Username

Password

Forgot Password?

Preview

Sign-in free and Explore the Exciting World of BiomedExperts:

Over 1.500.000 Profiles
More than 1.800 Organizations worldwide
State of the Art Network Visualizations

Manage your own Profile
Locate Experts in your Country/Region
Locate Experts in your 1. and 2. Level Network
Connect to Experts Worldwide

NetworkView

Gregory Martin

This is a preview profile on BiomedExperts - the first literature-based scientific social network. It brings the right researchers together and allows them to collaborate online. Collexis and Dell provide the BiomedExperts network of +1.5 Million pre-calculated profiles free of charge to researchers worldwide.

Research Profile (preview)

Living Beings

Disorders

Plant Diseases

Chemicals & Drugs

Concepts & Ideas

Genes & Molecular Sequences

Physiology

Procedures

Molecular Cloning

Sign-in to see full Profile

Network (preview)

Co-Publications
Name
11
Tanksley, Steven
9
Abramovitch, Robert
7
Lin, Nai-Chun
6
Sessa, Guido
6
D'Ascenzo, Mark
6
Ekengren, Sophia
5
Ganal, Martin
5
Pedley, Kerry
4
Mysore, Kirankumar
4
Klessig, Daniel
4
Collmer, Alan
4
del Pozo, Olga
3
Alfano, James
3
Pascuzzi, Pete
3
Gu, Yong-Qiang

Sign-in to see all Coauthors

Publications

TOP 3
Munkvold Kathy R; Martin Gregory B
Advances in experimental methods for the elucidation of Pseudomonas syringae effector function with a focus on AvrPtoB.
Chakravarthy Suma; Velásquez André C; Martin Gregory B
Assay for pathogen-associated molecular pattern (PAMP)-triggered immunity (PTI) in plants.
Velásquez André C; Chakravarthy Suma; Martin Gregory B
Virus-induced gene silencing (VIGS) in Nicotiana benthamiana and tomato.

Sign-in to see all Publications

Sign in free and see...

Visualized networks:

See your personal network in
sophisticated graphical views

GeoTargeted Searches:

Locate experts around the world
and connect with global collaborators

Research Profiles:

See the visualized research activity
of experts around the globe

Sign-in to see more

Geonetwork of Gregory Martin (preview)

Cities where this author has publications
Cities where co-authors of this author have publications

