日期 影响因子
日期:
2020 年 — 2026 年
2020
2021
2022
2023
2024
2025
2026
影响因子:

The EPS-I exopolysaccharide transforms Ralstonia wilt pathogen biofilms into viscoelastic fluids for rapid dissemination in planta

EPS-I胞外多糖将枯萎病菌生物膜转化为粘弹性液体,从而在植物体内快速传播。

期刊:Proceedings of the National Academy of Sciences of the United States of America
影响因子:9.1
doi:10.1073/pnas.2512757123
Cope-Arguello, Matthew L; Li, Jiayu; Konkel, Zachary; Aoun, Nathalie; Cowell, Tabitha; Wagner, Nicholas; Han Chan, A Li; Chu, Lan Thanh; Wang, Samantha; Carter, Mariama D; Allen, Caitilyn; Caverly, Lindsay J; Bui, Loan; DeAngelis, Kristen M; Wargo, Matthew J; Tran, Tuan M; Jacobs, Jonathan M; Manikantan, Harishankar; Lowe-Power, Tiffany M
微生物学
发表日期:2026
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RprR is a plant-responsive regulator of exopolysaccharide production, biofilm formation, and virulence in Ralstonia pseudosolanacearum

RprR是假青枯菌中一种对植物响应的胞外多糖产生、生物膜形成和毒力的调节因子。

期刊:mBio
影响因子:4.7
doi:10.1128/mbio.02912-25
O'Banion, Bridget S; Carter, Mariama D; Sanchez-Gallego, Jose A; Li, Hanlei; Wagner, Nicholas; Chu, Lan Thanh; Bui, Loan; Tran, Tuan Minh; Allen, Caitilyn
微生物学
发表日期:2026
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Ralstonia solanacearum pandemic lineage strain UW551 overcomes inhibitory xylem chemistry to break tomato bacterial wilt resistance

青枯菌(Ralstonia solanacearum)流行谱系菌株UW551克服了木质部化学物质的抑制作用,从而打破了番茄细菌性枯萎病的抗性。

期刊:Molecular Plant Pathology
影响因子:4.9
doi:10.1111/mpp.13395
Hamilton, Corri D; Zaricor, Beatriz; Dye, Carolyn Jean; Dresserl, Emma; Michaels, Renee; Allen, Caitilyn
微生物学
发表日期:2024
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A single phosphorylatable amino acid residue is essential for the recognition of multiple potyviral HCPro effectors by potato Ny(tbr).

单个可磷酸化的氨基酸残基对于马铃薯 Ny(tbr) 识别多个马铃薯病毒 HCPro 效应子至关重要

期刊:Molecular Plant Pathology
影响因子:4.9
doi:10.1111/mpp.70027
Alex Bryce G, Zhang Zong-Ying, Lasky Danny, Garcia-Ruiz Hernan, Dewberry Ronnie, Allen Caitilyn, Halterman Dennis, Rakotondrafara Aurélie M
表观遗传
Viral
磷酸化
发表日期:2024
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Plant-Pathogenic Ralstonia Phylotypes Evolved Divergent Respiratory Strategies and Behaviors To Thrive in Xylem

植物病原菌Ralstonia系统发育类型进化出不同的呼吸策略和行为以在木质部中生存。

期刊:mBio
影响因子:4.7
doi:10.1128/mbio.03188-22
Truchon, Alicia N; Dalsing, Beth L; Khokhani, Devanshi; MacIntyre, April; McDonald, Bradon R; Ailloud, Florent; Klassen, Jonathan; Gonzalez-Orta, Enid T; Currie, Cameron; Prior, Philippe; Lowe-Power, Tiffany M; Allen, Caitilyn
发育与干细胞
发表日期:2023
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Cell Density-Regulated Adhesins Contribute to Early Disease Development and Adhesion in Ralstonia solanacearum

细胞密度调控的粘附素促进青枯菌早期疾病发展和粘附

期刊:Applied and Environmental Microbiology
影响因子:3.7
doi:10.1128/aem.01565-22
Carter, Mariama D; Khokhani, Devanshi; Allen, Caitilyn
信号转导
细胞生物学
发表日期:2023
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Meta-analysis of the Ralstonia solanacearum species complex (RSSC) based on comparative evolutionary genomics and reverse ecology

基于比较进化基因组学和反向生态学的青枯菌复合种(RSSC)荟萃分析

期刊:Microbial Genomics
影响因子:4
doi:10.1099/mgen.0.000791
Sharma, Parul; Johnson, Marcela A; Mazloom, Reza; Allen, Caitilyn; Heath, Lenwood S; Lowe-Power, Tiffany M; Vinatzer, Boris A
发表日期:2022
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Repeated gain and loss of a single gene modulates the evolution of vascular plant pathogen lifestyles

单个基因的反复获得和丢失调节维管植物病原体生活方式的进化

期刊:Science Advances
影响因子:12.5
doi:10.1126/sciadv.abc4516
Gluck-Thaler, Emile; Cerutti, Aude; Perez-Quintero, Alvaro L; Butchacas, Jules; Roman-Reyna, Verónica; Madhavan, Vishnu Narayanan; Shantharaj, Deepak; Merfa, Marcus V; Pesce, Céline; Jauneau, Alain; Vancheva, Taca; Lang, Jillian M; Allen, Caitilyn; Verdier, Valerie; Gagnevin, Lionel; Szurek, Boris; Beckham, Gregg T; De La Fuente, Leonardo; Patel, Hitendra Kumar; Sonti, Ramesh V; Bragard, Claude; Leach, Jan E; Noël, Laurent D; Slot, Jason C; Koebnik, Ralf; Jacobs, Jonathan M
微生物学
发表日期:2020
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The Immune Receptor Roq1 Confers Resistance to the Bacterial Pathogens Xanthomonas, Pseudomonas syringae, and Ralstonia in Tomato

免疫受体 Roq1 赋予番茄对黄单胞菌、丁香假单胞菌和拉尔斯顿氏菌等细菌病原体的抗性

期刊:Frontiers in Plant Science
影响因子:4.8
doi:10.3389/fpls.2020.00463
Thomas, Nicholas C; Hendrich, Connor G; Gill, Upinder S; Allen, Caitilyn; Hutton, Samuel F; Schultink, Alex
微生物学
信号转导
免疫/内分泌
发表日期:2020
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Metabolomics of tomato xylem sap during bacterial wilt reveals Ralstonia solanacearum produces abundant putrescine, a metabolite that accelerates wilt disease

番茄木质部汁液在细菌性枯萎病期间的代谢组学分析表明,青枯菌(Ralstonia solanacearum)会产生大量的腐胺,而腐胺是一种会加速枯萎病发展的代谢物。

期刊:Environmental Microbiology
影响因子:4
doi:10.1111/1462-2920.14020
Lowe-Power, Tiffany M; Hendrich, Connor G; von Roepenack-Lahaye, Edda; Li, Bin; Wu, Dousheng; Mitra, Raka; Dalsing, Beth L; Ricca, Patrizia; Naidoo, Jacinth; Cook, David; Jancewicz, Amy; Masson, Patrick; Thomma, Bart; Lahaye, Thomas; Michael, Anthony J; Allen, Caitilyn
微生物学
代谢
发表日期:2018
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