Preliminary Probe on Antagonistic Mechanisms of the Pichia pastoris G5 Against Botrytis cinerea

doi:10.13560/j.cnki.biotech.bull.1985.2017-0238

Abstract

Abstract: Considering the Pichia pastoris G5,a biocontrol strain isolated from red grape in Xinjiang and using Botrytis cinerea as target strain,we studied the effects of G5 on the spore of B. cinerea and the activities of five enzymes in the red grape fruit,and primarily explored the antagonistic mechanisms of G5 against B. cinerea by in vitro and in vivo experiment. Results showed that the G5 obviously inhibited the germination of B. cinerea spores and the growth of mycelium,and the rate of inhibiting mycelium maximally reached 80.20% and the rate of inhibiting spore germination was 86.89%. Nutritional competition existed between the G5 and B. cinerea. In the course of antagonism,the heavy parasitism phenomenon occurred. Experiment sindicated that G5 itself did not secrete antimicrobial substances. In addition,the strain induced and significantly increased the enzymes’ activities in fruit,such as peroxidase,polyphenol oxidase,phenylalanine ammonia lyase,chitinase,and β-1,3-glucanase. The inhibition mechanisms of G5 to B. cinerea include nutrition competition and inducible resistance；whether or not there is heavy parasitism needs to be further validated.

Key words: Botrytis cinerea, biological control, Pichia pastoris G5, antagonistic mechanism

LUO Lin,ZHOU Ling-xuan,LIU Ya. Preliminary Probe on Antagonistic Mechanisms of the Pichia pastoris G5 Against Botrytis cinerea[J]. Biotechnology Bulletin, 2017, 33(9): 210-215.

References

[1] 黄琼. 鲜食葡萄生产现状与发展趋势[J] . 现代农业科技, 2015（17）：132, 135.
[2] 秦丹, 石雪晖, 林亲录, 等. 葡萄采后病害生物防治研究进展[J] . 食品与机械, 2007, 23（6）：142-144.
[3] Zhang H, Zheng X, et al. Effect of yeast antagonist in combination with hot water dips on postharvest Rhizopus rot of strawberries[J] . Journal of Food Engineering, 2007, 78（1）：281-287.
[4] 李强, 张红印, 等. 一株生防酵母菌的筛选鉴定及对葡萄采后病害的生防效果[J] . 食品工业科技, 2014, 35（14）：182-185.
[5] 宋开艳. 葡萄采后病害病原菌致病特点及拮抗菌的筛选[D] . 阿拉尔：塔里木大学, 2011.
[6] 王友升. 拮抗酵母菌与果蔬菜后病害防治[M] . 北京：知识产权出版社, 2012, 8- 12.
[7] Wisniewski ME, Wilson CL. Biological control of postharvest diseases of fruits and vegetables：recent advances[J] . HortScience, 1992, 27（2）：94-98.
[8] 秦丹. 生防制剂在葡萄保鲜中的应用与抑菌机理研究[D] . 长沙：湖南农业大学, 2007.
[9] Zhao Y, Tu K, Shao X, et al. Effects of the yeast Pichia guilliermo-ndii against Rhizopus nigricans on tomato fruit[J] . Postharvest Biology and Technology, 2008, 49（1）：113-120.
[10] Tian SP, Fan Q, et al. Effect of biocontrol antagonists applied in combination with calcium on the control of postharvest diseases in different fruit[J] . Bulletin-OILB/SROP, 2201, 25（10）：193-196.
[11] Zhang H, Zheng X, Yu T. Biological control of postharvest diseases of peach with Cryptococcus laurentii[J] . Food Control, 2007, 18（4）：287-291.
[12] Yao HJ, Tian SP. Effects of a biocontrol agent and methyl jasmonate on postharvest diseases of peach fruit and the possible mechanisms involved[J] . Journal of Applied Microbiology, 2005, 98（4）：941-950.
[13] 姚红杰. 拮抗菌和化学物质的抑病机理及果实抗病相关基因的克隆[D] . 北京：中国科学院研究生院, 2005.
[14] Filonow AB, Vishniac HS, Anderson JA, et al. Biological control of Botrytis cinerea in apple by yeasts from various habitats and their putative mechanisms of antagonism[J] . Biological control, 1996, 7（2）：212-220.
[15] Chalutz E, Ben-Arie R, Droby S, et al. Yeasts as biocontrol agents of postharvest diseases of fruits[J] . Phytoparasitica：Israel journal of plant protection sciences, 1988.
[16] Saravanakumar D, Ciavorella A, et al. Metschnikowia pulcherrima strain MACH1 outcompetes Botrytis cinerea, Alternaria alternata and Penicillium expansum in apples through iron depletion[J] . Postharvest Biology and Technology, 2008, 49（1）：121-128.
[17] Arras G. Mode of action of an isolate of Candida famata in biolo-gical control of Penicillium digitatum in orange fruits[J] . Posth-arvest Biology and Technology, 1996, 8（3）：191-198.
[18] Fan Q, Tian S, Liu H, et al. Production of β-1, 3-glucanase and chitinase of two biocontrol agents and their possible modes of action[J] . Chinese Science Bulletin, 2002, 47（4）：292.
[19] Guetsky R, Shtienberg D, et al. Improving biological control by com-