Plants rely on innate immunity to fight pathogens. Among plant defence mechanisms, Resistance (R) proteins play essential roles in recognizing pathogens and mounting robust defence responses. snc1, a mis-regulated plant Resistance (R) gene mutant, exhibits distinctive morphological and autoimmune phenotypes. To identify the signalling components downstream of R proteinmediated defence, forward genetic screens were conducted in the snc1 background. From the screens, fifteen novel mos (modifier of snc1) mutants were identified, of which, I studied mos7 and mos9 for my PhD thesis. Both mos7 and mos9 partially suppress all snc1- related autoimmune phenotypes. MOS7 is an Arabidopsis homolog of human and Drosophila Nucleoporin 88 (Nup88) required...
Plants employ sophisticated innate immune systems to ward off the invasion of pathogens. Upon percep...
Plant immunity is usually initiated with two types of immune receptors: 1) pattern recognition recep...
SummaryInnate immunity is critical for sensing and defending against microbial infections in multice...
Plants rely on innate immunity to fight pathogens. Among plant defence mechanisms, Resistance (R) pr...
Plants respond in various ways to defend themselves against pathogen infections. Resistance (R) prot...
Plants have evolved sophisticated defence systems against pathogen infection. Initiation of induced ...
The plant innate immune system is highly effective in impeding infection by a broad spectrum of micr...
ii Plants have evolved sophisticated defence systems against pathogen infection. Initiation of induc...
Plant diseases cause major crop losses worldwide. Crop protection strategies enhancing the plants' ...
Out of necessity, plants have evolved robust, multi-layered defence responses to combat pathogen at...
The plant immune system is governed in part by Resistance (R) proteins that recognize pathogenic mic...
Plants possess a complex multi-layered immune system that enables them to defend themselves against ...
Plant immunity is usually governed by two types of immune receptors: 1) pattern recognition receptor...
In response to pathogen infection, plants typically use RESISTANCE (R) proteins to recognize and ind...
Plants are sessile organisms and rely on their innate immune systems to defend against pathogens. Nu...
Plants employ sophisticated innate immune systems to ward off the invasion of pathogens. Upon percep...
Plant immunity is usually initiated with two types of immune receptors: 1) pattern recognition recep...
SummaryInnate immunity is critical for sensing and defending against microbial infections in multice...
Plants rely on innate immunity to fight pathogens. Among plant defence mechanisms, Resistance (R) pr...
Plants respond in various ways to defend themselves against pathogen infections. Resistance (R) prot...
Plants have evolved sophisticated defence systems against pathogen infection. Initiation of induced ...
The plant innate immune system is highly effective in impeding infection by a broad spectrum of micr...
ii Plants have evolved sophisticated defence systems against pathogen infection. Initiation of induc...
Plant diseases cause major crop losses worldwide. Crop protection strategies enhancing the plants' ...
Out of necessity, plants have evolved robust, multi-layered defence responses to combat pathogen at...
The plant immune system is governed in part by Resistance (R) proteins that recognize pathogenic mic...
Plants possess a complex multi-layered immune system that enables them to defend themselves against ...
Plant immunity is usually governed by two types of immune receptors: 1) pattern recognition receptor...
In response to pathogen infection, plants typically use RESISTANCE (R) proteins to recognize and ind...
Plants are sessile organisms and rely on their innate immune systems to defend against pathogens. Nu...
Plants employ sophisticated innate immune systems to ward off the invasion of pathogens. Upon percep...
Plant immunity is usually initiated with two types of immune receptors: 1) pattern recognition recep...
SummaryInnate immunity is critical for sensing and defending against microbial infections in multice...