Flash Player Required

Sign-in to see more

All Publications

2009: Munkvold Kathy R; Martin Gregory B
Advances in experimental methods for the elucidation of Pseudomonas syringae effector function with a focus on AvrPtoB.
Molecular plant pathology 2009;10(6):777-93.
2009: Chakravarthy Suma; Velásquez André C; Martin Gregory B
Assay for pathogen-associated molecular pattern (PAMP)-triggered immunity (PTI) in plants.
Journal of visualized experiments : JoVE 2009;(31):.
2009: Velásquez André C; Chakravarthy Suma; Martin Gregory B
Virus-induced gene silencing (VIGS) in Nicotiana benthamiana and tomato.
Journal of visualized experiments : JoVE 2009;(28):.
2008: Shan Libo; He Ping; Li Jianming; Heese Antje; Peck Scott C; Nürnberger Thorsten; Martin Gregory B; Sheen Jen
Bacterial effectors target the common signaling partner BAK1 to disrupt multiple MAMP receptor-signaling complexes and impede plant immunity.
Cell host & microbe 2008;4(1):17-27.
2007: Xiao Fangming; He Ping; Abramovitch Robert B; Dawson Jennifer E; Nicholson Linda K; Sheen Jen; Martin Gregory B
The N-terminal region of Pseudomonas type III effector AvrPtoB elicits Pto-dependent immunity and has two distinct virulence determinants.
The Plant journal : for cell and molecular biology 2007;52(4):595-614.
2007: Xiao Fangming; Giavalisco Patrick; Martin Gregory B
Pseudomonas syringae type III effector AvrPtoB is phosphorylated in plant cells on serine 258, promoting its virulence activity.
The Journal of biological chemistry 2007;282(42):30737-44.
2007: Rosebrock Tracy R; Zeng Lirong; Brady Jennifer J; Abramovitch Robert B; Xiao Fangming; Martin Gregory B
A bacterial E3 ubiquitin ligase targets a host protein kinase to disrupt plant immunity.
Nature 2007;448(7151):370-4.
2007: Lin Nai-Chun; Martin Gregory B
Pto- and Prf-mediated recognition of AvrPto and AvrPtoB restricts the ability of diverse pseudomonas syringae pathovars to infect tomato.
Molecular plant-microbe interactions : MPMI 2007;20(7):806-15.
2007: Wei Chia-Fong; Kvitko Brian H; Shimizu Rena; Crabill Emerson; Alfano James R; Lin Nai-Chun; Martin Gregory B; Huang Hsiou-Chen; Collmer Alan
A Pseudomonas syringae pv. tomato DC3000 mutant lacking the type III effector HopQ1-1 is able to cause disease in the model plant Nicotiana benthamiana.
The Plant journal : for cell and molecular biology 2007;51(1):32-46.
2007: Devarenne Timothy P; Martin Gregory B
Manipulation of plant programmed cell death pathways during plant-pathogen interactions.
Plant signaling & behavior 2007;2(3):188-9.
2007: Gabriëls Suzan H E J; Vossen Jack H; Ekengren Sophia K; van Ooijen Gerben; Abd-El-Haliem Ahmed M; van den Berg Grardy C M; Rainey Daphne Y; Martin Gregory B; Takken Frank L W; de Wit Pierre J G M; Joosten Matthieu H A J
An NB-LRR protein required for HR signalling mediated by both extra- and intracellular resistance proteins.
The Plant journal : for cell and molecular biology 2007;50(1):14-28.
2007: Anand Ajith; Vaghchhipawala Zarir; Ryu Choong-Min; Kang Li; Wang Keri; del-Pozo Olga; Martin Gregory B; Mysore Kirankumar S
Identification and characterization of plant genes involved in Agrobacterium-mediated plant transformation by virus-induced gene silencing.
Molecular plant-microbe interactions : MPMI 2007;20(1):41-52.
2007: Moeder Wolfgang; Del Pozo Olga; Navarre Duroy A; Martin Gregory B; Klessig Daniel F
Aconitase plays a role in regulating resistance to oxidative stress and cell death in Arabidopsis and Nicotiana benthamiana.
Plant molecular biology 2007;63(2):273-87.
2006: Ferreira Adriana O; Myers Christopher R; Gordon Jeffrey S; Martin Gregory B; Vencato Monica; Collmer Alan; Wehling Misty D; Alfano James R; Moreno-Hagelsieb Gabriel; Lamboy Warren F; DeClerck Genevieve; Schneider David J; Cartinhour Samuel W
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.
Molecular plant-microbe interactions : MPMI 2006;19(11):1167-79.
