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油菜多聚半乳糖醛酸酶抑制剂蛋白抑制核盘菌多聚半乳糖醛酸酶的酶解和坏死活性,并延缓转基因植物的症状。

Brassica napus polygalacturonase inhibitor proteins inhibit Sclerotinia sclerotiorum polygalacturonase enzymatic and necrotizing activities and delay symptoms in transgenic plants.

机构信息

Agriculture and Agri-Food Canada, 107 Science Place, Saskatoon, SK S7N 0X2, Canada.

出版信息

Can J Microbiol. 2013 Feb;59(2):79-86. doi: 10.1139/cjm-2012-0352. Epub 2012 Nov 21.

DOI:10.1139/cjm-2012-0352
PMID:23461514
Abstract

Sclerotinia sclerotiorum releases a battery of polygalacturonases (PGs) during infection, which the host plant may cope with through production of polygalacturonase inhibitor proteins (PGIPs). To study the interaction between S. sclerotiorum PGs and Brassica napus PGIPs, 5 S. sclerotiorum PGs and 4 B. napus PGIPs were expressed in Pichia pastoris. SsPG3, SsPG6, and BnPGIP1 were successfully produced in the yeast system, and BnPGIP1 inhibited SsPG6 enzymatic activity in vitro. SsPG3 and SsPG6 both induced light-dependent necrosis when infiltrated into leaves, which was reduced in an Arabidopsis thaliana line expressing BnPGIP2 and to a lesser extent in a line expressing BnPGIP1. The line expressing BnPGIP2 also exhibited a delay in the onset of symptoms upon S. sclerotiorum inoculation, but no long-term effect on S. sclerotiorum disease progression was observed. The P. pastoris system was found to be suitable for expressing high levels of some S. sclerotiorum PGs, but PGIP interaction studies were best performed in planta. Arabidopsis thaliana forms necrotic lesions upon infiltration of PGs, is susceptible to S. sclerotiorum, and is easily transformed, and thus, is well-suited for the qualitative study of PG-PGIP interactions.

摘要

菌核盘菌在感染过程中会释放一系列的多聚半乳糖醛酸酶(PGs),而寄主植物可能通过产生多聚半乳糖醛酸酶抑制蛋白(PGIPs)来应对。为了研究菌核盘菌 PGs 和油菜 PGIPs 之间的相互作用,在巴斯德毕赤酵母中表达了 5 种菌核盘菌 PGs 和 4 种油菜 PGIPs。SsPG3、SsPG6 和 BnPGIP1 在酵母系统中成功表达,并且 BnPGIP1 在体外抑制了 SsPG6 的酶活性。SsPG3 和 SsPG6 都能诱导叶片中的光依赖性坏死,而在表达 BnPGIP2 的拟南芥系和在表达 BnPGIP1 的系中,这种坏死减轻了。表达 BnPGIP2 的系在菌核盘菌接种后症状出现的时间也有所延迟,但对菌核盘菌的病程没有长期影响。发现巴斯德毕赤酵母系统适合表达高水平的某些菌核盘菌 PGs,但 PGIP 相互作用研究最好在体内进行。拟南芥在 PGs 浸润时会形成坏死斑,易受菌核盘菌侵染,且易于转化,因此非常适合 PG-PGIP 相互作用的定性研究。

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