Whole Genome Sequencing of Fusarium fujikuroi Provides Insight into the Role of Secretory Proteins and Cell Wall Degrading Enzymes in Causing Bakanae Disease of Rice

Whole Genome Sequencing of Fusarium fujikuroi Provides Insight into the Role of Secretory Proteins and Cell Wall Degrading Enzymes in Causing Bakanae Disease of Rice

Fusarium fujikuroi causing bakanae disease has emerged as one of the major pathogen of rice across the world. The study aims to comparative genomic analysis of Fusarium fujikuroi isolates and identification of the secretary proteins of the fungus involved in rice pathogenesis. In the present study,...

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Main Authors: Bishnu M. Bashyal, Kirti Rawat, Sapna Sharma, Deepika Kulshreshtha, S. Gopala Krishnan, Ashok K. Singh, Himanshu Dubey, Amolkumar U. Solanke, T. R. Sharma, Rashmi Aggarwal
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-11-01
Series:Frontiers in Plant Science
Subjects:
Fusarium fujikuroi
bakanae
whole genome sequencing
secretome
comparative genomics
Online Access:http://journal.frontiersin.org/article/10.3389/fpls.2017.02013/full
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spelling doaj-b30a1b5506534411952509a23b9d4cb92020-11-24T22:53:43ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2017-11-01810.3389/fpls.2017.02013283080Whole Genome Sequencing of Fusarium fujikuroi Provides Insight into the Role of Secretory Proteins and Cell Wall Degrading Enzymes in Causing Bakanae Disease of RiceBishnu M. Bashyal0Kirti Rawat1Sapna Sharma2Deepika Kulshreshtha3S. Gopala Krishnan4Ashok K. Singh5Himanshu Dubey6Amolkumar U. Solanke7T. R. Sharma8Rashmi Aggarwal9Division of Plant Pathology, ICAR-Indian Agricultural Research Institute, New Delhi, IndiaDivision of Plant Pathology, ICAR-Indian Agricultural Research Institute, New Delhi, IndiaDivision of Plant Pathology, ICAR-Indian Agricultural Research Institute, New Delhi, IndiaDivision of Plant Pathology, ICAR-Indian Agricultural Research Institute, New Delhi, IndiaDivision of Genetics, ICAR-Indian Agricultural Research Institute, New Delhi, IndiaDivision of Genetics, ICAR-Indian Agricultural Research Institute, New Delhi, IndiaICAR-National Research Centre on Plant Biotechnology, New Delhi, IndiaICAR-National Research Centre on Plant Biotechnology, New Delhi, IndiaICAR-National Research Centre on Plant Biotechnology, New Delhi, IndiaDivision of Plant Pathology, ICAR-Indian Agricultural Research Institute, New Delhi, IndiaFusarium fujikuroi causing bakanae disease has emerged as one of the major pathogen of rice across the world. The study aims to comparative genomic analysis of Fusarium fujikuroi isolates and identification of the secretary proteins of the fungus involved in rice pathogenesis. In the present study, F. fujikuroi isolate “F250” was sequenced with an assembly size of 42.47 Mb providing coverage of 96.89% on reference IMI58289 genome. A total of 13,603 protein-coding genes were predicted from genome assembly. The average gene density in the F. fujikuroi genome was 315.10 genes per Mb with an average gene length of 1.67 kb. Additionally, 134,374 single nucleotide polymorphisms (SNPs) are identified against IMI58289 isolate, with an average SNP density of 3.11 per kb of genome. Repetitive elements represent approximately 270,550 bp, which is 0.63% of the total genome. In total, 3,109 simple sequence repeats (SSRs), including 302 compound SSRs are identified in the 8,656 scaffolds. Comparative analysis of the isolates of F. fujikuroi revealed that they shared a total of 12,240 common clusters with F250 showing higher similarity with IMI58289. A total of 1,194 secretory proteins were identified in its genome among which there were 356 genes encoding carbohydrate active enzymes (CAZymes) capable for degradation of complex polysaccharides. Out of them glycoside hydrolase (GH) families were most prevalent (41%) followed by carbohydrate esterase (CE). Out of them CE8 (4 genes), PL1 (10 genes), PL3 (5 genes), and GH28 (8 genes) were prominent plant cell wall degrading enzymes families in F250 secretome. Besides this, 585 genes essential for the pathogen–host interactions were also identified. Selected genes were validated through quantitative real-time PCR analyses in resistant and susceptible genotypes of rice at different days of inoculation. The data offers a better understanding of F. fujikuroi genome and will help us enhance our knowledge on Fusarium fujikuroi–rice interactions.http://journal.frontiersin.org/article/10.3389/fpls.2017.02013/fullFusarium fujikuroibakanaewhole genome sequencingsecretomecomparative genomics