2006: Abramovitch Robert B; Anderson Jeffrey C; Martin Gregory B
Bacterial elicitation and evasion of plant innate immunity.
Nature reviews. Molecular cell biology 2006;7(8):601-11.
2006: He Ping; Shan Libo; Lin Nai-Chun; Martin Gregory B; Kemmerling Birgit; Nürnberger Thorsten; Sheen Jen
Specific bacterial suppressors of MAMP signaling upstream of MAPKKK in Arabidopsis innate immunity.
Cell 2006;125(3):563-75.
2006: Abramovitch Robert B; Janjusevic Radmila; Stebbins C Erec; Martin Gregory B
Type III effector AvrPtoB requires intrinsic E3 ubiquitin ligase activity to suppress plant cell death and immunity.
Proceedings of the National Academy of Sciences of the United States of America 2006;103(8):2851-6.
2006: Anderson Jeffrey C; Pascuzzi Pete E; Xiao Fangming; Sessa Guido; Martin Gregory B
Host-mediated phosphorylation of type III effector AvrPto promotes Pseudomonas virulence and avirulence in tomato.
The Plant cell 2006;18(2):502-14.
2006: Lin Nai-Chun; Abramovitch Robert B; Kim Young Jin; Martin Gregory B
Diverse AvrPtoB homologs from several Pseudomonas syringae pathovars elicit Pto-dependent resistance and have similar virulence activities.
Applied and environmental microbiology 2006;72(1):702-12.
2006: Janjusevic Radmila; Abramovitch Robert B; Martin Gregory B; Stebbins C Erec
A bacterial inhibitor of host programmed cell death defenses is an E3 ubiquitin ligase.
Science (New York, N.Y.) 2006;311(5758):222-6.
2006: Devarenne Timothy P; Ekengren Sophia K; Pedley Kerry F; Martin Gregory B
Adi3 is a Pdk1-interacting AGC kinase that negatively regulates plant cell death.
The EMBO journal 2006;25(1):255-65.
2005: Alba Rob; Payton Paxton; Fei Zhanjun; McQuinn Ryan; Debbie Paul; Martin Gregory B; Tanksley Steven D; Giovannoni James J
Transcriptome and selected metabolite analyses reveal multiple points of ethylene control during tomato fruit development.
The Plant cell 2005;17(11):2954-65.
2005: Cohn Jonathan R; Martin Gregory B
Pseudomonas syringae pv. tomato type III effectors AvrPto and AvrPtoB promote ethylene-dependent cell death in tomato.
The Plant journal : for cell and molecular biology 2005;44(1):139-54.
2005: Pedley Kerry F; Martin Gregory B
Role of mitogen-activated protein kinases in plant immunity.
Current opinion in plant biology 2005;8(5):541-7.
2005: Restrepo S; Myers K L; del Pozo O; Martin G B; Hart A L; Buell C R; Fry W E; Smart C D
Gene profiling of a compatible interaction between Phytophthora infestans and Solanum tuberosum suggests a role for carbonic anhydrase.
Molecular plant-microbe interactions : MPMI 2005;18(9):913-22.
2005: Chiasson David; Ekengren Sophia K; Martin Gregory B; Dobney Stephanie L; Snedden Wayne A
Calmodulin-like proteins from Arabidopsis and tomato are involved in host defense against Pseudomonas syringae pv. tomato.
Plant molecular biology 2005;58(6):887-97.
2005: Abramovitch Robert B; Martin Gregory B
AvrPtoB: a bacterial type III effector that both elicits and suppresses programmed cell death associated with plant immunity.
FEMS microbiology letters 2005;245(1):1-8.
2005: Lin Nai-Chun; Martin Gregory B
An avrPto/avrPtoB mutant of Pseudomonas syringae pv. tomato DC3000 does not elicit Pto-mediated resistance and is less virulent on tomato.
Molecular plant-microbe interactions : MPMI 2005;18(1):43-51.
2004: Gibly Avi; Bonshtien Arale; Balaji Vasudevan; Debbie Paul; Martin Gregory B; Sessa Guido
Identification and expression profiling of tomato genes differentially regulated during a resistance response to Xanthomonas campestris pv. vesicatoria.
Molecular plant-microbe interactions : MPMI 2004;17(11):1212-22.
2004: Klessig Daniel F; Martin Gregory B; Ekengren Sophia K
Suppression of pathogen-inducible NO synthase (iNOS) activity in tomato increases susceptibility to Pseudomonas syringae.
Proceedings of the National Academy of Sciences of the United States of America 2004;101(45):16081.
