Molecular Genetics and Cell Biology
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The role and regulation of programmed cell death in plant-pathogen interactions.
Cellular microbiology Mar, 2004 | Pubmed ID: 14764104
Identifying type III effectors of plant pathogens and analyzing their interaction with plant cells.
Current opinion in microbiology Feb, 2003 | Pubmed ID: 12615215
Ceramides modulate programmed cell death in plants.
Genes & development Nov, 2003 | Pubmed ID: 14563678
A key role for ALD1 in activation of local and systemic defenses in Arabidopsis.
The Plant journal : for cell and molecular biology Oct, 2004 | Pubmed ID: 15447647
The mitochondrion--an organelle commonly involved in programmed cell death in Arabidopsis thaliana.
The Plant journal : for cell and molecular biology Nov, 2004 | Pubmed ID: 15500474
Degrade or die: a dual function for autophagy in the plant immune response.
Developmental cell Jun, 2005 | Pubmed ID: 15935769
Bioinformatics correctly identifies many type III secretion substrates in the plant pathogen Pseudomonas syringae and the biocontrol isolate P. fluorescens SBW25.
Molecular plant-microbe interactions : MPMI Aug, 2005 | Pubmed ID: 16134900
Structure-function analysis of the plasma membrane- localized Arabidopsis defense component ACD6.
The Plant journal : for cell and molecular biology Dec, 2005 | Pubmed ID: 16297071
Evolutionary dynamics of Ralstonia solanacearum.
Applied and environmental microbiology Feb, 2007 | Pubmed ID: 17189443
A J domain virulence effector of Pseudomonas syringae remodels host chloroplasts and suppresses defenses.
Current biology : CB Mar, 2007 | Pubmed ID: 17350264
A key role for the Arabidopsis WIN3 protein in disease resistance triggered by Pseudomonas syringae that secrete AvrRpt2.
Molecular plant-microbe interactions : MPMI Oct, 2007 | Pubmed ID: 17918621
Arabidopsis proteins important for modulating defense responses to Pseudomonas syringae that secrete HopW1-1.
The Plant journal : for cell and molecular biology May, 2008 | Pubmed ID: 18266921
Genetic analysis of acd6-1 reveals complex defense networks and leads to identification of novel defense genes in Arabidopsis.
The Plant journal : for cell and molecular biology May, 2009 | Pubmed ID: 19144005
A conserved cysteine motif is critical for rice ceramide kinase activity and function.
PloS one Mar, 2011 | Pubmed ID: 21483860
Accelerated cell death 2 suppresses mitochondrial oxidative bursts and modulates cell death in Arabidopsis.
The Plant journal : for cell and molecular biology Feb, 2012 | Pubmed ID: 21988537
SGT1b is required for HopZ3-mediated suppression of the epiphytic growth of Pseudomonas syringae on N. benthamiana.
Plant signaling & behavior Sep, 2012 | Pubmed ID: 22899059
Salicylic acid signaling controls the maturation and localization of the arabidopsis defense protein ACCELERATED CELL DEATH6.
Molecular plant Aug, 2014 | Pubmed ID: 24923602
HopW1 from Pseudomonas syringae disrupts the actin cytoskeleton to promote virulence in Arabidopsis.
PLoS pathogens Jun, 2014 | Pubmed ID: 24968323
Loss of ceramide kinase in Arabidopsis impairs defenses and promotes ceramide accumulation and mitochondrial H2O2 bursts.
The Plant cell Aug, 2014 | Pubmed ID: 25149397
Salicylic acid regulates Arabidopsis microbial pattern receptor kinase levels and signaling.
The Plant cell Oct, 2014 | Pubmed ID: 25315322
ALD1 Regulates Basal Immune Components and Early Inducible Defense Responses in Arabidopsis.
Molecular plant-microbe interactions : MPMI Apr, 2015 | Pubmed ID: 25372120
Plant pathogenic bacteria target the actin microfilament network involved in the trafficking of disease defense components.
