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7. An adenosine kinase exists in Xanthomonas campestris pathovar campestris and is involved in extracellular polysaccharide production, cell motility, and virulence

Author

Lu, Guang-Tao, Tang, Yong-Qin, Li, Cai-Yue, Li, Rui-Fang, An, Shi-Qi, Feng, Jia-Xun, He, Yong-Qiang, Jiang, Bo-Le, Tang, Dong-Jie, and Tang, Ji-Liang

Subjects
Adenosine kinase -- Physiological aspects, Adenosine kinase -- Research, Gene mutations -- Research, Bacterial growth -- Research, Virulence (Microbiology) -- Research, Plant-pathogen relationships -- Research, Prokaryotes -- Genetic aspects, Prokaryotes -- Research, Biological sciences
Abstract

Adenosine kinase (ADK) is a purine salvage enzyme and a typical housekeeping enzyme in eukaryotes which catalyzes the phosphorylation of adenosine to form AMP. Since prokaryotes synthesize purines de novo and no endogenous ADK activity is detectable in Escherichia coli, ADK has long been considered to be rare in bacteria. To date, only two prokaryotes, both of which are gram-positive bacteria, have been reported to contain ADK. Here we report that the gram-negative bacterium Xanthomonas campestris pathovar campestris, the causal agent of black rot of crucifers, possesses a gene (designated [adk.sub.Xcc]) encoding an ADK (named [ADK.sub.Xcc]), and we demonstrate genetically that the [ADK.sub.Xcc] is involved in extracellular polysaccharide (EPS) production, cell motility, and pathogenicity of X. campestris pv. campestris, [adk.sub.Xcc] was overexpressed as a [His.sub.6]-tagged protein in E. coli, and the purified [His.sub.6]-tagged protein exhibited ADK activity. Mutation of [adk.sub.Xcc] did not affect bacterial growth in rich and minimal media but led to an accumulation of intracellular adenosine and diminutions of intracellular ADK activity and ATP level, as well as EPS. The [adk.sub.Xcc] mutant displayed significant reductions in bacterial growth and virulence in the host plant.

Published
2009

8. Glyceraldehyde-3-phosphate dehydrogenase of Xanthomonas campestris pv. campestris is required for extracellular polysaccharide production and full virulence

Author

Lu, Guang-Tao, Xie, Jia-Ri, Chen, Lei, Hu, Jiang-Ru, An, Shi-Qi, Su, Hui-Zhao, Feng, Jia-Xun, He, Yong-Qiang, Jiang, Bo- Le, Tang, Dong-Jie, and Tang, Ji-Liang

Subjects
Polysaccharides -- Physiological aspects, Polysaccharides -- Genetic aspects, Polysaccharides -- Research, Bacterial diseases of plants -- Genetic aspects, Bacterial diseases of plants -- Research, Gene expression -- Research, Virulence (Microbiology) -- Genetic aspects, Virulence (Microbiology) -- Research, Biological sciences
Abstract

Glyceraldehyde-3-phosphate dehydrogenase (GAPDH) plays an important role in glucose catabolism, converting glyceraldehyde 3-phosphates to 1,3-bisphosphoglycerates. Open reading frame (ORF) XC_0972 in the genome of Xanthomonas campestris pv. campestris (Xcc) strain 8004 is the only ORF in this strain annotated to encode a GAPDH. In this work, we have demonstrated genetically that this ORF encodes a unique GAPDH in Xcc strain 8004, which seems to be constitutively expressed. A GAPDH-deficient mutant could still grow in medium with glucose or other sugars as the sole carbon source, and no phosphofructokinase activity was detectable in strain 8004. These facts suggest that Xcc may employ the Entner--Doudoroff pathway, but not glycolysis, to utilize glucose. The mutant could not utilize pyruvate as sole carbon source, whereas the wild-type could, implying that the GAPDH of Xcc is involved in gluconeogenesis. Furthermore, inactivation of the Xcc GAPDH resulted in impairment of bacterial growth and virulence in the host plant, and reduction of intracellular ATP and extracellular polysaccharide (EPS). This reveals that GAPDH is required for EPS production and full pathogenicity of Xcc.

