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本文引用的文献

1
Occurrence and Characterization of Dimethachlon Insensitivity in Sclerotinia sclerotiorum in Jiangsu Province of China.中国江苏省核盘菌对菌核净不敏感现象的发生与特征
Plant Dis. 2009 Jan;93(1):36-42. doi: 10.1094/PDIS-93-1-0036.
2
Integrated Use of Pyraclostrobin and Epoxiconazole for the Control of Fusarium Head Blight of Wheat in Anhui Province of China.吡唑醚菌酯和戊唑醇复配制剂防治中国安徽省小麦赤霉病的应用研究
Plant Dis. 2012 Oct;96(10):1495-1500. doi: 10.1094/PDIS-01-12-0099-RE.
3
The FgHOG1 pathway regulates hyphal growth, stress responses, and plant infection in Fusarium graminearum.FgHOG1 通路调控禾谷镰刀菌菌丝生长、应激响应和植物侵染。
PLoS One. 2012;7(11):e49495. doi: 10.1371/journal.pone.0049495. Epub 2012 Nov 14.
4
The mitogen-activated protein kinase kinase kinase BcOs4 is required for vegetative differentiation and pathogenicity in Botrytis cinerea.BcOs4 丝裂原活化蛋白激酶激酶激酶是灰葡萄孢菌营养生长分化和致病性所必需的。
Appl Microbiol Biotechnol. 2012 Oct;96(2):481-92. doi: 10.1007/s00253-012-4029-9. Epub 2012 Apr 11.
5
Involvement of a putative response regulator Brrg-1 in the regulation of sporulation, sensitivity to fungicides, and osmotic stress in Botrytis cinerea.假定的应答调节子 Brrg-1 在调控 Botrytis cinerea 中孢子形成、对杀菌剂的敏感性和渗透胁迫中的作用。
Appl Microbiol Biotechnol. 2011 Apr;90(1):215-26. doi: 10.1007/s00253-010-3027-z. Epub 2010 Dec 14.
6
The mitogen-activated protein kinase kinase BOS5 is involved in regulating vegetative differentiation and virulence in Botrytis cinerea.促分裂原活化蛋白激酶激酶 BOS5 参与调控灰葡萄孢菌的营养分化和毒性。
Fungal Genet Biol. 2010 Sep;47(9):753-60. doi: 10.1016/j.fgb.2010.06.002. Epub 2010 Jun 8.
7
Turgor and net ion flux responses to activation of the osmotic MAP kinase cascade by fludioxonil in the filamentous fungus Neurospora crassa.膨压和净离子通量对丝状真菌粗糙脉孢菌中由氟啶酮激活渗透 MAP 激酶级联的反应。
Fungal Genet Biol. 2010 Aug;47(8):721-6. doi: 10.1016/j.fgb.2010.05.007. Epub 2010 May 28.
8
The two-component histidine kinase Fhk1 controls stress adaptation and virulence of Fusarium oxysporum.双组分组氨酸激酶 Fhk1 控制尖孢镰刀菌的应激适应和毒力。
Mol Plant Pathol. 2010 May;11(3):395-407. doi: 10.1111/j.1364-3703.2010.00612.x.
9
Identification of novel virulence factors associated with signal transduction pathways in Alternaria brassicicola.与十字花科链格孢菌信号转导途径相关的新型毒力因子的鉴定
Mol Microbiol. 2009 Jun;72(6):1316-33. doi: 10.1111/j.1365-2958.2009.06689.x. Epub 2009 May 13.
10
Master and commander in fungal pathogens: the two-component system and the HOG signaling pathway.真菌病原体中的主宰与指挥官:双组分系统和高渗甘油(HOG)信号通路
Eukaryot Cell. 2008 Dec;7(12):2017-36. doi: 10.1128/EC.00323-08. Epub 2008 Oct 24.

两组分组氨酸激酶 Shk1 控制核盘菌的应激反应、菌核形成和杀菌剂抗性。

A two-component histidine kinase Shk1 controls stress response, sclerotial formation and fungicide resistance in Sclerotinia sclerotiorum.

机构信息

College of Plant Protection, Nanjing Agricultural University, Key Laboratory of Pesticide, Jiangsu Province, Nanjing, 210095, China.

出版信息

Mol Plant Pathol. 2013 Sep;14(7):708-18. doi: 10.1111/mpp.12041. Epub 2013 Jun 3.

DOI:10.1111/mpp.12041
PMID:23724858
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6638771/
Abstract

Fungal histidine kinases (HKs) are involved in osmotic and oxidative stress responses, hyphal development, fungicide sensitivity and virulence. Members of HK class III are known to signal through the high-osmolarity glycerol mitogen-activated protein kinase (HOG MAPK). In this study, we characterized the Shk1 gene (SS1G_12694.3), which encodes a putative class III HK, from the plant pathogen Sclerotinia sclerotiorum. Disruption of Shk1 resulted in resistance to phenylpyrrole and dicarboximide fungicides and increased sensitivity to hyperosmotic stress and H2 O2 -induced oxidative stress. The Shk1 mutant showed a significant reduction in vegetative hyphal growth and was unable to produce sclerotia. Quantitative real-time polymerase chain reaction (qRT-PCR and glycerol determination assays showed that the expression of SsHOG1 (the last kinase of the Hog pathway) and glycerol accumulation were regulated by the Shk1 gene, but PAK (p21-activated kinase) was not. In addition, the Shk1 mutant showed no change in virulence. All the defects were restored by genetic complementation of the Shk1 deletion mutant with the wild-type Shk1 gene. These findings indicate that Shk1 is involved in vegetative differentiation, sclerotial formation, glycerol accumulation and adaption to hyperosmotic and oxidative stresses, and to fungicides, in S. sclerotiorum. Taken together, our results demonstrate, for the first time, the role of two-component HKs in Sclerotinia.

摘要

真菌组氨酸激酶(HKs)参与渗透和氧化应激反应、菌丝发育、杀真菌剂敏感性和毒力。已知 HK 类 III 的成员通过高渗透压甘油有丝分裂原激活蛋白激酶(HOG MAPK)信号转导。在这项研究中,我们从植物病原体核盘菌中鉴定了 Shk1 基因(SS1G_12694.3),该基因编码一个假定的 III 类 HK。Shk1 缺失导致对苯基嘧啶和二羧基酰亚胺杀真菌剂的抗性增加,对高渗透压应激和 H2O2 诱导的氧化应激的敏感性增加。Shk1 突变体的营养菌丝生长显著减少,无法产生菌核。实时定量聚合酶链反应(qRT-PCR 和甘油测定试验表明,SsHOG1(Hog 途径的最后一个激酶)的表达和甘油积累受 Shk1 基因调控,但 PAK(p21 激活激酶)不受调控。此外,Shk1 突变体的毒力没有变化。Shk1 缺失突变体的野生型 Shk1 基因的遗传互补完全恢复了所有缺陷。这些发现表明 Shk1 参与核盘菌的营养分化、菌核形成、甘油积累以及对高渗透压和氧化应激和杀真菌剂的适应。总之,我们的研究结果首次表明,双组分 HKs 在核盘菌中发挥作用。