Please use this identifier to cite or link to this item: http://223.31.159.10:8080/jspui/handle/123456789/407
Title: Identification and functional analysis of AG1-IA specific genes of Rhizoctonia solani
Authors: Ghosh, Srayan
Gupta, Santosh Kumar
Jha, Gopaljee
Keywords: Sheath blight disease
Fungal pathogenesis
Anastomosis group
Disease resistance
Host specificity
Necrotrophs
Secondary metabolism
Toxins
Issue Date: 2014
Publisher: Springer
Citation: Current Genetics, 60(4): 327-341
Abstract: Rhizoctonia solani is an important necrotrophic fungal pathogen which causes disease on diverse plant species. It has been classified into 14 genetically distinct anastomosis groups (AGs), however, very little is known about their genomic diversity. AG1-IA causes sheath blight disease in rice and controlling this disease remains a challenge for sustainable rice cultivation. Recently the draft genome sequences of AG1-IA (rice isolate) and AG1-IB (lettuce isolate) had become publicly available. In this study, using comparative genomics, we report identification of 3,942 R. solani genes that are uniquely present in AG1-IA. Many of these genes encode important biological, molecular functions and exhibit dynamic expression during in-planta growth of the pathogen in rice. Based upon sequence similarity with genes that are required for plant and human/zoonotic diseases, we identified several putative virulence/pathogenicity determinants amongst AG1-IA specific genes. While studying the expression of 19 randomly selected genes, we identified three genes highly up-regulated during in-planta growth. The detailed in silico characterization of these genes and extent of their up-regulation in different rice genotypes, having variable degree of disease susceptibility, suggests their importance in rice-Rhizoctonia interactions. In summary, the present study reports identification, functional characterization of AG1-IA specific genes and predicts important virulence determinants that might enable the pathogen to grow inside hostile plant environment. Further characterization of these genes would shed useful insights about the pathogenicity mechanism of AG1-IA on rice.
Description: Accepted date: 10 July 2014
URI: http://172.16.0.77:8080/jspui/handle/123456789/407
ISSN: 1432-0983
Appears in Collections:Institutional Publications

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