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Literature DB >> 27939158

The arcA gene contributes to the serum resistance and virulence of Haemophilus parasuis serovar 13 clinical strain EP3.

Lingqiang Ding¹, Xintian Wen², Lvqin He³, Xuefeng Yan⁴, Yongping Wen⁵, Sanjie Cao⁶, Xiaobo Huang⁷, Rui Wu⁸, Yiping Wen⁹.

Abstract

As a global transcriptional factor, ArcA regulates the expression of hundreds of genes involved in aerobic and anaerobic metabolism. Here we deleted arcA gene and investigated the biological characteristics of arcA deletion mutant (ΔarcA) in Haemophilus parasuis (H. parasuis) serovar 13 clinical strain EP3. Results indicated that deletion of arcA impaired growth of EP3 strain under anaerobic condition, and reduced virulence of EP3 strain in mice. Additionally, the ΔarcA strain showed greater sensitivity in porcine serum and produced less biofilm mass than the EP3 strain. Taken together, these findings suggested that the arcA gene may be involved in pathogenesis in Haemophilus parasuis.

Entities: Disease Gene Species

Keywords: H. parasuis; Serum resistance; Virulence; arcA gene

Mesh：

Substances：

Year: 2016 PMID： 27939158 DOI： 10.1016/j.vetmic.2016.10.011

Source DB: PubMed Journal: Vet Microbiol ISSN： 0378-1135 Impact factor: 3.293

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Cited

9 in total

1. Deletion of two-component system QseBC weakened virulence of Glaesserella parasuis in a murine acute infection model and adhesion to host cells.

Authors: Xuefeng Yan; Ke Dai; Congwei Gu; Zehui Yu; Manli He; Wudian Xiao; Mingde Zhao; Lvqin He
Journal: PeerJ Date: 2022-06-24 Impact factor: 3.061

2. Baicalin Inhibits Haemophilus Parasuis-Induced High-Mobility Group Box 1 Release during Inflammation.

Authors: Shulin Fu; Huashan Liu; Xiao Chen; Yinsheng Qiu; Chun Ye; Yu Liu; Zhongyuan Wu; Ling Guo; Yongqing Hou; Chien-An Andy Hu
Journal: Int J Mol Sci Date: 2018-04-27 Impact factor: 5.923

3. Tea polyphenols suppress growth and virulence-related factors of Haemophilus parasuis.

Authors: Ling Guo; Jing Guo; HuaShan Liu; Jing Zhang; Xiabing Chen; Yinsheng Qiu; Shulin Fu
Journal: J Vet Med Sci Date: 2018-05-22 Impact factor: 1.267

4. Deletion of Polyamine Transport Protein PotD Exacerbates Virulence in Glaesserella (Haemophilus) parasuis in the Form of Non-biofilm-generated Bacteria in a Murine Acute Infection Model.

Authors: Ke Dai; Zhen Yang; Xiaoyu Ma; Yung-Fu Chang; Sanjie Cao; Qin Zhao; Xiaobo Huang; Rui Wu; Yong Huang; Jing Xia; Qigui Yan; Xinfeng Han; Xiaoping Ma; Xintian Wen; Yiping Wen
Journal: Virulence Date: 2021-12 Impact factor: 5.882

5. A streptomycin resistance marker in H. parasuis based on site-directed mutations in rpsL gene to perform unmarked in-frame mutations and to verify natural transformation.

Authors: Ke Dai; Xintian Wen; Yung-Fu Chang; Sanjie Cao; Qin Zhao; Xiaobo Huang; Rui Wu; Yong Huang; Qigui Yan; Xinfeng Han; Xiaoping Ma; Yiping Wen
Journal: PeerJ Date: 2018-01-11 Impact factor: 2.984

The arcA gene contributes to the serum resistance and virulence of Haemophilus parasuis serovar 13 clinical strain EP3.

1. Deletion of two-component system QseBC weakened virulence of Glaesserella parasuis in a murine acute infection model and adhesion to host cells.

2. Baicalin Inhibits Haemophilus Parasuis-Induced High-Mobility Group Box 1 Release during Inflammation.

3. Tea polyphenols suppress growth and virulence-related factors of Haemophilus parasuis.

4. Deletion of Polyamine Transport Protein PotD Exacerbates Virulence in Glaesserella (Haemophilus) parasuis in the Form of Non-biofilm-generated Bacteria in a Murine Acute Infection Model.

5. A streptomycin resistance marker in H. parasuis based on site-directed mutations in rpsL gene to perform unmarked in-frame mutations and to verify natural transformation.

6. Basic Characterization of Natural Transformation in a Highly Transformable Haemophilus parasuis Strain SC1401.

7. Transcriptional Profiling of Host Cell Responses to Virulent Haemophilus parasuis: New Insights into Pathogenesis.

8. The Glaesserella parasuis phosphoglucomutase is partially required for lipooligosaccharide synthesis.

9. The effect of ArcA on the growth, motility, biofilm formation, and virulence of Plesiomonas shigelloides.