Bioarchitecture , 2014 | Pubmed ID: 25551177
Arabidopsis AZI1 family proteins mediate signal mobilization for systemic defence priming.
Nature communications Jul, 2015 | Pubmed ID: 26203923
Linking pattern recognition and salicylic acid responses in Arabidopsis through ACCELERATED CELL DEATH6 and receptors.
Plant signaling & behavior , 2015 | Pubmed ID: 26442718
Acetylation of an NB-LRR Plant Immune-Effector Complex Suppresses Immunity.
Cell reports Nov, 2015 | Pubmed ID: 26586425
Editorial: Salicylic Acid Signaling Networks.
Frontiers in plant science , 2016 | Pubmed ID: 26941775
Carbon Nanofiber Arrays: A Novel Tool for Microdelivery of Biomolecules to Plants.
PloS one , 2016 | Pubmed ID: 27119338
A Suite of Receptor-Like Kinases and a Putative Mechano-Sensitive Channel Are Involved in Autoimmunity and Plasma Membrane-Based Defenses in Arabidopsis.
Molecular plant-microbe interactions : MPMI Feb, 2017 | Pubmed ID: 28051349
Simple strategies to enhance discovery of acetylation post-translational modifications by quadrupole-orbitrap LC-MS/MS.
Biochimica et biophysica acta. Proteins and proteomics Feb, 2018 | Pubmed ID: 29050961
PROHIBITIN3 Forms Complexes with ISOCHORISMATE SYNTHASE1 to Regulate Stress-Induced Salicylic Acid Biosynthesis in Arabidopsis.
Plant physiology Mar, 2018 | Pubmed ID: 29438088
Underground Azelaic Acid-Conferred Resistance to Pseudomonas syringae in Arabidopsis.
Molecular plant-microbe interactions : MPMI Jan, 2019 | Pubmed ID: 30156481
Kinases and protein motifs required for AZI1 plastid localization and trafficking during plant defense induction.
The Plant journal : for cell and molecular biology Mar, 2021 | Pubmed ID: 33342031
ALD1 accumulation in Arabidopsis epidermal plastids confers local and non-autonomous disease resistance.
Journal of experimental botany Mar, 2021 | Pubmed ID: 33463678
An Improved Bioassay to Study Induced Systemic Resistance (ISR) Against Bacterial Pathogens and Insect Pests.
Bio-protocol May, 2019 | Pubmed ID: 33654765
Pseudomonas syringae effector HopZ3 suppresses the bacterial AvrPto1-tomato PTO immune complex via acetylation.
PLoS pathogens 11, 2021 | Pubmed ID: 34724007
Friend or foe: Hybrid proline-rich proteins determine how plants respond to beneficial and pathogenic microbes.
Plant physiology Aug, 2022 | Pubmed ID: 35642916
The TGA Transcription Factors from Clade II Negatively Regulate the Salicylic Acid Accumulation in Arabidopsis.
International journal of molecular sciences Oct, 2022 | Pubmed ID: 36232932
An efficient and broadly applicable method for transient transformation of plants using vertically aligned carbon nanofiber arrays.
Frontiers in plant science , 2022 | Pubmed ID: 36507425
Genetic requirements for infection-specific responses in conferring disease resistance in .
Frontiers in plant science , 2022 | Pubmed ID: 36523630
Jessica M. Morgan1,
Joanna Jelenska2,
Dale K. Hensley3,
Pengju Li4,
Bernadeta R. Srijanto3,
Scott T. Retterer3,5,
Robert F. Standaert6,
Jennifer L. Morrell-Falvey5,
Jean T. Greenberg2
1Biophysical Sciences, The University of Chicago,
2Molecular Genetics and Cell Biology, The University of Chicago,
3Center for Nanophase Materials Sciences, Oak Ridge National Laboratory,
4Pritzker School of Molecular Engineering, The University of Chicago,
5Biosciences Division, Oak Ridge National Laboratory,
6Department of Chemistry, East Tennessee State University
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