Literature DB >> 21637936

PdCYP51B, a new putative sterol 14α-demethylase gene of Penicillium digitatum involved in resistance to imazalil and other fungicides inhibiting ergosterol synthesis.

Xuepeng Sun1, Jiye Wang, Dan Feng, Zhonghua Ma, Hongye Li.   

Abstract

Penicillium digitatum, causing green mold decay, is the most destructive postharvest pathogen of citrus fruits worldwide. The phenotypes and genotypes of 403 isolates of P. digitatum, collected from packing houses and supermarkets in Zhejiang, China, during 2000 to 2010, were characterized in terms of their imazalil sensitivity. The frequency of detected imazalil-resistant (IMZ-R) isolates increased from 2.1% in 2000 to 60-84% during 2005-2010. Only 6.5% and 4.5% of the collected IMZ-R isolates belong to the previously described IMZ-R1 and IMZ-R2 genotypes, respectively. To determine the resistance mechanism of the predominant and novel IMZ-R isolates of P. digitatum (termed IMZ-R3), genes PdCYP51B and PdCYP51C, homologous to the sterol 14α-demethylase encoded gene PdCYP51, were cloned from six IMZ-R3 and eight imazalil-sensitive (IMZ-S) isolates of P. digitatum. A unique 199-bp insertion was observed in the promoter region of PdCYP51B in all IMZ-R3 isolates examined but in none of the tested IMZ-S isolates. Further analysis by PCR confirmed that this insertion was present in all IMZ-R3 isolates but absent in IMZ-S, IMZ-R1, and IMZ-R2 isolates. Transcription levels of PdCYP51B in three IMZ-R3 isolates were found to be 7.5- to 13.6-fold higher than that in two IMZ-S isolates of P. digitatum. Introduction of another copy of PdCYP51B ( s ) (from IMZ-S) into an IMZ-S isolate decreased the sensitivity of P. digitatum to 14α-demethylation inhibitors (DMIs) only to a small extent, but introduction of a copy of PdCYP51B ( R ) (from IMZ-R3) dramatically increased the resistance level of P. digitatum to DMIs. Regarding PdCYP51C, no consistent changes in either nucleotide sequence or expression level were correlated with imazalil resistance among IMZ-R and IMZ-S isolates. Based on these results, we concluded that (1) the CYP51 family of P. digitatum contains the PdCYP51B and PdCYP51C genes, in addition to the known gene PdCYP51A (previously PdCYP51); (2) PdCYP51B is involved in DMI fungicide resistance; and (3) overexpression of PdCYP51B resulting from a 199-bp insertion mutation in the promoter region of PdCYP51B is responsible for the IMZ-R3 type of DMI resistance in P. digitatum.

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Year:  2011        PMID: 21637936     DOI: 10.1007/s00253-011-3355-7

Source DB:  PubMed          Journal:  Appl Microbiol Biotechnol        ISSN: 0175-7598            Impact factor:   4.813


  23 in total

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Authors:  Yong Chen; Zongwei Li; Xuelin Han; Shuguang Tian; Jingya Zhao; Fangyan Chen; Xueting Su; Jingjun Zhao; Ziying Zou; Yanwen Gong; Fen Qu; Guangbin Qiu; Siyao Wang; Xiaodong Jia; Zhongyi Lu; Mandong Hu; Liuyu Huang; Paul E Verweij; Li Han
Journal:  Antimicrob Agents Chemother       Date:  2018-04-26       Impact factor: 5.191

2.  The plasma membrane H+-ATPase is critical for cell growth and pathogenicity in Penicillium digitatum.

Authors:  Jie Li; Shuzhen Yang; Dongmei Li; Litao Peng; Gang Fan; Siyi Pan
Journal:  Appl Microbiol Biotechnol       Date:  2022-06-30       Impact factor: 5.560

3.  Thioredoxin and Glutaredoxin Systems Required for Oxidative Stress Resistance, Fungicide Sensitivity, and Virulence of Alternaria alternata.

Authors:  Haijie Ma; Mingshuang Wang; Yunpeng Gai; Huilan Fu; Bin Zhang; Ruoxin Ruan; Kuang-Ren Chung; Hongye Li
Journal:  Appl Environ Microbiol       Date:  2018-07-02       Impact factor: 4.792

4.  Novel mutations in CYP51B from Penicillium digitatum involved in prochloraz resistance.

Authors:  Jinlong Wang; Jinhui Yu; Jing Liu; Yongze Yuan; Na Li; Muqing He; Ting Qi; Geng Hui; Li Xiong; Deli Liu
Journal:  J Microbiol       Date:  2014-08-02       Impact factor: 3.422

5.  A novel sterol regulatory element-binding protein gene (sreA) identified in penicillium digitatum is required for prochloraz resistance, full virulence and erg11 (cyp51) regulation.

Authors:  Jing Liu; Yongze Yuan; Zhi Wu; Na Li; Yuanlei Chen; Tingting Qin; Hui Geng; Li Xiong; Deli Liu
Journal:  PLoS One       Date:  2015-02-20       Impact factor: 3.240

6.  Citronellal Exerts Its Antifungal Activity by Targeting Ergosterol Biosynthesis in Penicillium digitatum.

Authors:  Qiuli OuYang; Yangmei Liu; Okwong Reymick Oketch; Miaoling Zhang; Xingfeng Shao; Nengguo Tao
Journal:  J Fungi (Basel)       Date:  2021-05-29

7.  Genome sequence of the necrotrophic fungus Penicillium digitatum, the main postharvest pathogen of citrus.

Authors:  Marina Marcet-Houben; Ana-Rosa Ballester; Beatriz de la Fuente; Eleonora Harries; Jose F Marcos; Luis González-Candelas; Toni Gabaldón
Journal:  BMC Genomics       Date:  2012-11-21       Impact factor: 3.969

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Authors:  Fei Wang; Yang Lin; Wei-Xiao Yin; You-Liang Peng; Guido Schnabel; Jun-Bin Huang; Chao-Xi Luo
Journal:  Sci Rep       Date:  2015-12-03       Impact factor: 4.379

9.  Antifungal Effect of Chitosan as Ca(2+) Channel Blocker.

Authors:  Choon Geun Lee; Ja Choon Koo; Jae Kweon Park
Journal:  Plant Pathol J       Date:  2016-06-01       Impact factor: 1.795

10.  Whole transcriptome analysis of Penicillium digitatum strains treatmented with prochloraz reveals their drug-resistant mechanisms.

Authors:  Jing Liu; Shengqiang Wang; Tingting Qin; Na Li; Yuhui Niu; Dandan Li; Yongze Yuan; Hui Geng; Li Xiong; Deli Liu
Journal:  BMC Genomics       Date:  2015-10-24       Impact factor: 3.969
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