Published
2009

9. [AvrAC.sub.Xcc8004], a type III effector with a leucine-rich repeat domain from Xanthomonas campestris pathovar campestris confers avirulence in vascular tissues of Arabidopsis thaliana ecotype Col-0

Author

Xu, Rong-Qi, Blanvillain, Servane, Feng, Jia-Xun, Jiang, Bo-Le, Li, Xian-Zhen, Wei, Hong-Yu, Kroj, Thomas, Lauber, Emmanuelle, Roby, Dominique, Chen, Baoshan, He, Yong-Qiang, Lu, Guang-Tao, Tang, Dong-Jie, Vasse, Jacques, Arlat, Matthieu, and Tang, Ji-Liang

Subjects
Arabidopsis thaliana -- Genetic aspects, Arabidopsis thaliana -- Health aspects, Virulence (Microbiology) -- Research, Xanthoma -- Research, Bacterial proteins -- Health aspects, Biological sciences
Abstract

Xanthomonas campestris pathovar campestris causes black rot, a vascular disease on cruciferous plants, including Arabidopsis thaliana. The gene XC1553 from X. campestris pv. campestris strain 8004 encodes a protein containing leucine-rich repeats (LRRs) and appears to be restricted to strains of X. campestris pv. campestris. LRRs are found in a number of type III-secreted effectors in plant and animal pathogens. These prompted us to investigate the role of the XC1553 gene in the interaction between X. campestris pv. campestris and A. thaliana. Translocation assays using the hypersensitive-reaction-inducing domain of X. campestris pv. campestris AvrBs1 as a reporter revealed that XC1553 is a type III effector. Infiltration of Arabidopsis leaf mesophyll with bacterial suspensions showed no differences between the wild-type strain and an XC1553 gene mutant: both strains induced disease symptoms on Kashmir and Col-0 ecotypes. However, a clear difference was observed when bacteria were introduced into the vascular system by piercing the central vein of leaves. In this case, the wild-type strain 8004 caused disease on the Kashmir ecotype, but not on ecotype Col-0; the XC1553 gene mutant became virulent on the Col-0 ecotype and still induced disease on the Kashmir ecotype. Altogether, these data show that the XC1553 gene, which was renamed [avrAC.sub.Xcc8004], functions as an avirulence gene whose product seems to be recognized in vascular tissues.

Published
2008

10. hpaR, a putative marR family transcriptional regulator, is positively controlled by HrpG and HrpX and involved in the pathogenesis, hypersensitive response, and extracellular protease production of Xanthomonas campestris pathovar campestris

Author

Wei, Ke, Tang, Dong-Jie, He, Yong-Qiang, Feng, Jia-Xun, Jiang, Bo-Le, Lu, Guang-Tao, Chen, Baoshan, and Tang, Ji-Liang

Subjects
Proteases -- Research, Genetic regulation -- Research, Gene mutations -- Research, Biological sciences
Abstract

The MarR family of transcriptional regulators of bacteria are involved in the regulation of many cellular processes, including pathogenesis. In this work, we have demonstrated genetically that hpaR (hpa, hrp associated), which encodes a putative MarR family regulator, is involved in the hypersensitive response (HR), pathogenicity, and extracellular protease production of the phytopathogenic bacterium Xanthomonas campestris pathovar campestris. A mutation in hpaR resulted in complete loss of virulence in the host plant cabbage, a delayed and weakened HR in the nonhost plant pepper ECW-10R, and an increase in extracellular protease production. Detection of the [beta]-glucuronidase activity of a plasmid-driven hpaR promoter-gusA reporter revealed that the expression of hpaR is positively controlled by HrpG and HrpX and is suppressed in rich medium while being strongly induced in minimal and hrp-inducing media and inside the host. These findings indicate that hpaR belongs to the hrpG and hrpX regulon and that HrpX regulates the extracellular protease production via hpaR in X. campestris pv. campestris.