2004: Pedley Kerry F; Martin Gregory B
Identification of MAPKs and their possible MAPK kinase activators involved in the Pto-mediated defense response of tomato.
The Journal of biological chemistry 2004;279(47):49229-35.
2004: Fei Zhangjun; Tang Xuemei; Alba Rob M; White Joseph A; Ronning Catherine M; Martin Gregory B; Tanksley Steven D; Giovannoni James J
Comprehensive EST analysis of tomato and comparative genomics of fruit ripening.
The Plant journal : for cell and molecular biology 2004;40(1):47-59.
2004: del Pozo Olga; Pedley Kerry F; Martin Gregory B
MAPKKKalpha is a positive regulator of cell death associated with both plant immunity and disease.
The EMBO journal 2004;23(15):3072-82.
2004: Abramovitch Robert B; Martin Gregory B
Strategies used by bacterial pathogens to suppress plant defenses.
Current opinion in plant biology 2004;7(4):356-64.
2004: Wulf Jennifer; Pascuzzi Pete E; Fahmy Amr; Martin Gregory B; Nicholson Linda K
The solution structure of type III effector protein AvrPto reveals conformational and dynamic features important for plant pathogenesis.
Structure (London, England : 1993) 2004;12(7):1257-68.
2004: Chandok Meena R; Ekengren Sophia K; Martin Gregory B; Klessig Daniel F
Suppression of pathogen-inducible NO synthase (iNOS) activity in tomato increases susceptibility to Pseudomonas syringae.
Proceedings of the National Academy of Sciences of the United States of America 2004;101(21):8239-44.
2004: He Xiaohua; Anderson Jeffrey C; del Pozo Olga; Gu Yong-Qiang; Tang Xiaoyan; Martin Gregory B
Silencing of subfamily I of protein phosphatase 2A catalytic subunits results in activation of plant defense responses and localized cell death.
The Plant journal : for cell and molecular biology 2004;38(4):563-77.
2004: D'Ascenzo Mark D; Collmer Alan; Martin Gregory B
PeerGAD: a peer-review-based and community-centric web application for viewing and annotating prokaryotic genome sequences.
Nucleic acids research 2004;32(10):3124-35.
2003: Ekengren Sophia K; Liu Yule; Schiff Michael; Dinesh-Kumar S P; Martin Gregory B
Two MAPK cascades, NPR1, and TGA transcription factors play a role in Pto-mediated disease resistance in tomato.
The Plant journal : for cell and molecular biology 2003;36(6):905-17.
2003: Chakravarthy Suma; Tuori Robert P; D'Ascenzo Mark D; Fobert Pierre R; Despres Charles; Martin Gregory B
The tomato transcription factor Pti4 regulates defense-related gene expression via GCC box and non-GCC box cis elements.
The Plant cell 2003;15(12):3033-50.
2003: Mysore Kirankumar S; D'Ascenzo Mark D; He Xiaohua; Martin Gregory B
Overexpression of the disease resistance gene Pto in tomato induces gene expression changes similar to immune responses in human and fruitfly.
Plant physiology 2003;132(4):1901-12.
2003: Smart C D; Myers K L; Restrepo S; Martin G B; Fry W E
Partial resistance of tomato to Phytophthora infestans is not dependent upon ethylene, jasmonic acid, or salicylic acid signaling pathways.
Molecular plant-microbe interactions : MPMI 2003;16(2):141-8.
2003: Abramovitch Robert B; Kim Young-Jin; Chen Shaorong; Dickman Martin B; Martin Gregory B
Pseudomonas type III effector AvrPtoB induces plant disease susceptibility by inhibition of host programmed cell death.
The EMBO journal 2003;22(1):60-9.
2003: Pedley Kerry F; Martin Gregory B
Molecular basis of Pto-mediated resistance to bacterial speck disease in tomato.
Annual review of phytopathology 2003;41():215-43.
2003: Martin Gregory B; Bogdanove Adam J; Sessa Guido
Understanding the functions of plant disease resistance proteins.
Annual review of plant biology 2003;54():23-61.
2002: Mysore Kirankumar S; Crasta Oswald R; Tuori Robert P; Folkerts Otto; Swirsky Peter B; Martin Gregory B
Comprehensive transcript profiling of Pto- and Prf-mediated host defense responses to infection by Pseudomonas syringae pv. tomato.
The Plant journal : for cell and molecular biology 2002;32(3):299-315.
