Your search keyword '"Shuiyan, Ma"' showing total 3 results

1. IolR, a negative regulator of the myo-inositol metabolic pathway, inhibits cell autoaggregation and biofilm formation by downregulating RpmA in Aeromonas hydrophila

Author

Yuhao Dong, Dan Zhao, Chengping Lu, Shougang Li, Yongjie Liu, Jin Liu, Jinzhu Geng, and Shuiyan Ma

Subjects

Models, Molecular, Protein Conformation, Virulence Factors, Mutant, Virulence, Applied Microbiology and Biotechnology, Microbiology, Article, lcsh:Microbial ecology, 03 medical and health sciences, chemistry.chemical_compound, Bacterial Proteins, Transcription (biology), Inositol, 030304 developmental biology, 0303 health sciences, biology, 030306 microbiology, Sequence Analysis, RNA, Gene Expression Profiling, Biofilm, Wild type, Gene Expression Regulation, Bacterial, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Aeromonas hydrophila, chemistry, Biofilms, lcsh:QR100-130, Pathogens, Bacteria, Gene Deletion, Metabolic Networks and Pathways, Biotechnology

Abstract

Aeromonas hydrophila is the causative agent of motile Aeromonad septicemia in fish. Previous studies have shown that the myo-inositol metabolism is essential for the virulence of this bacterium. IolR is a transcription inhibitor that negatively regulates myo-inositol metabolic activity. While in the process of studying the inositol catabolism in A. hydrophila Chinese epidemic strain NJ-35, we incidentally found that ΔiolR mutant exhibited obvious autoaggregation and increased biofilm formation compared to the wild type. The role of surface proteins in A. hydrophila autoaggregation was confirmed by different degradation treatments. Furthermore, calcium promotes the formation of aggregates, which disappear in the presence of the calcium chelator EGTA. Transcriptome analysis, followed by targeted gene deletion, demonstrated that biofilm formation and autoaggregation caused by the inactivation of iolR was due to the increased transcription of a RTX-family adhesion gene, rmpA. Further, IolR was determined to directly regulate the transcription of rmpA. These results indicated that iolR is negatively involved in autoaggregation and biofilm formation in A. hydrophila, and this involvement was associated with its inhibition on the expression of rmpA.

Published

2020

2. Identification of a new effector-immunity pair of Aeromonas hydrophila type VI secretion system

Author

Jin Liu, Nannan Wang, Yuhao Dong, Yongjie Liu, Chengping Lu, and Shuiyan Ma

Subjects

[SDV]Life Sciences [q-bio], Virulence, Biology, 03 medical and health sciences, Fish Diseases, Bacterial Proteins, Animals, Secretion, Gene, Zebrafish, 030304 developmental biology, Type VI secretion system, chemistry.chemical_classification, Genetics, 0303 health sciences, lcsh:Veterinary medicine, General Veterinary, 030306 microbiology, Effector, Type VI Secretion Systems, biology.organism_classification, Amino acid, Aeromonas hydrophila, chemistry, Genes, Bacterial, Biofilms, lcsh:SF600-1100, Microbial Interactions, Domain of unknown function, Gram-Negative Bacterial Infections, Research Article

Abstract

The type VI secretion system (T6SS) is a multiprotein weapon that kills eukaryotic predators or prokaryotic competitors by delivering toxic effectors. Despite the importance of T6SS in bacterial environmental adaptation, it is still challenging to systematically identify T6SS effectors because of their high diversity and lack of conserved domains. In this report, we discovered a putative effector gene, U876-17730, in the whole genome of Aeromonas hydrophila NJ-35 based on the reported conservative domain DUF4123 (domain of unknown function), with two cognate immunity proteins encoded downstream. Phylogenetic tree analysis of amino acids indicates that AH17730 belongs to the Tle1 (type VI lipase effector) family, and therefore was named Tle1AH. The deletion of tle1AH resulted in significantly decreased biofilm formation, antibacterial competition ability and virulence in zebrafish (Danio rerio) when compared to the wild-type strain. Only when the two immunity proteins coexist can bacteria protect themselves from the toxicity of Tle1AH. Further study shows that Tle1AH is a kind of phospholipase that possesses a conserved lipase motif, Gly-X-Ser-X-Gly (X is for any amino acid). Tle1AH is secreted by T6SS, and this secretion requires its interaction with an associated VgrG (valine-glycine repeat protein G). In conclusion, we identified a T6SS effector-immunity pair and verified its function, which lays the foundation for future research on the role of T6SS in the pathogenic mechanism of A. hydrophila.

Published

2019

3. Diverse effects of nitric oxide reductase NorV on Aeromonas hydrophila virulence-associated traits under aerobic and anaerobic conditions

Author

Jin Liu, Yuhao Dong, Chengping Lu, Yongjie Liu, Nannan Wang, and Shuiyan Ma

Subjects

0301 basic medicine, Food Chain, Nitric-oxide reductase, medicine.medical_treatment, [SDV]Life Sciences [q-bio], 030106 microbiology, Mutant, Virulence, Nitric Oxide, Microbiology, Nitric oxide, Tetrahymena thermophila, 03 medical and health sciences, chemistry.chemical_compound, medicine, Anaerobiosis, Protease, lcsh:Veterinary medicine, General Veterinary, biology, Wild type, biology.organism_classification, Aerobiosis, Aeromonas hydrophila, 030104 developmental biology, chemistry, lcsh:SF600-1100, Oxidoreductases, Anaerobic exercise, Gene Deletion, Research Article

Abstract

NorV has been known to be an anaerobic nitric oxide reductase associated with nitric oxide (NO) detoxification. Recently, we showed that the norV gene of Aeromonas hydrophila was highly upregulated after co-culturing with Tetrahymena thermophila. Here, we demonstrated that the transcription and expression levels of norV were upregulated in a dose-dependent manner after exposure to NO under aerobic and anaerobic conditions. To investigate the roles of norV in resisting predatory protists and virulence of A. hydrophila, we constructed the norV gene-deletion mutant (ΔnorV). Compared to the wild type, the ΔnorV mutant showed no significant difference in growth at various NO concentrations under aerobic conditions but significantly stronger NO-mediated growth inhibition under anaerobic conditions. The deletion of norV exhibited markedly decreased cytotoxicity, hemolytic and protease activities under aerobic and anaerobic conditions. Also, the hemolysin co-regulated protein (Hcp) in the ΔnorV mutant showed increased secretion under aerobic conditions but decreased secretion under anaerobic conditions as compared to the wild-type. Moreover, the inactivation of norV led to reduced resistance to predation by T. thermophila, decreased survival within macrophages and highly attenuated virulence in zebrafish. Our data indicate a diverse role for norV in the expression of A. hydrophila virulence-associated traits that is not completely dependent on its function as a nitric oxide reductase. This study provides insights into an unexplored area of NorV, which will contribute to our understanding of bacterial pathogenesis and the development of new control strategies for A. hydrophila infection.

Published

2019