Published
2007

11. Peptidoglycan hydrolysis mediated by the amidase AmiC and its LytM activator NlpD is critical for cell separation and virulence in the phytopathogen Xanthomonas campestris

Author

Yang, Li‐Chao, Gan, Yong‐Liang, Yang, Li‐Yan, Jiang, Bo‐Le, and Tang, Ji‐Liang

Subjects
T3SS, Xanthomonas, peptidoglycan hydrolysis, Virulence, Hydrolysis, cell separation, amidase, Original Article, Original Articles, Peptidoglycan, Xanthomonas campestris, LytM protein, Amidohydrolases
Abstract

Summary The essential stages of bacterial cell separation are described as the synthesis and hydrolysis of septal peptidoglycan (PG). The amidase, AmiC, which cleaves the peptide side‐chains linked to the glycan strands, contributes critically to this process and has been studied extensively in model strains of Escherichia coli. However, insights into the contribution of this protein to other processes in the bacterial cell have been limited. Xanthomonas campestris pv. campestris (Xcc) is a phytopathogen that causes black rot disease in many economically important plants. We investigated how AmiC and LytM family regulators, NlpD and EnvC, contribute to virulence and cell separation in this organism. Biochemical analyses of purified AmiC demonstrated that it could hydrolyse PG and its activity could be potentiated by the presence of the regulator NlpD. We also established that deletion of the genes encoding amiC1 or nlpD led to a reduction in virulence as well as effects on colony‐forming units and cell morphology. Moreover, further genetic and biochemical evidence showed that AmiC1 and NlpD affect the secretion of type III effector XC3176 and hypersensitive response (HR) induction in planta. These findings indicate that, in addition to their well‐studied role(s) in cell separation, AmiC and NlpD make an important contribution to the type III secretion (T3S) and virulence regulation in this important plant pathogen.

Published
2018

12. The C-terminal domain of the type III secretion chaperone HpaB contributes to dissociation of chaperone-effector complex in Xanthomonas campestris pv. campestris

Author

Gan, Yong-Liang, primary, Yang, Li-Yan, additional, Yang, Li-Chao, additional, Li, Wan-Lian, additional, Liang, Xue-Lian, additional, Jiang, Wei, additional, Jiang, Guo-Feng, additional, Hang, Xiao-Hong, additional, Yang, Mei, additional, Tang, Ji-Liang, additional, and Jiang, Bo-Le, additional

Published
2021
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13. Xanthomonas campestris pv. campestris possesses a single gluconeogenic pathway that is required for virulence

Author

Tang, Dong-Jie, He, Yong-Qiang, Feng, Jia-Xun, He, Bao-Ren, Jiang, Bo-Le, Lu, Guang-Tao, Chen, Baoshan, and Tang, Ji-Liang

Subjects
Xanthoma -- Research, Genetic research, Biological sciences
Abstract

Disruption of ppsA, a key gene in gluconeogenesis, of Xanthomonas campestris pv. campestris resulted in the failure of the pathogen to grow in medium with pyruvate or C4-dicarboxylates as the sole carbon source and a significant reduction in virulence, indicating that X. campestris pv. campestris possesses only the malic enzyme-PpsA route in gluconeogenesis, which is required for virulence.

Published
2005

14. Genetic Interference Analysis Reveals that Both 3-Hydroxybenzoic Acid and 4-Hydroxybenzoic Acid Are Involved in Xanthomonadin Biosynthesis in the Phytopathogen Xanthomonas campestris pv. campestris

Author

Cao, Xue-Qiang, primary, Ouyang, Xing-Yu, additional, Chen, Bo, additional, Song, Kai, additional, Zhou, Lian, additional, Jiang, Bo-Le, additional, Tang, Ji-Liang, additional, Ji, Guanghai, additional, Poplawsky, Alan R., additional, and He, Ya-Wen, additional

Published
2020
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19. Gene discovery by genome-wide CDS re-prediction and microarray-based transcriptional analysis in phytopathogen Xanthomonas campestris

