丝体免受HS的影响，并通过增强NOS和NR的活性来减少氧化损伤。

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哈茨木霉LTR-2中一氧化氮可缓解热胁迫诱导的氧化损伤。

Oxidative damage induced by heat stress could be relieved by nitric oxide in Trichoderma harzianum LTR-2.

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