Arabidopsis thaliana AtHRS1 gene is involved in the response to Heterodera schachtii infection and its overexpression hampers development of syncytia and involves a jasmonic acid-dependent mechanism

Arabidopsis thaliana Myb59 Gene Is Involved in the Response to Heterodera schachtii Infestation, and Its Overexpression Disturbs Regular Development of Nematode-Induced Syncytia

(2021) Anita Wiśniewska et al.   INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES

Modulation of Arabidopsis Flavonol Biosynthesis Genes by Cyst and Root-Knot Nematodes

(2020) Noureddine Hamamouch et al.   Plants-Basel

Expression of both Arabidopsis γ-tubulin genes is essential for development of a functional syncytium induced by Heterodera schachtii

(2018) Elżbieta Różańska et al.   PLANT CELL REPORTS

Phytoparasitic nematode control of plant hormone pathways

(2018) Godelieve Gheysen et al.   PLANT PHYSIOLOGY

Jasmonic Acid Oxidase 2 Hydroxylates Jasmonic Acid and Represses Basal Defense and Resistance Responses against Botrytis cinerea Infection

(2017) Ekaterina Smirnova et al.   Molecular Plant

ArabidopsisJASMONATE-INDUCED OXYGENASES down-regulate plant immunity by hydroxylation and inactivation of the hormone jasmonic acid

(2017) Lotte Caarls et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

Role of stress-related hormones in plant defence during early infection of the cyst nematodeHeterodera schachtiiin Arabidopsis

(2015) Nina Kammerhofer et al.   NEW PHYTOLOGIST

AtNIGT1/HRS1 integrates nitrate and phosphate signals at the Arabidopsis root tip

(2015) Anna Medici et al.   Nature Communications

The Beet Cyst Nematode Heterodera schachtii Modulates the Expression of WRKY Transcription Factors in Syncytia to Favour Its Development in Arabidopsis Roots

(2014) Muhammad Amjad Ali et al.   PLoS One

Top 10 plant-parasitic nematodes in molecular plant pathology

(2013) John T. Jones et al.   MOLECULAR PLANT PATHOLOGY

Two closely related members ofArabidopsis13-lipoxygenases (13-LOXs), LOX3 and LOX4, reveal distinct functions in response to plant-parasitic nematode infection

(2013) Rachel Ozalvo et al.   MOLECULAR PLANT PATHOLOGY

Low Red/Far-Red Ratios Reduce Arabidopsis Resistance to Botrytis cinerea and Jasmonate Responses via a COI1-JAZ10-Dependent, Salicylic Acid-Independent Mechanism

(2012) I. Cerrudo et al.   PLANT PHYSIOLOGY

Expression profile of jasmonic acid-induced genes and the induced resistance against the root-knot nematode (Meloidogyne incognita) in tomato plants (Solanum lycopersicum) after foliar treatment with methyl jasmonate

(2011) Taketo Fujimoto et al.   JOURNAL OF PLANT PHYSIOLOGY

A Guideline to Family-Wide Comparative State-of-the-Art Quantitative RT-PCR Analysis Exemplified with a Brassicaceae Cross-Species Seed Germination Case Study

(2011) Kai Graeber et al.   PLANT CELL

The jasmonate pathway: the ligand, the receptor and the core signalling module

(2009) Sandra Fonseca et al.   CURRENT OPINION IN PLANT BIOLOGY

OverexpressingHRS1Confers Hypersensitivity to Low Phosphate-Elicited Inhibition of Primary Root Growth inArabidopsis thaliana

(2009) Hong Liu et al.   Journal of Integrative Plant Biology

Tomato Susceptibility to Root-Knot Nematodes Requires an Intact Jasmonic Acid Signaling Pathway

(2008) Kishor K. Bhattarai et al.   MOLECULAR PLANT-MICROBE INTERACTIONS

The transcriptome of syncytia induced by the cyst nematodeHeterodera schachtiiin Arabidopsis roots

(2008) Dagmar Szakasits et al.   PLANT JOURNAL

A Role for AtWRKY23 in Feeding Site Establishment of Plant-Parasitic Nematodes

(2008) W. Grunewald et al.   PLANT PHYSIOLOGY

Maize 9-Lipoxygenase ZmLOX3 Controls Development, Root-Specific Expression of Defense Genes, and Resistance to Root-Knot Nematodes

(2007) Xiquan Gao et al.   MOLECULAR PLANT-MICROBE INTERACTIONS