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Glycoside Hydrolase MoGls2 Controls Asexual/Sexual Development, Cell Wall Integrity and Infectious Growth in the Rice Blast Fungus

N-linked glycosylation is a way of glycosylation for newly synthesized protein, which plays a key role in the maturation and transport of proteins. Glycoside hydrolases (GHs) are essential in this process, and are involved in processing of N-linked glycoproteins or degradation of carbohydrate struct... Full description

Journal Title: PLoS One Sep 2016, Vol.11(9), p.e0162243
Main Author: Li, Mengying
Other Authors: Liu, Xinyu , Liu, Zhixi , Sun, Yi , Liu, Muxing , Wang, Xiaoli , Zhang, Haifeng , Zheng, Xiaobo , Zhang, Zhengguang
Format: Electronic Article Electronic Article
Language: English
Subjects:
ID: E-ISSN: 19326203 ; DOI: 10.1371/journal.pone.0162243
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recordid: proquest1817860829
title: Glycoside Hydrolase MoGls2 Controls Asexual/Sexual Development, Cell Wall Integrity and Infectious Growth in the Rice Blast Fungus
format: Article
creator:
  • Li, Mengying
  • Liu, Xinyu
  • Liu, Zhixi
  • Sun, Yi
  • Liu, Muxing
  • Wang, Xiaoli
  • Zhang, Haifeng
  • Zheng, Xiaobo
  • Zhang, Zhengguang
subjects:
  • China
  • Saccharomyces Cerevisiae
  • Ustilago Maydis
  • Magnaporthe Grisea
  • Magnaporthe Oryzae
  • Oryza
  • Laboratories
  • Fungi
  • Endoplasmic Reticulum
  • Defects
  • Pathogenicity
  • Glycoproteins
  • Glycoproteins
  • Sexual Reproduction
  • Crop Diseases
  • Salts
  • Osmotic Stress
  • Rice Blast
  • Kinases
  • Infectious Diseases
ispartof: PLoS One, Sep 2016, Vol.11(9), p.e0162243
description: N-linked glycosylation is a way of glycosylation for newly synthesized protein, which plays a key role in the maturation and transport of proteins. Glycoside hydrolases (GHs) are essential in this process, and are involved in processing of N-linked glycoproteins or degradation of carbohydrate structures. Here, we identified and characterized MoGls2 in Magnaporthe oryzae, which is a yeast glucosidase II homolog Gls2 and is required for trimming the final glucose in N-linked glycans and normal cell wall synthesis. Target deletion of MoGLS2 in M. oryzae resulted in a reduced mycelial growth, an increased conidial production, delayed conidial germination and loss the ability of sexual reproduction. Pathogenicity assays revealed that the ΔMogls2 mutant showed significantly decreased in virulence and infectious growth. Further studies showed that the mutant was less sensitive to salt and osmotic stress, and increased sensitivity to cell wall stresses. Additionally, the ΔMogls2 mutant showed a...
language: eng
source:
identifier: E-ISSN: 19326203 ; DOI: 10.1371/journal.pone.0162243
fulltext: fulltext_linktorsrc
issn:
  • 19326203
  • 1932-6203
url: Link


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titleGlycoside Hydrolase MoGls2 Controls Asexual/Sexual Development, Cell Wall Integrity and Infectious Growth in the Rice Blast Fungus
creatorLi, Mengying ; Liu, Xinyu ; Liu, Zhixi ; Sun, Yi ; Liu, Muxing ; Wang, Xiaoli ; Zhang, Haifeng ; Zheng, Xiaobo ; Zhang, Zhengguang
ispartofPLoS One, Sep 2016, Vol.11(9), p.e0162243
identifierE-ISSN: 19326203 ; DOI: 10.1371/journal.pone.0162243
subjectChina ; Saccharomyces Cerevisiae ; Ustilago Maydis ; Magnaporthe Grisea ; Magnaporthe Oryzae ; Oryza ; Laboratories ; Fungi ; Endoplasmic Reticulum ; Defects ; Pathogenicity ; Glycoproteins ; Glycoproteins ; Sexual Reproduction ; Crop Diseases ; Salts ; Osmotic Stress ; Rice Blast ; Kinases ; Infectious Diseases
descriptionN-linked glycosylation is a way of glycosylation for newly synthesized protein, which plays a key role in the maturation and transport of proteins. Glycoside hydrolases (GHs) are essential in this process, and are involved in processing of N-linked glycoproteins or degradation of carbohydrate structures. Here, we identified and characterized MoGls2 in Magnaporthe oryzae, which is a yeast glucosidase II homolog Gls2 and is required for trimming the final glucose in N-linked glycans and normal cell wall synthesis. Target deletion of MoGLS2 in M. oryzae resulted in a reduced mycelial growth, an increased conidial production, delayed conidial germination and loss the ability of sexual reproduction. Pathogenicity assays revealed that the ΔMogls2 mutant showed significantly decreased in virulence and infectious growth. Further studies showed that the mutant was less sensitive to salt and osmotic stress, and increased sensitivity to cell wall stresses. Additionally, the ΔMogls2 mutant showed a...
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titleGlycoside Hydrolase MoGls2 Controls Asexual/Sexual Development, Cell Wall Integrity and Infectious Growth in the Rice Blast Fungus
descriptionN-linked glycosylation is a way of glycosylation for newly synthesized protein, which plays a key role in the maturation and transport of proteins. Glycoside hydrolases (GHs) are essential in this process, and are involved in processing of N-linked glycoproteins or degradation of carbohydrate structures. Here, we identified and characterized MoGls2 in Magnaporthe oryzae, which is a yeast glucosidase II homolog Gls2 and is required for trimming the final glucose in N-linked glycans and normal cell wall synthesis. Target deletion of MoGLS2 in M. oryzae resulted in a reduced mycelial growth, an increased conidial production, delayed conidial germination and loss the ability of sexual reproduction. Pathogenicity assays revealed that the ΔMogls2 mutant showed significantly decreased in virulence and infectious growth. Further studies showed that the mutant was less sensitive to salt and osmotic stress, and increased sensitivity to cell wall stresses. Additionally, the ΔMogls2 mutant showed a...
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titleGlycoside Hydrolase MoGls2 Controls Asexual/Sexual Development, Cell Wall Integrity and Infectious Growth in the Rice Blast Fungus
authorLi, Mengying ; Liu, Xinyu ; Liu, Zhixi ; Sun, Yi ; Liu, Muxing ; Wang, Xiaoli ; Zhang, Haifeng ; Zheng, Xiaobo ; Zhang, Zhengguang
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abstractN-linked glycosylation is a way of glycosylation for newly synthesized protein, which plays a key role in the maturation and transport of proteins. Glycoside hydrolases (GHs) are essential in this process, and are involved in processing of N-linked glycoproteins or degradation of carbohydrate structures. Here, we identified and characterized MoGls2 in Magnaporthe oryzae, which is a yeast glucosidase II homolog Gls2 and is required for trimming the final glucose in N-linked glycans and normal cell wall synthesis. Target deletion of MoGLS2 in M. oryzae resulted in a reduced mycelial growth, an increased conidial production, delayed conidial germination and loss the ability of sexual reproduction. Pathogenicity assays revealed that the ΔMogls2 mutant showed significantly decreased in virulence and infectious growth. Further studies showed that the mutant was less sensitive to salt and osmotic stress, and increased sensitivity to cell wall stresses. Additionally, the ΔMogls2 mutant showed a...
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