Author

Pühler Alfred, Xu Yuquan, Tang Ji-Liang, He Yong-Qiang, Jiang Bo-Le, Vorhölter Frank-Jörg, Zhou Lian, and He Ya-Wen

Subjects
Xanthomonas campestris, CDS re-prediction, microarray analysis, new CDS, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background One of the major tasks of the post-genomic era is "reading" genomic sequences in order to extract all the biological information contained in them. Although a wide variety of techniques is used to solve the gene finding problem and a number of prokaryotic gene-finding software are available, gene recognition in bacteria is far from being always straightforward. Results This study reported a thorough search for new CDS in the two published Xcc genomes. In the first, putative CDSs encoded in the two genomes were re-predicted using three gene finders, resulting in the identification of 2850 putative new CDSs. In the second, similarity searching was conducted and 278 CDSs were found to have homologs in other bacterial species. In the third, oligonucleotide microarray and RT-PCR analysis identified 147 CDSs with detectable mRNA transcripts. Finally, in-frame deletion and subsequent phenotype analysis of confirmed that Xcc_CDS002 encoding a novel SIR2-like domain protein is involved in virulence and Xcc_CDS1553 encoding a ArsR family transcription factor is involved in arsenate resistance. Conclusions Despite sophisticated approaches available for genome annotation, many cellular transcripts have remained unidentified so far in Xcc genomes. Through a combined strategy involving bioinformatic, postgenomic and genetic approaches, a reliable list of 306 new CDSs was identified and a more thorough understanding of some cellular processes was gained.

Published
2011
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20. Identification of four novel small non-coding RNAs from Xanthomonas campestris pathovar campestris

Author

Lu Guang-Tao, Jiang Bo-Le, Feng Jia-Xun, He Yong-Qiang, Chen Xiao-Lin, Tang Dong-Jie, Jiang Rui-Ping, Lin Min, and Tang Ji-Liang

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background In bacteria, small non-coding RNAs (sRNAs) have been recognized as important regulators of various cellular processes. Approximately 200 bacterial sRNAs in total have been reported. However, very few sRNAs have been identified from phytopathogenic bacteria. Results Xanthomons campestris pathovar campestris (Xcc) is the causal agent of black rot disease of cruciferous crops. In this study, a cDNA library was constructed from the low-molecular weight RNA isolated from the Xcc strain 8004 grown to exponential phase in the minimal medium XVM2. Seven sRNA candidates were obtained by sequencing screen of 2,500 clones from the library and four of them were confirmed to be sRNAs by Northern hybridization, which were named sRNA-Xcc1, sRNA-Xcc2, sRNA-Xcc3, and sRNA-Xcc4. The transcription start and stop sites of these sRNAs were further determined. BLAST analysis revealed that the four sRNAs are novel. Bioinformatics prediction showed that a large number of genes with various known or unknown functions in Xcc 8004 are potential targets of sRNA-Xcc1, sRNA-Xcc3 and sRNA-Xcc4. In contrast, only a few genes were predicted to be potential targets of sRNA-Xcc2. Conclusion We have identified four novel sRNAs from Xcc by a large-scale screen. Bioinformatics analysis suggests that they may perform various functions. This work provides the first step toward understanding the role of sRNAs in the molecular mechanisms of Xanthomonas campestris pathogenesis.

Published
2010
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25. hpaR, a Putative marR Family Transcriptional Regulator, Is Positively Controlled by HrpG and HrpX and Involved in the Pathogenesis, Hypersensitive Response, and Extracellular Protease Production of Xanthomonas campestris Pathovar campestris▿

Author

Wei, Ke, Tang, Dong-Jie, He, Yong-Qiang, Feng, Jia-Xun, Jiang, Bo-Le, Lu, Guang-Tao, Chen, Baoshan, and Tang, Ji-Liang

Subjects
Plant Microbiology, Bacterial Proteins, Base Sequence, Molecular Sequence Data, Gene Expression Regulation, Bacterial, Promoter Regions, Genetic, Xanthomonas campestris, Peptide Hydrolases, Transcription Factors
Abstract

