Identification of Pathogenicity-Related Genes in Biofilm-Defective Acidovorax citrulli by Transposon Tn5 Mutagenesis

Luo, Jinyan; Qiao, Wen; Chen, Lei; Anjum, Syed Ishtiaq; Yu, Menghao; Shan, Changlin; Ilyas, Mehmoona; Li, Bin; Wang, Yanli; Sun, Guochang

doi:10.3390/ijms161226076

Cited by 10 publications

(7 citation statements)

References 46 publications

(48 reference statements)

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“…For example, Bahar et al (2011) reported that the fliC mutant of A. citrulli, which is involved in swimming motility, showed a significant reduction in virulence in seed transmission assays and stem and foliage inoculations, compared to the wild-type. Consistently, Luo reported that a biofilm-defective A. citrulli mutant showed reduced virulence [34]. Additionally, Wang et al [28] also reported that swimming motility and biofilm formation were important for the virulence of A. citrulli.…”

Section: Discussionmentioning

confidence: 79%

Light Modulates Virulence Factors in Strain Aac5 of Acidovorax citrulli

Zhang¹,

Zhao²,

Yang³

et al. 2019

Preprint

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Background: Acidovorax citrulli causes bacterial fruit blotch (BFB), a disease that poses a global threat to watermelon and melon production. Despite the economic importance of BFB, relatively little is known about the regulation of A. citrulli pathogenesis. Light has a role in regulating the virulence factors of many plant pathogenic bacteria; however, the role of light in A. citrulli is unknown. This study aimed to investigate the roles of light in A. citrulli pathogenicity. Results: We found that light suppressed swimming motility andbiofilm formation in A. citrulli Aac5 strain. Furthermore, we found that A. citrulli Aac5 strain exhibited significant differences in colony morphology under light and dark conditions. In fact, the twitching motility of A. citrulli Aac5 strain also was supressed cultured by light conditions compared to dark conditions. In addition, the expression of hrpG, hrpX, and hrcC genes, which are important for type 3 secretion system (T3SS), was inhibited under light compared to dark conditions. However, in A. citrulli host interactions, light suppressed ROS production and enhanced callose deposition by watermelon when induced by A. citrulli; in addition, light enhanced the ability of A, citrulli to infect watermelon. These results suggest that light affected the pathogenicity of A. citrulli Aac5 strain by regulating its virulence factors and watermelon immune response. Conclusions: Light as an important environmental factor plays an important role in regulating the occurrence of plant diseases. BFB as an important watermelon disease seriously threatens the development of the industry. However, there are few reports on the impact of environmental factors on the disease. In our studying, we report for the first time that light can inhibit the expression of major virulence factors, such as swimming motility, biofilm formation, twitching motility, and even key gene of T3SS in A. citrulli Aac5 strain. But surprisingly, the light enhances the pathogenicity of A. citrulli Aac5 strain for natural host watermelons. The important phenotypes of host immune response are also different between ROS and callose deposition. These phenomena reflect the close relationship between BFB occurrence and light factor, which is of great significance for the study of BFB.

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Section: Discussionmentioning

confidence: 79%

Light Modulates Virulence Factors in Strain Aac5 of Acidovorax citrulli

Zhang¹,

Zhao²,

Yang³

et al. 2019

Preprint

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“…It has been well known that biofilm formation is a dynamic and complex process involving signal transduction systems, transcriptional regulation, and stress response, which make it important for both beneficial bacteria and plant pathogenic bacteria [ 15 , 35 ]. In agreement with the results from some other studies, most of the mutants significantly reduced biofilm formation, which may, at least partially, be attributed to the reduced antifungal activity against R. solani .…”

Section: Resultsmentioning

confidence: 99%

“…A library of Tn5 transposon mutants of B. seminalis R456 was constructed using the MA138E-EZ-Tn5-KAN-2 TNP Transposome Kit, which was carried out according to the manufacturer’s protocol (Epicentre Biotechnologies, Madison, WI, USA). The competent cells and electroporation transformation were prepared using a previously described method [ 15 ] with slight modifications. In brief, following precooling for 40 min, bacterial cells were suspended in 40 μL sterile water to obtain a final concentration of 1 × 10 10 CFU/mL, and then added to 1 μL of the EZ-Tn5 transposon (Epicentre Biotechnologies, Madison, WI, USA).…”

Section: Methodsmentioning

confidence: 99%

“…Bacterial growth was determined according to the method of [ 15 ] by measuring the OD600 values of the wild type and Tn5 insertion mutants of strain R456 using a microplate spectrophotometer (Thermo Fisher Scientific Inc., Waltham, MA, USA). In brief, after inoculating 50 μL of overnight-cultured bacterial suspension (OD600 = 1.0) into 5 mL of LB broth, the mixtures were then incubated at 30 °C, 200 rpm/min for 6, 12, 18 and 24 h, respectively.…”

Section: Methodsmentioning

confidence: 99%

“…Furthermore, this modified EZ-TN5 system is superior to other transposon systems in consistently delivering only a single copy per chromosome [ 14 ]. Indeed, using this technique, we have not only constructed the mutant library, but also have identified the virulence-related genes from the watermelon fruit blotch pathogen Acidovorax citrilli by evaluating the pathogenicity of each mutant to seedlings [ 15 ].…”

Section: Introductionmentioning

confidence: 99%

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Identification of Genes Involved in Antifungal Activity of Burkholderia seminalis Against Rhizoctonia solani Using Tn5 Transposon Mutation Method

et al. 2020

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Rhizoctonia solani is the causative agent of rice sheath blight disease. In a previous study, we found that the growth of R. solani was inhibited by Burkholderia seminalis strain R456. Therefore, the present study was conducted to identify the genes involved in the antifungal activity of B. seminalis strain R456 by using a Tn5 transposon mutation method. Firstly, we constructed a random insertion transposon library of 997 mutants, out of which 11 mutants showed the defective antifungal activity against R. solani. Furthermore, the 10 antagonism-related genes were successfully identified based on analysis of the Tn5 transposon insertion site. Indeed, this result indicated that three mutants were inserted on an indigenous plasmid in which the same insertion site was observed in two mutants. In addition, the remaining eight mutants were inserted on different genes encoding glycosyl transferase, histone H1, nonribosomal peptide synthetase, methyltransferase, MnmG, sulfate export transporter, catalase/peroxidase HPI and CysD, respectively. Compared to the wild type, the 11 mutants showed a differential effect in bacteriological characteristics such as cell growth, biofilm formation and response to H2O2 stress, revealing the complexity of action mode of these antagonism-related genes. However, a significant reduction of cell motility was observed in the 11 mutants compared to the wild type. Therefore, it can be inferred that the antifungal mechanism of the 10 above-mentioned genes may be, at least partially, due to the weakness of cell motility. Overall, the result of this study will be helpful for us to understand the biocontrol mechanism of this bacterium.

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