Unraveling the mechanisms of resistance to Sclerotium rolfsii in peanut (Arachis hypogaea L.) using comparative RNA-Seq analysis of resistant and susceptible genotypes.

Unraveling the mechanisms of resistance to Sclerotium rolfsii in peanut (Arachis hypogaea L.) using comparative RNA-Seq analysis of resistant and susceptible genotypes.

Stem rot, a devastating fungal disease of peanut, is caused by Sclerotium rolfsii. RNA-sequencing approaches have been used to unravel the mechanisms of resistance to stem rot in peanut over the course of fungal infection in resistant (NRCG-CS85) and susceptible (TG37A) genotypes under control condi...

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Main Authors: Tejas C Bosamia, Sneha M Dodia, Gyan P Mishra, Suhail Ahmad, Binal Joshi, Polavakkalipalayam P Thirumalaisamy, Narendra Kumar, Arulthambi L Rathnakumar, Chandramohan Sangh, Abhay Kumar, Radhakrishnan Thankappan
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0236823
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spelling doaj-716659ce437b43d7bac1ae9040dda86c2021-03-03T21:59:04ZengPublic Library of Science (PLoS)PLoS ONE1932-62032020-01-01158e023682310.1371/journal.pone.0236823Unraveling the mechanisms of resistance to Sclerotium rolfsii in peanut (Arachis hypogaea L.) using comparative RNA-Seq analysis of resistant and susceptible genotypes.Tejas C BosamiaSneha M DodiaGyan P MishraSuhail AhmadBinal JoshiPolavakkalipalayam P ThirumalaisamyNarendra KumarArulthambi L RathnakumarChandramohan SanghAbhay KumarRadhakrishnan ThankappanStem rot, a devastating fungal disease of peanut, is caused by Sclerotium rolfsii. RNA-sequencing approaches have been used to unravel the mechanisms of resistance to stem rot in peanut over the course of fungal infection in resistant (NRCG-CS85) and susceptible (TG37A) genotypes under control conditions and during the course of infection. Out of about 290 million reads, nearly 251 million (92.22%) high-quality reads were obtained and aligned to the Arachis duranensis and Arachis ipaensis genomes with the average mapping of 78.91% and 78.61%, respectively. In total, about 48.6% of genes were commonly regulated, while approximately 21.8% and 29.6% of uniquely regulated genes from A. duranensis and A. ipaensis genomes, respectively, were identified. Several annotated transcripts, such as receptor-like kinases, jasmonic acid pathway enzymes, and transcription factors (TFs), including WRKY, Zinc finger protein, and C2-H2 zinc finger, showed higher expression in resistant genotypes upon infection. These transcripts have a known role in channelizing the downstream of pathogen perception. The higher expression of WRKY transcripts might have induced the systemic acquired resistance (SAR) by the activation of the jasmonic acid defense signaling pathway. Furthermore, a set of 30 transcripts involved in the defense mechanisms were validated with quantitative real-time PCR. This study suggested PAMP-triggered immunity as a probable mechanism of resistance, while the jasmonic acid signaling pathway was identified as a possible defense mechanism in peanut. The information generated is of immense importance in developing more effective ways to combat the stem rot disease in peanut.https://doi.org/10.1371/journal.pone.0236823
collection DOAJ
language English
format Article
sources DOAJ
author Tejas C Bosamia
Sneha M Dodia
Gyan P Mishra
Suhail Ahmad
Binal Joshi
Polavakkalipalayam P Thirumalaisamy
Narendra Kumar
Arulthambi L Rathnakumar
Chandramohan Sangh
Abhay Kumar
Radhakrishnan Thankappan
spellingShingle Tejas C Bosamia
Sneha M Dodia
Gyan P Mishra
Suhail Ahmad
Binal Joshi
Polavakkalipalayam P Thirumalaisamy
Narendra Kumar
Arulthambi L Rathnakumar
Chandramohan Sangh
Abhay Kumar
Radhakrishnan Thankappan
Unraveling the mechanisms of resistance to Sclerotium rolfsii in peanut (Arachis hypogaea L.) using comparative RNA-Seq analysis of resistant and susceptible genotypes.
PLoS ONE
author_facet Tejas C Bosamia
Sneha M Dodia
Gyan P Mishra
Suhail Ahmad
Binal Joshi
Polavakkalipalayam P Thirumalaisamy
Narendra Kumar
Arulthambi L Rathnakumar
Chandramohan Sangh
Abhay Kumar
Radhakrishnan Thankappan
author_sort Tejas C Bosamia
title Unraveling the mechanisms of resistance to Sclerotium rolfsii in peanut (Arachis hypogaea L.) using comparative RNA-Seq analysis of resistant and susceptible genotypes.
title_short Unraveling the mechanisms of resistance to Sclerotium rolfsii in peanut (Arachis hypogaea L.) using comparative RNA-Seq analysis of resistant and susceptible genotypes.
title_full Unraveling the mechanisms of resistance to Sclerotium rolfsii in peanut (Arachis hypogaea L.) using comparative RNA-Seq analysis of resistant and susceptible genotypes.
title_fullStr Unraveling the mechanisms of resistance to Sclerotium rolfsii in peanut (Arachis hypogaea L.) using comparative RNA-Seq analysis of resistant and susceptible genotypes.
title_full_unstemmed Unraveling the mechanisms of resistance to Sclerotium rolfsii in peanut (Arachis hypogaea L.) using comparative RNA-Seq analysis of resistant and susceptible genotypes.
title_sort unraveling the mechanisms of resistance to sclerotium rolfsii in peanut (arachis hypogaea l.) using comparative rna-seq analysis of resistant and susceptible genotypes.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2020-01-01
description Stem rot, a devastating fungal disease of peanut, is caused by Sclerotium rolfsii. RNA-sequencing approaches have been used to unravel the mechanisms of resistance to stem rot in peanut over the course of fungal infection in resistant (NRCG-CS85) and susceptible (TG37A) genotypes under control conditions and during the course of infection. Out of about 290 million reads, nearly 251 million (92.22%) high-quality reads were obtained and aligned to the Arachis duranensis and Arachis ipaensis genomes with the average mapping of 78.91% and 78.61%, respectively. In total, about 48.6% of genes were commonly regulated, while approximately 21.8% and 29.6% of uniquely regulated genes from A. duranensis and A. ipaensis genomes, respectively, were identified. Several annotated transcripts, such as receptor-like kinases, jasmonic acid pathway enzymes, and transcription factors (TFs), including WRKY, Zinc finger protein, and C2-H2 zinc finger, showed higher expression in resistant genotypes upon infection. These transcripts have a known role in channelizing the downstream of pathogen perception. The higher expression of WRKY transcripts might have induced the systemic acquired resistance (SAR) by the activation of the jasmonic acid defense signaling pathway. Furthermore, a set of 30 transcripts involved in the defense mechanisms were validated with quantitative real-time PCR. This study suggested PAMP-triggered immunity as a probable mechanism of resistance, while the jasmonic acid signaling pathway was identified as a possible defense mechanism in peanut. The information generated is of immense importance in developing more effective ways to combat the stem rot disease in peanut.
url https://doi.org/10.1371/journal.pone.0236823
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