The MarR family of transcriptional regulators of bacteria are involved in the regulation of many cellular processes, including pathogenesis. In this work, we have demonstrated genetically that hpaR (hpa, hrp associated), which encodes a putative MarR family regulator, is involved in the hypersensitive response (HR), pathogenicity, and extracellular protease production of the phytopathogenic bacterium Xanthomonas campestris pathovar campestris. A mutation in hpaR resulted in complete loss of virulence in the host plant cabbage, a delayed and weakened HR in the nonhost plant pepper ECW-10R, and an increase in extracellular protease production. Detection of the beta-glucuronidase activity of a plasmid-driven hpaR promoter-gusA reporter revealed that the expression of hpaR is positively controlled by HrpG and HrpX and is suppressed in rich medium while being strongly induced in minimal and hrp-inducing media and inside the host. These findings indicate that hpaR belongs to the hrpG and hrpX regulon and that HrpX regulates the extracellular protease production via hpaR in X. campestris pv. campestris.

Published
2006

28. Identification of a putative cognate sensor kinase for the two-component response regulator HrpG, a key regulator controlling the expression of thehrpgenes inXanthomonas campestrispv.campestris

Author

Li, Rui-Fang, primary, Lu, Guang-Tao, additional, Li, Lei, additional, Su, Hui-Zhao, additional, Feng, Guo-fang, additional, Chen, Ya, additional, He, Yong-Qiang, additional, Jiang, Bo-Le, additional, Tang, Dong-Jie, additional, and Tang, Ji-Liang, additional

Published
2013
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33. Xanthomonas campestris Diffusible Factor Is 3-Hydroxybenzoic Acid and Is Associated with Xanthomonadin Biosynthesis, Cell Viability, Antioxidant Activity, and Systemic Invasion

Author

He, Ya-Wen, primary, Wu, Ji'en, additional, Zhou, Lian, additional, Yang, Fan, additional, He, Yong-Qiang, additional, Jiang, Bo-Le, additional, Bai, Linquan, additional, Xu, Yuquan, additional, Deng, Zixin, additional, Tang, Ji-Liang, additional, and Zhang, Lian-Hui, additional

Published
2011
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38. Identification of Six Type III Effector Genes with the PIP Box in Xanthomonas campestris pv. campestris and Five of Them Contribute Individually to Full Pathogenicity

Author

Jiang, Wei, primary, Jiang, Bo-Le, additional, Xu, Rong-Qi, additional, Huang, Jun-Ding, additional, Wei, Hong-Yu, additional, Jiang, Guo-Feng, additional, Cen, Wei-Jian, additional, Liu, Jiao, additional, Ge, Ying-Ying, additional, Li, Guang-Hua, additional, Su, Li-Li, additional, Hang, Xiao-Hong, additional, Tang, Dong-Jie, additional, Lu, Guang-Tao, additional, Feng, Jia-Xun, additional, He, Yong-Qiang, additional, and Tang, Ji-Liang, additional

Published
2009
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41. A putative colRXC1049–colSXC1050 two-component signal transduction system in Xanthomonas campestris positively regulates hrpC and hrpE operons and is involved in virulence, the hypersensitive response and tolerance to various stresses

Author

Zhang, Sui-Sheng, primary, He, Yong-Qiang, additional, Xu, Li-Ming, additional, Chen, Bo-Wen, additional, Jiang, Bo-Le, additional, Liao, Jie, additional, Cao, Jin-Rui, additional, Liu, Dan, additional, Huang, Yan-Qiang, additional, Liang, Xiao-Xia, additional, Tang, Dong-Jie, additional, Lu, Guang-Tao, additional, and Tang, Ji-Liang, additional

Published
2008
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43. AvrAC Xcc8004 , a Type III Effector with a Leucine-Rich Repeat Domain from Xanthomonas campestris Pathovar campestris Confers Avirulence in Vascular Tissues of Arabidopsis thaliana Ecotype Col-0