2002: Slaymaker David H; Navarre Duroy A; Clark Daniel; del Pozo Olga; Martin Gregory B; Klessig Daniel F
The tobacco salicylic acid-binding protein 3 (SABP3) is the chloroplast carbonic anhydrase, which exhibits antioxidant activity and plays a role in the hypersensitive defense response.
Proceedings of the National Academy of Sciences of the United States of America 2002;99(18):11640-5.
2002: Wulf Jennifer; Pascuzzi Pete E; Martin Gregory B; Nicholson Linda K
1H, 15N and 13C chemical shift assignments of the structured core of the pseudomonas effector protein AvrPto.
Journal of biomolecular NMR 2002;23(3):247-8.
2002: Kim Young Jin; Lin Nai Chun; Martin Gregory B
Two distinct Pseudomonas effector proteins interact with the Pto kinase and activate plant immunity.
Cell 2002;109(5):589-98.
2002: Gu Yong-Qiang; Wildermuth Mary C; Chakravarthy Suma; Loh Ying-Tsu; Yang Caimei; He Xiaohua; Han Yu; Martin Gregory B
Tomato transcription factors pti4, pti5, and pti6 activate defense responses when expressed in Arabidopsis.
The Plant cell 2002;14(4):817-31.
2002: Fouts Derrick E; Abramovitch Robert B; Alfano James R; Baldo Angela M; Buell C Robin; Cartinhour Samuel; Chatterjee Arun K; D'Ascenzo Mark; Gwinn Michelle L; Lazarowitz Sondra G; Lin Nai-Chun; Martin Gregory B; Rehm Amos H; Schneider David J; van Dijk Karin; Tang Xiaoyan; Collmer Alan
Genomewide identification of Pseudomonas syringae pv. tomato DC3000 promoters controlled by the HrpL alternative sigma factor.
Proceedings of the National Academy of Sciences of the United States of America 2002;99(4):2275-80.
2001: Riely B K; Martin G B
Ancient origin of pathogen recognition specificity conferred by the tomato disease resistance gene Pto.
Proceedings of the National Academy of Sciences of the United States of America 2001;98(4):2059-64.
2001: Cohn J; Sessa G; Martin G B
Innate immunity in plants.
Current opinion in immunology 2001;13(1):55-62.
2001: Mysore K S; Tuori R P; Martin G B
Arabidopsis genome sequence as a tool for functional genomics in tomato.
Genome biology 2001;2(1):REVIEWS1003.
2000: Sessa G; Martin G B
Signal recognition and transduction mediated by the tomato Pto kinase: a paradigm of innate immunity in plants.
Microbes and infection / Institut Pasteur 2000;2(13):1591-7.
2000: Bogdanove A J; Martin G B
AvrPto-dependent Pto-interacting proteins and AvrPto-interacting proteins in tomato.
Proceedings of the National Academy of Sciences of the United States of America 2000;97(16):8836-40.
2000: Sessa G; D'Ascenzo M; Martin G B
Thr38 and Ser198 are Pto autophosphorylation sites required for the AvrPto-Pto-mediated hypersensitive response.
The EMBO journal 2000;19(10):2257-69.
2000: Gu Y Q; Yang C; Thara V K; Zhou J; Martin G B
Pti4 is induced by ethylene and salicylic acid, and its product is phosphorylated by the Pto kinase.
The Plant cell 2000;12(5):771-86.
2000: Sessa G; D'ascenzo M; Martin G B
The major site of the pti1 kinase phosphorylated by the pto kinase is located in the activation domain and is required for pto-pti1 physical interaction.
European journal of biochemistry / FEBS 2000;267(1):171-8.
1999: Martin G B
Functional analysis of plant disease resistance genes and their downstream effectors.
Current opinion in plant biology 1999;2(4):273-9.
1999: Jia Y; Martin G B
Rapid transcript accumulation of pathogenesis-related genes during an incompatible interaction in bacterial speck disease-resistant tomato plants.
Plant molecular biology 1999;40(3):455-65.
1998: Frederick R D; Thilmony R L; Sessa G; Martin G B
Recognition specificity for the bacterial avirulence protein AvrPto is determined by Thr-204 in the activation loop of the tomato Pto kinase.
Molecular cell 1998;2(2):241-5.
1998: Sessa G; D'Ascenzo M; Loh Y T; Martin G B
Biochemical properties of two protein kinases involved in disease resistance signaling in tomato.
