2016
DOI: 10.1038/srep22846
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Comparing the defence-related gene expression changes upon root-knot nematode attack in susceptible versus resistant cultivars of rice

Abstract: Rice is one of the major staple food crops in the world and an excellent model system for studying monocotyledonous plants. Diseases caused by nematodes in rice are well documented and among them, root-knot nematode (RKN), Meloidogyne graminicola, causes extensive yield decline. It is therefore necessary to identify novel sources of natural resistance to RKN in rice and to investigate the rice-RKN interaction in detail to understand the basal plant defence mechanisms and nematode manipulation of the host physi… Show more

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Cited by 81 publications
(78 citation statements)
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“…Again similar to the results presented here, Kumari et al . () recorded a greater induction of lignin biosynthesis genes in the roots of a resistant cultivar versus a susceptible cultivar at 2 days after root‐knot nematode inoculation.…”
Section: Discussionmentioning
confidence: 95%
See 1 more Smart Citation
“…Again similar to the results presented here, Kumari et al . () recorded a greater induction of lignin biosynthesis genes in the roots of a resistant cultivar versus a susceptible cultivar at 2 days after root‐knot nematode inoculation.…”
Section: Discussionmentioning
confidence: 95%
“…For instance, the JA pathway is of central importance in root defence against the root-knot nematode Meloidogyne graminicola, whereas SA, JA and ET are equally important for defence against the migratory root nematode Hirschmanniella oryzae (Nahar et al, 2012). A gene expression analysis of rice on root-knot nematode infection revealed significant differential expression of wellidentified SA/JA/ET marker genes when comparing susceptible and resistant interactions (Kumari et al, 2016). However, in contrast with root-parasitic nematodes of rice, there is no knowledge concerning the signalling pathways involved in rice defence against foliar nematodes, such as Ditylenchus angustus.…”
Section: Introductionmentioning
confidence: 99%
“…These data are consistent with the resistance responses registered in other plant-pathogen interactions where a strong and rapid activation of plant defence usually differentiates the resistant genotype from the susceptible. A recent study in susceptible and resistant varieties of rice (O. sativa) showed similar contrasting data in the qPCR expression pattern for a limited set of genes (Kumari et al, 2016). However, only fragmented data have been reported so far in incompatible plantnematode interactions.…”
Section: Tog5681 Transcriptional Responses Are Expressed Earlymentioning
confidence: 93%
“…Of the abiotic stresses, temperature is considered a dominant abiotic stress impeding agriculture productivity (Meena et al , ). Varieties of different resistance/susceptibility show significant differences at both phenotypic and molecular levels when confronted by pathogens (e.g., Ma et al , ; Cregeen et al , ; Kumari et al , ; Tran et al , ). In the current study, while total RGERs were significantly up‐regulated in all tested varieties, it is noteworthy that up‐regulation in moderately resistant Riverina (Nichols et al , ; You et al , ) was significantly different from Seaton Park (susceptible) and Woogenellup (moderately susceptible) at moderate–high temperatures, confirming that genotype is a critical factor that not only affects gene transcripts but also affects the expression of phenotypic characteristics such as root disease, plant size, and growth rate (You and Barbetti, ; ; You et al , ; ).…”
Section: Discussionmentioning
confidence: 99%