Molecular Characterization of Global Regulatory RNA Species That Control Pathogenicity Factors in Erwinia amylovora and Erwinia herbicola pv. gypsophilae

Weilei Ma; Yaya Cui; Yang Liu; C. Korsi Dumenyo; Asita Mukherjee; Arun K. Chatterjee

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Molecular Characterization of Global Regulatory RNA Species That Control Pathogenicity Factors in Erwinia amylovora and Erwinia herbicola pv. gypsophilae

机译：控制Amylovora和Erwinia herbicola pv中致病因素的全球调节RNA物种的分子表征。满天星科

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rsmB_Ecc specifies a nontranslatable RNA regulator that controls exoprotein production and pathogenicity in soft rot-causing Erwinia carotovora subsp.carotovora. This effect of rsmB_Ecc RNA is mediated mostly by neutralizing the function of RsmA_Ecc, an RNA-binding protein of E. carotovora subsp. carotovora, which acts as a global negative regulator. To determine the occurrence of functional homologs of rsmB_Ecc in non-soft-rot-causingErwinia species, we cloned the rsmB genes ofE. amylovora (rsmB_Ea ) and E. herbicola pv. gypsophilae (rsmB_Ehg ). We show that rsmB_Ea in E. amylovorapositively regulates extracellular polysaccharide (EPS) production, motility, and pathogenicity. In E. herbicola pv. gypsophilae, rsmB_Ehg elevates the levels of transcripts of a cytokinin (etz) gene and stimulates the production of EPS and yellow pigment as well as motility. RsmA_Ea and RsmA_Ehg have more than 93% identity to RsmA_Ecc and, like the latter, function as negative regulators by affecting the transcript stability of the target gene. The rsmB genes reverse the negative effects of RsmA_Ea, RsmA_Ehg, and RsmA_Ecc, but the extent of reversal is highest with homologous combinations ofrsm genes. These observations and findings thatrsmB_Ea and rsmB_Ehg RNA bind RsmA_Ecc indicate that the rsmB effect is channeled via RsmA. Additional support for this conclusion comes from the observation that the rsmB genes are much more effective as positive regulators in a RsmA+ strain of E. carotovora subsp. carotovora than in its RsmA? derivative. E. herbicola pv. gypsophilae produces a 290-base rsmB transcript that is not subject to processing. By contrast, E. amylovora produces 430- and 300-base rsmB transcripts, the latter presumably derived by processing of the primary transcript as previously noted with the transcripts of rsmB_Ecc . Southern blot hybridizations revealed the presence of rsmB homologs inE. carotovora, E. chrysanthemi, E. amylovora, E. herbicola, E. stewartii and E. rhapontici, as well as in other enterobacteria such as Escherichia coli, Salmonella enterica serovar Typhimurium, Serratia marcescens, Shigella flexneri, Enterobacter aerogenes, Klebsiella pneumoniae, Yersinia enterocolitica, and Y. pseudotuberculosis. A comparison of rsmB sequences from several of these enterobacterial species revealed a highly conserved 34-mer region which is predicted to play a role in positive regulation by rsmBRNA.