collection DOAJ
language English
format Article
sources DOAJ
author Bishnu M. Bashyal
Kirti Rawat
Sapna Sharma
Deepika Kulshreshtha
S. Gopala Krishnan
Ashok K. Singh
Himanshu Dubey
Amolkumar U. Solanke
T. R. Sharma
Rashmi Aggarwal
spellingShingle Bishnu M. Bashyal
Kirti Rawat
Sapna Sharma
Deepika Kulshreshtha
S. Gopala Krishnan
Ashok K. Singh
Himanshu Dubey
Amolkumar U. Solanke
T. R. Sharma
Rashmi Aggarwal
Whole Genome Sequencing of Fusarium fujikuroi Provides Insight into the Role of Secretory Proteins and Cell Wall Degrading Enzymes in Causing Bakanae Disease of Rice
Frontiers in Plant Science
Fusarium fujikuroi
bakanae
whole genome sequencing
secretome
comparative genomics
author_facet Bishnu M. Bashyal
Kirti Rawat
Sapna Sharma
Deepika Kulshreshtha
S. Gopala Krishnan
Ashok K. Singh
Himanshu Dubey
Amolkumar U. Solanke
T. R. Sharma
Rashmi Aggarwal
author_sort Bishnu M. Bashyal
title Whole Genome Sequencing of Fusarium fujikuroi Provides Insight into the Role of Secretory Proteins and Cell Wall Degrading Enzymes in Causing Bakanae Disease of Rice
title_short Whole Genome Sequencing of Fusarium fujikuroi Provides Insight into the Role of Secretory Proteins and Cell Wall Degrading Enzymes in Causing Bakanae Disease of Rice
title_full Whole Genome Sequencing of Fusarium fujikuroi Provides Insight into the Role of Secretory Proteins and Cell Wall Degrading Enzymes in Causing Bakanae Disease of Rice
title_fullStr Whole Genome Sequencing of Fusarium fujikuroi Provides Insight into the Role of Secretory Proteins and Cell Wall Degrading Enzymes in Causing Bakanae Disease of Rice
title_full_unstemmed Whole Genome Sequencing of Fusarium fujikuroi Provides Insight into the Role of Secretory Proteins and Cell Wall Degrading Enzymes in Causing Bakanae Disease of Rice
title_sort whole genome sequencing of fusarium fujikuroi provides insight into the role of secretory proteins and cell wall degrading enzymes in causing bakanae disease of rice
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2017-11-01
description Fusarium fujikuroi causing bakanae disease has emerged as one of the major pathogen of rice across the world. The study aims to comparative genomic analysis of Fusarium fujikuroi isolates and identification of the secretary proteins of the fungus involved in rice pathogenesis. In the present study, F. fujikuroi isolate “F250” was sequenced with an assembly size of 42.47 Mb providing coverage of 96.89% on reference IMI58289 genome. A total of 13,603 protein-coding genes were predicted from genome assembly. The average gene density in the F. fujikuroi genome was 315.10 genes per Mb with an average gene length of 1.67 kb. Additionally, 134,374 single nucleotide polymorphisms (SNPs) are identified against IMI58289 isolate, with an average SNP density of 3.11 per kb of genome. Repetitive elements represent approximately 270,550 bp, which is 0.63% of the total genome. In total, 3,109 simple sequence repeats (SSRs), including 302 compound SSRs are identified in the 8,656 scaffolds. Comparative analysis of the isolates of F. fujikuroi revealed that they shared a total of 12,240 common clusters with F250 showing higher similarity with IMI58289. A total of 1,194 secretory proteins were identified in its genome among which there were 356 genes encoding carbohydrate active enzymes (CAZymes) capable for degradation of complex polysaccharides. Out of them glycoside hydrolase (GH) families were most prevalent (41%) followed by carbohydrate esterase (CE). Out of them CE8 (4 genes), PL1 (10 genes), PL3 (5 genes), and GH28 (8 genes) were prominent plant cell wall degrading enzymes families in F250 secretome. Besides this, 585 genes essential for the pathogen–host interactions were also identified. Selected genes were validated through quantitative real-time PCR analyses in resistant and susceptible genotypes of rice at different days of inoculation. The data offers a better understanding of F. fujikuroi genome and will help us enhance our knowledge on Fusarium fujikuroi–rice interactions.
topic Fusarium fujikuroi
bakanae
whole genome sequencing
secretome
comparative genomics
url http://journal.frontiersin.org/article/10.3389/fpls.2017.02013/full
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