TY - JOUR
T1 - Transcriptional dynamics driving MAMP-triggered immunity and pathogen effector-mediated immunosuppression in Arabidopsis leaves following infection with Pseudomonas syringae pv tomato DC3000
AU - Lewis, Laura A.
AU - Polanski, Krzysztof
AU - de Torres-Zabala, Marta
AU - Jayaraman, Siddharth
AU - Bowden, Laura
AU - Moore, Jonathan
AU - Penfold, Christopher A.
AU - Jenkins, Dafyd J.
AU - Hill, Claire
AU - Baxter, Laura
AU - Kulasekaran, Satish
AU - Truman, William
AU - Littlejohn, George
AU - Prusinska, Justyna
AU - Mead, Andrew
AU - Steinbrenner, Jens
AU - Hickman, Richard
AU - Rand, David
AU - Wild, David L.
AU - Ott, Sascha
AU - Buchanan-Wollaston, Vicky
AU - Smirnoff, Nick
AU - Beynon, Jim
AU - Denby, Katherine
AU - Grant, Murray
PY - 2015/11/13
Y1 - 2015/11/13
N2 - Transcriptional reprogramming is integral to effective plant defense. Pathogen effectors act transcriptionally and posttranscriptionally to suppress defense responses. A major challenge to understanding disease and defense responses is discriminating between transcriptional reprogramming associated with microbial-associated molecular pattern (MAMP)-triggered immunity (MTI) and that orchestrated by effectors. A high-resolution time course of genome-wide expression changes following challenge with Pseudomonas syringae pv tomato DC3000 and the nonpathogenic mutant strain DC3000hrpA allowed us to establish causal links between the activities of pathogen effectors and suppression of MTI and infer with high confidence a range of processes specifically targeted by effectors. Analysis of this information-rich data set with a range of computational tools provided insights into the earliest transcriptional events triggered by effector delivery, regulatory mechanisms recruited, and biological processes targeted. We show that the majority of genes contributing to disease or defense are induced within 6 h postinfection, significantly before pathogen multiplication. Suppression of chloroplast-associated genes is a rapid MAMP-triggered defense response, and suppression of genes involved in chromatin assembly and induction of ubiquitin-related genes coincide with pathogen-induced abscisic acid accumulation. Specific combinations of promoter motifs are engaged in fine-tuning the MTI response and active transcriptional suppression at specific promoter configurations by P. syringae.
AB - Transcriptional reprogramming is integral to effective plant defense. Pathogen effectors act transcriptionally and posttranscriptionally to suppress defense responses. A major challenge to understanding disease and defense responses is discriminating between transcriptional reprogramming associated with microbial-associated molecular pattern (MAMP)-triggered immunity (MTI) and that orchestrated by effectors. A high-resolution time course of genome-wide expression changes following challenge with Pseudomonas syringae pv tomato DC3000 and the nonpathogenic mutant strain DC3000hrpA allowed us to establish causal links between the activities of pathogen effectors and suppression of MTI and infer with high confidence a range of processes specifically targeted by effectors. Analysis of this information-rich data set with a range of computational tools provided insights into the earliest transcriptional events triggered by effector delivery, regulatory mechanisms recruited, and biological processes targeted. We show that the majority of genes contributing to disease or defense are induced within 6 h postinfection, significantly before pathogen multiplication. Suppression of chloroplast-associated genes is a rapid MAMP-triggered defense response, and suppression of genes involved in chromatin assembly and induction of ubiquitin-related genes coincide with pathogen-induced abscisic acid accumulation. Specific combinations of promoter motifs are engaged in fine-tuning the MTI response and active transcriptional suppression at specific promoter configurations by P. syringae.
UR - http://www.scopus.com/inward/record.url?scp=84949633785&partnerID=8YFLogxK
U2 - 10.1105/tpc.15.00471
DO - 10.1105/tpc.15.00471
M3 - Article
AN - SCOPUS:84949633785
SN - 1040-4651
VL - 27
SP - 3038
EP - 3064
JO - Plant Cell
JF - Plant Cell
IS - 11
ER -