Author

Xu, Rong-Qi, primary, Blanvillain, Servane, additional, Feng, Jia-Xun, additional, Jiang, Bo-Le, additional, Li, Xian-Zhen, additional, Wei, Hong-Yu, additional, Kroj, Thomas, additional, Lauber, Emmanuelle, additional, Roby, Dominique, additional, Chen, Baoshan, additional, He, Yong-Qiang, additional, Lu, Guang-Tao, additional, Tang, Dong-Jie, additional, Vasse, Jacques, additional, Arlat, Matthieu, additional, and Tang, Ji-Liang, additional

Published
2008
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45. Comparative and functional genomics reveals genetic diversity and determinants of host specificity among reference strains and a large collection of Chinese isolates of the phytopathogen Xanthomonas campestris pv. campestris

Author

He, Yong-Qiang, primary, Zhang, Liang, additional, Jiang, Bo-Le, additional, Zhang, Zheng-Chun, additional, Xu, Rong-Qi, additional, Tang, Dong-Jie, additional, Qin, Jing, additional, Jiang, Wei, additional, Zhang, Xia, additional, Liao, Jie, additional, Cao, Jin-Ru, additional, Zhang, Sui-Sheng, additional, Wei, Mei-Liang, additional, Liang, Xiao-Xia, additional, Lu, Guang-Tao, additional, Feng, Jia-Xun, additional, Chen, Baoshan, additional, Cheng, Jing, additional, and Tang, Ji-Liang, additional

Published
2007
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46. Correlation analysis between putative glycosyl hydrolase gene and pathogenicity in Xanthomonas campestris pv. campestris.

Author

CEN Wei-jian, JIANG Bo-le, JIANG Wei, WU Zan, ZOU Hai-fan, and LIU Jiao

Abstract

[Objective] XC1077 gene was annotated to encode a putative glycosyl hydrolase in the reported genome sequence of Xanthomonas campestris pv. campestris strain 8004(Xcc 8004). The present experiment was concudcted to preliminarily investigate pathogenicity of XC1077 gene to lay the foundation for further study on the function of glycosyl hydrolase protein in the infection and colonization process of plant pathogenic bacteria. [Method] The integrate mutant NK1077 of XC1077 gene was constructed by using homologous single exchange method. The pLTRAJ plasmid with whole sequence of XC1077 gene made a functional supplement for NK1077. Then the pathogenicity of complementation strain C1077 was detected. [Result] The identification of PCR and enzyme digestion showed that the integrate mutant NK1077 and complementation strain C1077 were constructed successfully. NK1077 and C1077 strains could grow as well as Xcc 8004 on basic medium MMX. The pathogenic experiment demonstrated that the pathogenicity of NK1077 decreased to 48.3% that of Xcc 8004 in Chinese radish (Raphanussativus var. radiculus) cv. Manshenhong. Hypersensitive reaction (HR) results showed that HR of NK1077 was obviously lagging behind in pepper ECW-10R C1077. The pathogenicity and HR of complementation strain C1077 could returned to the wild-type level. [Conclusion] XC1077 gene plays an important role of pathogenicity in Xcc 8004 strain. [ABSTRACT FROM AUTHOR]

Published
2015
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48. Comparative and functional genomic analyses of the pathogenicity of phytopathogenXanthomonas campestrispv.campestris

Author

Qian, Wei, primary, Jia, Yantao, additional, Ren, Shuang-Xi, additional, He, Yong-Qiang, additional, Feng, Jia-Xun, additional, Lu, Ling-Feng, additional, Sun, Qihong, additional, Ying, Ge, additional, Tang, Dong-Jie, additional, Tang, Hua, additional, Wu, Wei, additional, Hao, Pei, additional, Wang, Lifeng, additional, Jiang, Bo-Le, additional, Zeng, Shenyan, additional, Gu, Wen-Yi, additional, Lu, Gang, additional, Rong, Li, additional, Tian, Yingchuan, additional, Yao, Zhijian, additional, Fu, Gang, additional, Chen, Baoshan, additional, Fang, Rongxiang, additional, Qiang, Boqin, additional, Chen, Zhu, additional, Zhao, Guo-Ping, additional, Tang, Ji-Liang, additional, and He, Chaozu, additional

Published
2005
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49. Identification of a putative cognate sensor kinase for the two-component response regulator HrpG, a key regulator controlling the expression of the hrp genes in X anthomonas campestris pv. campestris.