The Journal of biological chemistry 1998;273(25):15860-5.
1998: Loh Y T; Zhou J; Martin G B
The myristylation motif of Pto is not required for disease resistance.
Molecular plant-microbe interactions : MPMI 1998;11(6):572-6.
1997: Zhou J; Tang X; Martin G B
The Pto kinase conferring resistance to tomato bacterial speck disease interacts with proteins that bind a cis-element of pathogenesis-related genes.
The EMBO journal 1997;16(11):3207-18.
1997: Jia Y; Loh Y T; Zhou J; Martin G B
Alleles of Pto and Fen occur in bacterial speck-susceptible and fenthion-insensitive tomato cultivars and encode active protein kinases.
The Plant cell 1997;9(1):61-73.
1997: Halterman D A; Martin G B
Signal recognition and transduction involved in plant disease resistance.
Essays in biochemistry 1997;32():87-99.
1996: Chandra S; Martin G B; Low P S
The Pto kinase mediates a signaling pathway leading to the oxidative burst in tomato.
Proceedings of the National Academy of Sciences of the United States of America 1996;93(23):13393-7.
1995: Zhou J; Loh Y T; Bressan R A; Martin G B
The tomato gene Pti1 encodes a serine/threonine kinase that is phosphorylated by Pto and is involved in the hypersensitive response.
Cell 1995;83(6):925-35.
1995: Loh Y T; Martin G B
The Pto bacterial resistance gene and the Fen insecticide sensitivity gene encode functional protein kinases with serine/threonine specificity.
Plant physiology 1995;108(4):1735-9.
1995: Giovannoni J J; Noensie E N; Ruezinsky D M; Lu X; Tracy S L; Ganal M W; Martin G B; Pillen K; Alpert K; Tanksley S D
Molecular genetic analysis of the ripening-inhibitor and non-ripening loci of tomato: a first step in genetic map-based cloning of fruit ripening genes.
Molecular & general genetics : MGG 1995;248(2):195-206.
1995: Loh Y T; Martin G B
The disease-resistance gene Pto and the fenthion-sensitivity gene fen encode closely related functional protein kinases.
Proceedings of the National Academy of Sciences of the United States of America 1995;92(10):4181-4.
1995: Tanksley S D; Ganal M W; Martin G B
Chromosome landing: a paradigm for map-based gene cloning in plants with large genomes.
Trends in genetics : TIG 1995;11(2):63-8.
1994: Martin G B; Frary A; Wu T; Brommonschenkel S; Chunwongse J; Earle E D; Tanksley S D
A member of the tomato Pto gene family confers sensitivity to fenthion resulting in rapid cell death.
The Plant cell 1994;6(11):1543-52.
1994: Zhang H B; Martin G B; Tanksley S D; Wing R A
Map-based cloning in crop plants: tomato as a model system II. Isolation and characterization of a set of overlapping yeast artificial chromosomes encompassing the jointless locus.
Molecular & general genetics : MGG 1994;244(6):613-21.
1994: Arumuganathan K; Martin G B; Telenius H; Tanksley S D; Earle E D
Chromosome 2-specific DNA clones from flow-sorted chromosomes of tomato.
Molecular & general genetics : MGG 1994;242(5):551-8.
1993: Martin G B; Brommonschenkel S H; Chunwongse J; Frary A; Ganal M W; Spivey R; Wu T; Earle E D; Tanksley S D
Map-based cloning of a protein kinase gene conferring disease resistance in tomato.
Science (New York, N.Y.) 1993;262(5138):1432-6.
1992: Tanksley S D; Ganal M W; Prince J P; de Vicente M C; Bonierbale M W; Broun P; Fulton T M; Giovannoni J J; Grandillo S; Martin G B
High density molecular linkage maps of the tomato and potato genomes.
Genetics 1992;132(4):1141-60.
1992: Martin G B; Ganal M W; Tanksley S D
Construction of a yeast artificial chromosome library of tomato and identification of cloned segments linked to two disease resistance loci.
Molecular & general genetics : MGG 1992;233(1-2):25-32.
1991: Martin G B; Williams J G; Tanksley S D
Rapid identification of markers linked to a Pseudomonas resistance gene in tomato by using random primers and near-isogenic lines.
Proceedings of the National Academy of Sciences of the United States of America 1991;88(6):2336-40.

Sign-in to see more