| Literature DB >> 23952944 |
Xuepeng Sun1, Ruoxin Ruan, Lingyun Lin, Congyi Zhu, Tianyuan Zhang, Mingshuang Wang, Hongye Li, Dongliang Yu.
Abstract
Penicillium digitatum, causing citrus green mold, is one of the most devastating pathogenic fungi for postharvest fruits. The disease control is becoming less efficient because of the dispersal of fungicide-resistant strains. However, genome-scale analyses of its resistance mechanism are scarce. In this work, we sequenced the whole genome of the R1 genotype strain Pd01-ZJU and investigated the genes and DNA elements highly associated with drug resistance. Variation in DNA elements related to drug resistance between P. digitatum strains was revealed in both copy number and chromosomal location, indicating that their recent and frequent translocation might have contributed to environmental adaptation. In addition, ABC transporter proteins in Pd01-ZJU were characterized, and the roles of typical subfamilies (ABCG, ABCC, and ABCB) in imazalil resistance were explored using real-time PCR. Seven ABC proteins, including the previously characterized PMR1 and PMR5, were induced by imazalil, which suggests a role in drug resistance. In summary, this work presents genome information of the R1 genotype P. digitatum and systematically investigates DNA elements and ABC proteins associated with imazalil resistance for the first time, which would be indicative for studying resistant mechanisms in other pathogenic fungi.Entities:
Keywords: fungicide resistance; genome sequencing; pathogenic fungi
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Year: 2013 PMID: 23952944 DOI: 10.1111/1574-6968.12235
Source DB: PubMed Journal: FEMS Microbiol Lett ISSN: 0378-1097 Impact factor: 2.742