Author

Li, Rui ‐ Fang, Lu, Guang ‐ Tao, Li, Lei, Su, Hui ‐ Zhao, Feng, Guo ‐ fang, Chen, Ya, He, Yong ‐ Qiang, Jiang, Bo ‐ Le, Tang, Dong ‐ Jie, and Tang, Ji ‐ Liang

Subjects
GENE expression, PHYTOPATHOGENIC bacteria, GENETIC transcription in bacteria, GENETIC mutation, MICROBIAL virulence
Abstract

The bacterial phytopathogen X anthomonas campestris pv. campestris ( Xcc) relies on the hrp (hypersensitive response and pathogenicity) genes to cause disease and induce hypersensitive response ( HR). The hrp genes of bacterial phytopathogens are divided into two groups. Xcc hrp genes belong to group II. It has long been known that the group II hrp genes are activated by an AraC-type transcriptional regulator whose expression is controlled by a two-component system ( TCS) response regulator (named HrpG in Xcc). However, no cognate sensor kinase has yet been identified. Here, we present evidence showing that the Xcc open-reading frame XC _3670 encodes a TCS sensor kinase (named HpaS). Mutation of hpaS almost completely abolished the HR induction and virulence. Bacterial two-hybrid and protein pull-down assays revealed that HpaS physically interacted with HrpG. Phos-tag™ SDS-PAGE analysis showed that mutation in hpaS reduced markedly the phosphorylation of HrpG in vivo. These data suggest that HpaS and HrpG are most likely to form a TCS. We also showed that XC _3669 (named hpaR2), which is adjacent to hpaS and encodes a putative TCS response regulator, is required for full virulence but not HR induction. HpaR2 also physically interacted with HpaS, suggesting that HpaS may also form another TCS with HpaR2. [ABSTRACT FROM AUTHOR]

Published
2014
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50. sRNA-Xcc1, an integron-encoded transposon- and plasmid-transferred trans-acting sRNA, is under the positive control of the key virulence regulators HrpG and HrpX of Xanthomonas campestrispathovar campestris

Author

Chen, Xiao-Lin, Tang, Dong-Jie, Jiang, Rui-Ping, He, Yong-Qiang, Jiang, Bo-Le, Lu, Guang-Tao, and Tang, Ji-Liang

Abstract

sRNA-Xcc1 is a trans-acting sRNA recently identified from the plant pathogenic bacterium Xanthomonas campestrispathovar campestris(Xcc). Here, the phylogenetic distribution, predicted secondary structure and regulation of expression of sRNA-Xcc1 were analyzed. The analysis showed (1) a total 81 sRNA-Xcc1homologs that are found in some bacterial strains that are taxonomically unrelated, belonging to the a-, b-, g-, and d-proteobacteria (2) that some sRNA-Xcc1homologs are located in a plasmid-borne transposon or near a transposase coding gene, (3) that sRNA-Xcc1 is encoded by a integron gene cassette in Xccand sRNA-Xcc1homologs occur in integron gene cassettes of some uncultured bacteria and (4) that sRNA-Xcc1 homologs have a highly conserved sequence motif and a stable consensus secondary structure. These findings strongly support the idea that sRNA-Xcc1 represents a novel family of sRNAs which may be originally captured by integrons from natural environments and then spread among different bacterial species via horizontal gene transfer, possibly by means of transposons and plasmids. The expression analysis results demonstrated that the transcription of sRNA-Xcc1is under the positive control of the key virulence regulators HrpG and HrpX, indicating that sRNA-Xcc1 may be involved in the virulence regulation of Xcc.

Published
2011
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