Your search keyword '"Zhang, Meihong"' showing total 3 results

1. Screening of pathogenicity-deficient Penicillium italicum mutants established by Agrobacterium tumefaciens-mediated transformation.

Author

Zhang, Meihong, Yang, Shuzhen, Li, Qianru, Wang, Meng, and Peng, Litao

Subjects

*CITRUS fruits, *POSTHARVEST diseases, *FRUIT storage, *CONIDIA, *PENICILLIUM, *APPLE blue mold

Abstract

Blue mold, caused by Penicillium italicum, is one of the main postharvest diseases of citrus fruits during storage and marketing. The pathogenic mechanism remains largely unclear. To explore the potential pathogenesis-related genes of this pathogen, a T-DNA insertion library of P. italicum PI5 was established via Agrobacterium tumefaciens-mediated transformation (ATMT). The system yielded 200–250 transformants per million conidia, and the transformants were genetically stable after five generations of successive subcultures on hygromycin-free media. 2700 transformants were obtained to generate a T-DNA insertion library of P. italicum. Only a few of the 200 randomly selected mutants exhibited significantly weakened virulence on citrus fruits, with two mutants displaying attenuated sporulation. The T-DNA in the two mutants existed as a single copy. Moreover, the mutant genes PiBla (PITC_048370) and PiFTF1 (PITC_077280) identified may be involved in conidia production by regulating expressions of the key regulatory components for conidiogenesis. These results demonstrated that the ATMT system is useful to obtain mutants of P. italicum for further investigation of the molecular mechanisms of pathogenicity and the obtained two pathogenesis-related genes might be novel loci associated with pathogenesis and conidia production. Highlights: •The ATMT approach has been optimised to construct mutant library of P. italcum. •Two mutants deficient in conidia production with reduced pathogenicity on citrus. •The corresponding mutant genes were identified as PiBla and PiFTF1, respectively. •The expression of three key regulators of conidiogenesis was altered in the mutants. [ABSTRACT FROM AUTHOR]

Published

2024

2. SntB Affects Growth to Regulate Infecting Potential in Penicillium italicum.

Author

Li, Chunyan, Yang, Shuzhen, Zhang, Meihong, Yang, Yanting, Li, Zhengzheng, and Peng, Litao

Subjects

APPLE blue mold, CALCIUM ions, PENICILLIUM, HYDROLASES, PHYTOPATHOGENIC fungi, CARRIER proteins, ORANGES

Abstract

Penicillium italicum, a major postharvest pathogen, causes blue mold rot in citrus fruits through the deployment of various virulence factors. Recent studies highlight the role of the epigenetic reader, SntB, in modulating the pathogenicity of phytopathogenic fungi. Our research revealed that the deletion of the SntB gene in P. italicum led to significant phenotypic alterations, including delayed mycelial growth, reduced spore production, and decreased utilization of sucrose. Additionally, the mutant strain exhibited increased sensitivity to pH fluctuations and elevated iron and calcium ion stress, culminating in reduced virulence on Gannan Novel oranges. Ultrastructural analyses disclosed notable disruptions in cell membrane integrity, disorganization within the cellular matrix, and signs of autophagy. Transcriptomic data further indicated a pronounced upregulation of hydrolytic enzymes, oxidoreductases, and transport proteins, suggesting a heightened energy demand. The observed phenomena were consistent with a carbon starvation response potentially triggering apoptotic pathways, including iron-dependent cell death. These findings collectively underscored the pivotal role of SntB in maintaining the pathogenic traits of P. italicum, proposing that targeting PiSntB could offer a new avenue for controlling citrus fungal infections and subsequent fruit decay. [ABSTRACT FROM AUTHOR]

Published

2024

3. Identification of Pathogenicity-Related Effector Proteins and the Role of Piwsc1 in the Virulence of Penicillium italicum on Citrus Fruits.

Author

Li, Xiaoying, Yang, Shuzhen, Zhang, Meihong, Yang, Yanting, and Peng, Litao

Subjects

CITRUS fruits, APPLE blue mold, PENICILLIUM, POSTHARVEST diseases, GENE knockout, PROTEINS

Abstract

Blue mold caused by Penicillium italicum is one of the two major postharvest diseases of citrus fruits. The interactions of pathogens with their hosts are complicated, and virulence factors that mediate pathogenicity have not yet been identified. In present study, a prediction pipeline approach based on bioinformatics and transcriptomic data is designed to determine the effector proteins of P. italicum. Three hundred and seventy-five secreted proteins of P. italicum were identified, many of which (29.07%) were enzymes for carbohydrate utilization. Twenty-nine candidates were further analyzed and the expression patterns of 12 randomly selected candidate effector genes were monitored during the early stages of growth on PDA and infection of Navel oranges for validation. Functional analysis of a cell wall integrity-related gene Piwsc1, a core candidate, was performed by gene knockout. The deletion of Piwsc1 resulted in reduced virulence on citrus fruits, as presented by an approximate 57% reduction in the diameter of lesions. In addition, the mycelial growth rate, spore germination rate, and sporulation of ΔPiwsc1 decreased. The findings provide us with new insights to understand the pathogenesis of P. italicum and develop an effective and sustainable control method for blue mold. [ABSTRACT FROM AUTHOR]

Published

2022