Jeffrey S. Gordon

Publications (3)14.6 Total impact

• Source

  Available from: Gregory B Martin

  Article: Whole-genome expression profiling defines the HrpL regulon of Pseudomonas syringae pv. tomato DC3000, allows de novo reconstruction of the Hrp cis clement, and identifies novel coregulated genes.

  Adriana O Ferreira, Christopher R Myers, Jeffrey S Gordon, Gregory B Martin, Monica Vencato, Alan Collmer, Misty D Wehling, James R Alfano, Gabriel Moreno-Hagelsieb, Warren F Lamboy, Genevieve DeClerck, David J Schneider, Samuel W Cartinhour
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  ABSTRACT: Pseudomonas syringae pv. tomato DC3000 is a model pathogen of tomato and Arabidopsis that uses a hypersensitive response and pathogenicity (Hrp) type III secretion system (T3SS) to deliver virulence effector proteins into host cells. Expression of the Hrp system and many effector genes is activated by the HrpL alternative sigma factor. Here, an open reading frame-specific whole-genome microarray was constructed for DC3000 and used to comprehensively identify genes that are differentially expressed in wild-type and deltahrpL strains. Among the genes whose differential regulation was statistically significant, 119 were upregulated and 76 were downregulated in the wild-type compared with the deltahrpL strain. Hierarchical clustering revealed a subset of eight genes that were upregulated particularly rapidly. Gibbs sampling of regions upstream of HrpL-activated operons revealed the Hrp promoter as the only identifiable regulatory motif and supported an iterative refinement involving real-time polymerase chain reaction testing of additional HrpL-activated genes and refinements in a hidden Markov model that can be used to predict Hrp promoters in P. syringae strains. This iterative bioinformatic-experimental approach to a comprehensive analysis of the HrpL regulon revealed a mix of genes controlled by HrpL, including those encoding most type III effectors, twin-arginine transport (TAT) substrates, other regulatory proteins, and proteins involved in the synthesis or metabolism of phytohormones, phytotoxins, and myo-inositol. This analysis provides an extensively verified, robust method for predicting Hrp promoters in P. syringae genomes, and it supports subsequent identification of effectors and other factors that likely are important to the host-specific virulence of P. syringae.
  Molecular Plant-Microbe Interactions 12/2006; 19(11):1167-79. · 4.43 Impact Factor
• Article: Comparative genomics of host-specific virulence in Pseudomonas syringae.

  Sara F Sarkar, Jeffrey S Gordon, Gregory B Martin, David S Guttman
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  ABSTRACT: While much study has gone into characterizing virulence factors that play a general role in disease, less work has been directed at identifying pathogen factors that act in a host-specific manner. Understanding these factors will help reveal the variety of mechanisms used by pathogens to suppress or avoid host defenses. We identified candidate Pseudomonas syringae host-specific virulence genes by searching for genes whose distribution among natural P. syringae isolates was statistically associated with hosts of isolation. We analyzed 91 strains isolated from 39 plant hosts by DNA microarray-based comparative genomic hybridization against an array containing 353 virulence-associated (VA) genes, including 53 type III secretion system effectors (T3SEs). We identified individual genes and gene profiles that were significantly associated with strains isolated from cauliflower, Chinese cabbage, soybean, rice, and tomato. We also identified specific horizontal gene acquisition events associated with host shifts by mapping the array data onto the core genome phylogeny of the species. This study provides the largest suite of candidate host-specificity factors from any pathogen, suggests that there are multiple ways in which P. syringae isolates can adapt to the same host, and provides insight into the evolutionary mechanisms underlying host adaptation.
  Genetics 11/2006; 174(2):1041-56. · 4.01 Impact Factor
• Source

  Available from: Zhangjun Fei

  Article: ESTs, cDNA microarrays, and gene expression profiling: tools for dissecting plant physiology and development.

  Rob Alba, Zhangjun Fei, Paxton Payton, Yang Liu, Shanna L Moore, Paul Debbie, Jonathan Cohn, Mark D'Ascenzo, Jeffrey S Gordon, Jocelyn K C Rose, Gregory Martin, Steven D Tanksley, Mondher Bouzayen, Molly M Jahn, Jim Giovannoni
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  ABSTRACT: Gene expression profiling holds tremendous promise for dissecting the regulatory mechanisms and transcriptional networks that underlie biological processes. Here we provide details of approaches used by others and ourselves for gene expression profiling in plants with emphasis on cDNA microarrays and discussion of both experimental design and downstream analysis. We focus on methods and techniques emphasizing fabrication of cDNA microarrays, fluorescent labeling, cDNA hybridization, experimental design, and data processing. We include specific examples that demonstrate how this technology can be used to further our understanding of plant physiology and development (specifically fruit development and ripening) and for comparative genomics by comparing transcriptome activity in tomato and pepper fruit.
  The Plant Journal 10/2004; 39(5):697-714. · 6.16 Impact Factor