Transcriptomic analysis identifies candidate genes for Aphanomyces root rot disease resistance in pea

Chardon F(2020)Auxin profiling and GmPIN expression in Phytophthora sojae-soybean root interactions Phytopathology. 110 1141823-1011

Jaulneau V(2023)Phyto-oxylipin mediated plant immune response to colonization and infection in the soybean-Phytophthora sojae pathosystem Front Plant Sci. 14 713-3048

Mathé C(1988)cDNA sequences for pea disease resistance response genes Plant Mol Biol 11 81-21

Kiselev A(1985)The disease resistance response in pea is associated with increased levels of specific mRNAs Plant Mol Biol 4 1974-930

Camborde L(2010)Medicago truncatula proteomics J Proteomics 73 387-26

Carballo LO(2005)Proteomic profiling unravels insights into the molecular background underlying increased Aphanomyces euteiches-tolerance of Medicago truncatula Plant Mol Biol 59 109-W9

Kaschani F(2004)Proteomic approach: identification of Medicago truncatula proteins induced in roots after infection with the pathogenic oomycete Aphanomyces euteiches Plant Mol Biol 55 1675-3027

Kaiser M(2005)Response of root branching to abscisic acid is correlated with nodule formation both in legumes and nonlegumes Am J Bot 92 2195-3

van der Hoorn RAL(2018)Comparative genome-wide-association mapping identifies common loci controlling root system architecture and resistance to Aphanomyces euteiches in pea Front Plant Sci. 8 531-D995

Wu L(2012)Transcription factors of Lotus: regulation of isoflavonoid biosynthesis requires coordinated changes in transcription factor activity Plant Physiol 159 4135-652

Chardon F(2020)Auxin profiling and GmPIN expression in Phytophthora sojae-soybean root interactions Phytopathology. 110 1141823-1011

Jaulneau V(2023)Phyto-oxylipin mediated plant immune response to colonization and infection in the soybean-Phytophthora sojae pathosystem Front Plant Sci. 14 713-3048

Mathé C(1988)cDNA sequences for pea disease resistance response genes Plant Mol Biol 11 81-21

Kiselev A(1985)The disease resistance response in pea is associated with increased levels of specific mRNAs Plant Mol Biol 4 1974-930

Camborde L(2010)Medicago truncatula proteomics J Proteomics 73 387-26

Carballo LO(2005)Proteomic profiling unravels insights into the molecular background underlying increased Aphanomyces euteiches-tolerance of Medicago truncatula Plant Mol Biol 59 109-W9

Kaschani F(2004)Proteomic approach: identification of Medicago truncatula proteins induced in roots after infection with the pathogenic oomycete Aphanomyces euteiches Plant Mol Biol 55 1675-3027

Kaiser M(2005)Response of root branching to abscisic acid is correlated with nodule formation both in legumes and nonlegumes Am J Bot 92 2195-3

van der Hoorn RAL(2018)Comparative genome-wide-association mapping identifies common loci controlling root system architecture and resistance to Aphanomyces euteiches in pea Front Plant Sci. 8 531-D995

Wu L(2012)Transcription factors of Lotus: regulation of isoflavonoid biosynthesis requires coordinated changes in transcription factor activity Plant Physiol 159 4135-652