机译： rsmB _{Ecc 指定一种不可翻译的RNA调节剂，可控制引起软腐烂的 Erwinia carotovora 亚种 carotovora 。 rsmB _{Ecc RNA的这种作用主要是通过中和 E的RNA结合蛋白RsmA _{Ecc 的功能来介导的。 carotovora 子亚种 carotovora ，它是一个全球负面调节器。为了确定 rsmB _{Ecc 的功能同源物在非软腐病 Erwinia 物种中的发生，我们克隆了 rsmB < / em> E的基因。支链淀粉（（ rsmB _{Ea ）和 E。草本植物满天星科（ rsmB _{Ehg ）。我们显示 E中的 rsmB _{Ea 。支链淀粉阳性调节细胞外多糖（EPS）的产生，运动性和致病性。在 E中。草本植物满天星菌， rsmB _{Ehg 升高细胞分裂素（ etz ）基因的转录水平，并刺激EPS和黄色素的产生以及运动。 RsmA _{Ea 和RsmA _{Ehg 与RsmA _{Ecc 具有超过93％的同一性，并且像后者一样，通过影响转录本的稳定性来充当负调控因子靶基因。 rsmB 基因逆转了RsmA _{Ea ，RsmA _{Ehg 和RsmA _{Ecc 的负面影响，但是 rsm 基因的同源组合逆转最高。这些 rsmB _{Ea 和 rsmB _{Ehg RNA结合RsmA _{Ecc 的观察和发现表明 rsmB 效果是通过RsmA传递的。对这一结论的进一步支持来自以下观察： rsmB 基因在 E的RsmA + 菌株中作为正调控因子更为有效。 carotovora 子亚种 carotovora 而不是其RsmA ？衍生物。 E。草本植物满天星产生一个290个碱基的 rsmB 转录本，无需进行处理。相比之下， E。淀粉糊精产生430个和300个碱基的 rsmB 转录本，后者大概是通过处理主要转录本获得的，如先前提到的 rsmB _{Ecc 转录本所述> 。 Southern印迹杂交揭示了 E中存在 rsmB 同源物。 carotovora，E。chrysanthemi，E。amylovora，E。herbicola，E。stewartii 和 E。 rhapontici ，以及其他肠杆菌，例如大肠杆菌，肠炎沙门氏菌血清型鼠伤寒杆菌，粘质沙雷氏菌，弗氏志贺氏菌，产气肠杆菌，肺炎克雷伯菌，肠炎耶尔森氏菌和 Y。假结核。比较了几种肠杆菌的 rsmB 序列，发现一个高度保守的34-mer区域，预计在 rsmB RNA的正调控中发挥作用。}}}}}}}}}}}}}}}}}} 展开▼

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《Journal of bacteriology》 |2001年第6期|共11页

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Weilei Ma; Yaya Cui; Yang Liu; C. Korsi Dumenyo; Asita Mukherjee; Arun K. Chatterjee;
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中图分类微生物学;

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专利

1. The Presence of Diverse IS Elements and an avrPphD Homologue That Acts as a Virulence Factor on the Pathogenicity Plasmid of Erwinia herbicola pv. gypsophilae [J] . Ming Guo, Shulamit Manulis, Henia Mor, Molecular Plant-Microbe Interactions . 2002,第7期

机译：存在多种IS元素和avrPphD同源物，其作为草食欧文氏杆菌pv致病性质粒上的毒力因子。满天星科

2. Differential Involvement of Indole-3-Acetic Acid Biosynthetic Pathways in Pathogenicity and Epiphytic Fitness of Erwinia herbicola pv. gypsophilae [J] . Shulamit Manulis, Anat Haviv-Chesner, Maria T. Brandl, Molecular Plant-Microbe Interactions . 1998,第7期

机译：吲哚-3-乙酸生物合成途径在草食欧文氏杆菌病原性和附生适应性中的差异参与。满天星科

3. A Pathogenicity Gene Isolated from the pPATH Plasmid of Erwinia herbicola pv. gypsophilae Determines Host Specificity [J] . Lea Valinsky, Shulamit Manulis, Roni Nizan, Molecular Plant-Microbe Interactions . 1998,第8期

机译：从Erwinia Herbicola PV的PPath质粒中分离的致病性基因。 Gypsophilae确定宿主特异性

4. Pathogenic bacteria can produce exopolysaccharides and use them as carbon source under stress conditions: the case of Erwinia amylovora [C] . M. Ordax, E. Marco-Noales, M.M. López, International Conference on Environmental, Industrial and Applied Microbiology . 2009

机译：致病细菌可以产生外核糖，并在压力条件下用作碳源：Erwinia氨基莫拉的案例

5. Identification and characterization of virulence factors via the elucidation of regulatory networks in the fire blight pathogen Erwinia amylovora [D] . McNally, Richard Ryan. 2013

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6. Molecular Characterization of Global Regulatory RNA Species That Control Pathogenicity Factors in Erwinia amylovora and Erwinia herbicola pv. gypsophilae [O] . Weilei Ma, Yaya Cui, Yang Liu, 2001

机译：控制淀粉样小球藻和草小欧文氏菌PV中致病因素的全球调节RNA物种的分子表征。满天星科

7. Molecular Characterization of Global Regulatory RNA Species That Control Pathogenicity Factors in Erwinia amylovora and Erwinia herbicola pv. gypsophilae†‡ [O] . Ma, Weilei, Cui, Yaya, Liu, Yang, 2001

机译：控制淀粉样小球藻和草小欧文氏菌PV中致病因素的全球调节RNA物种的分子表征。满天星科†‡

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Molecular Characterization of Global Regulatory RNA Species That Control Pathogenicity Factors in Erwinia amylovora and Erwinia herbicola pv. gypsophilae

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