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163 related items for PubMed ID: 23955010
1. Physiological and transcriptional responses to osmotic stress of two Pseudomonas syringae strains that differ in epiphytic fitness and osmotolerance. Freeman BC, Chen C, Yu X, Nielsen L, Peterson K, Beattie GA. J Bacteriol; 2013 Oct; 195(20):4742-52. PubMed ID: 23955010 [Abstract] [Full Text] [Related]
2. Glycine betaine catabolism contributes to Pseudomonas syringae tolerance to hyperosmotic stress by relieving betaine-mediated suppression of compatible solute synthesis. Li S, Yu X, Beattie GA. J Bacteriol; 2013 May; 195(10):2415-23. PubMed ID: 23524610 [Abstract] [Full Text] [Related]
3. Genome-driven investigation of compatible solute biosynthesis pathways of Pseudomonas syringae pv. syringae and their contribution to water stress tolerance. Kurz M, Burch AY, Seip B, Lindow SE, Gross H. Appl Environ Microbiol; 2010 Aug; 76(16):5452-62. PubMed ID: 20581190 [Abstract] [Full Text] [Related]
4. Transcriptional analysis of the global regulatory networks active in Pseudomonas syringae during leaf colonization. Yu X, Lund SP, Greenwald JW, Records AH, Scott RA, Nettleton D, Lindow SE, Gross DC, Beattie GA. mBio; 2014 Sep 02; 5(5):e01683-14. PubMed ID: 25182327 [Abstract] [Full Text] [Related]
5. Comparison of the complete genome sequences of Pseudomonas syringae pv. syringae B728a and pv. tomato DC3000. Feil H, Feil WS, Chain P, Larimer F, DiBartolo G, Copeland A, Lykidis A, Trong S, Nolan M, Goltsman E, Thiel J, Malfatti S, Loper JE, Lapidus A, Detter JC, Land M, Richardson PM, Kyrpides NC, Ivanova N, Lindow SE. Proc Natl Acad Sci U S A; 2005 Aug 02; 102(31):11064-9. PubMed ID: 16043691 [Abstract] [Full Text] [Related]
6. Pseudomonas syringae pv. syringae B728a Regulates Multiple Stages of Plant Colonization via the Bacteriophytochrome BphP1. McGrane R, Beattie GA. mBio; 2017 Oct 24; 8(5):. PubMed ID: 29066541 [Abstract] [Full Text] [Related]
7. Transcriptional responses of Pseudomonas syringae to growth in epiphytic versus apoplastic leaf sites. Yu X, Lund SP, Scott RA, Greenwald JW, Records AH, Nettleton D, Lindow SE, Gross DC, Beattie GA. Proc Natl Acad Sci U S A; 2013 Jan 29; 110(5):E425-34. PubMed ID: 23319638 [Abstract] [Full Text] [Related]
8. Sensor kinases RetS and LadS regulate Pseudomonas syringae type VI secretion and virulence factors. Records AR, Gross DC. J Bacteriol; 2010 Jul 29; 192(14):3584-96. PubMed ID: 20472799 [Abstract] [Full Text] [Related]
9. Comparative transcriptomic analysis of global gene expression mediated by (p) ppGpp reveals common regulatory networks in Pseudomonas syringae. Liu J, Yu M, Chatnaparat T, Lee JH, Tian Y, Hu B, Zhao Y. BMC Genomics; 2020 Apr 10; 21(1):296. PubMed ID: 32272893 [Abstract] [Full Text] [Related]
10. Bioinformatics Analysis of the Complete Genome Sequence of the Mango Tree Pathogen Pseudomonas syringae pv. syringae UMAF0158 Reveals Traits Relevant to Virulence and Epiphytic Lifestyle. Martínez-García PM, Rodríguez-Palenzuela P, Arrebola E, Carrión VJ, Gutiérrez-Barranquero JA, Pérez-García A, Ramos C, Cazorla FM, de Vicente A. PLoS One; 2015 Apr 10; 10(8):e0136101. PubMed ID: 26313942 [Abstract] [Full Text] [Related]
11. Pseudomonas syringae genes induced during colonization of leaf surfaces. Marco ML, Legac J, Lindow SE. Environ Microbiol; 2005 Sep 10; 7(9):1379-91. PubMed ID: 16104861 [Abstract] [Full Text] [Related]
12. Identification of the trehalose biosynthetic loci of Pseudomonas syringae and their contribution to fitness in the phyllosphere. Freeman BC, Chen C, Beattie GA. Environ Microbiol; 2010 Jun 10; 12(6):1486-97. PubMed ID: 20192963 [Abstract] [Full Text] [Related]
13. Pseudomonas syringae pv. syringae B728a hydrolyses indole-3-acetonitrile to the plant hormone indole-3-acetic acid. Howden AJ, Rico A, Mentlak T, Miguet L, Preston GM. Mol Plant Pathol; 2009 Nov 10; 10(6):857-65. PubMed ID: 19849791 [Abstract] [Full Text] [Related]
14. Pseudomonas syringae pv. phaseolicola Mutants Compromised for type III secretion system gene induction. Deng X, Xiao Y, Lan L, Zhou JM, Tang X. Mol Plant Microbe Interact; 2009 Aug 10; 22(8):964-76. PubMed ID: 19589072 [Abstract] [Full Text] [Related]
15. Ancient co-option of an amino acid ABC transporter locus in Pseudomonas syringae for host signal-dependent virulence gene regulation. Yan Q, Rogan CJ, Pang YY, Davis EW, Anderson JC. PLoS Pathog; 2020 Jul 10; 16(7):e1008680. PubMed ID: 32673374 [Abstract] [Full Text] [Related]
16. Regulation of AHL production and its contribution to epiphytic fitness in Pseudomonas syringae. Quiñones B, Pujol CJ, Lindow SE. Mol Plant Microbe Interact; 2004 May 10; 17(5):521-31. PubMed ID: 15141956 [Abstract] [Full Text] [Related]
17. Differences between Pseudomonas syringae pv. syringae B728a and Pantoea agglomerans BRT98 in epiphytic and endophytic colonization of leaves. Sabaratnam S, Beattie GA. Appl Environ Microbiol; 2003 Feb 10; 69(2):1220-8. PubMed ID: 12571050 [Abstract] [Full Text] [Related]
18. Components of the Pseudomonas syringae type III secretion system can suppress and may elicit plant innate immunity. Oh HS, Park DH, Collmer A. Mol Plant Microbe Interact; 2010 Jun 10; 23(6):727-39. PubMed ID: 20459312 [Abstract] [Full Text] [Related]
19. Closing the circle on the discovery of genes encoding Hrp regulon members and type III secretion system effectors in the genomes of three model Pseudomonas syringae strains. Lindeberg M, Cartinhour S, Myers CR, Schechter LM, Schneider DJ, Collmer A. Mol Plant Microbe Interact; 2006 Nov 10; 19(11):1151-8. PubMed ID: 17073298 [Abstract] [Full Text] [Related]
20. Genome-wide identification of Pseudomonas syringae genes required for fitness during colonization of the leaf surface and apoplast. Helmann TC, Deutschbauer AM, Lindow SE. Proc Natl Acad Sci U S A; 2019 Sep 17; 116(38):18900-18910. PubMed ID: 31484768 [Abstract] [Full Text] [Related] Page: [Next] [New Search]