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RNA sequencing of Brassica napus reveals cellular redox control of Sclerotinia infection
RNA sequencing of Brassica napus reveals cellular redox control of Sclerotinia infection
by Fernando, W.G. Dilantha , Tong, Chaobo , de Kievit, Teresa , Huang, Junyan , Girard, Ian J. , Liu, Shengyi , Belmonte, Mark F. , Becker, Michael G. , Mao, Xingyu
in Ascomycota - physiology / Brassica napus - genetics / Brassica napus - microbiology / Brassica napus - physiology / Brassica napus - ultrastructure / Crop Molecular Genetics / Ethylenes - metabolism / Gene Regulatory Networks / Host-Pathogen Interactions / Oxidation-Reduction / Plant Diseases - microbiology / Plant Leaves - genetics / Plant Leaves - microbiology / Plant Leaves - physiology / Plant Leaves - ultrastructure / Plant Stems - genetics / Plant Stems - microbiology / Plant Stems - physiology / Plant Stems - ultrastructure / Research Papers / Sequence Analysis, RNA
2017
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RNA sequencing of Brassica napus reveals cellular redox control of Sclerotinia infection
by Fernando, W.G. Dilantha , Tong, Chaobo , de Kievit, Teresa , Huang, Junyan , Girard, Ian J. , Liu, Shengyi , Belmonte, Mark F. , Becker, Michael G. , Mao, Xingyu
in Ascomycota - physiology / Brassica napus - genetics / Brassica napus - microbiology / Brassica napus - physiology / Brassica napus - ultrastructure / Crop Molecular Genetics / Ethylenes - metabolism / Gene Regulatory Networks / Host-Pathogen Interactions / Oxidation-Reduction / Plant Diseases - microbiology / Plant Leaves - genetics / Plant Leaves - microbiology / Plant Leaves - physiology / Plant Leaves - ultrastructure / Plant Stems - genetics / Plant Stems - microbiology / Plant Stems - physiology / Plant Stems - ultrastructure / Research Papers / Sequence Analysis, RNA
2017
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RNA sequencing of Brassica napus reveals cellular redox control of Sclerotinia infection
RNA sequencing of Brassica napus reveals cellular redox control of Sclerotinia infection
by Fernando, W.G. Dilantha , Tong, Chaobo , de Kievit, Teresa , Huang, Junyan , Girard, Ian J. , Liu, Shengyi , Belmonte, Mark F. , Becker, Michael G. , Mao, Xingyu
in Ascomycota - physiology / Brassica napus - genetics / Brassica napus - microbiology / Brassica napus - physiology / Brassica napus - ultrastructure / Crop Molecular Genetics / Ethylenes - metabolism / Gene Regulatory Networks / Host-Pathogen Interactions / Oxidation-Reduction / Plant Diseases - microbiology / Plant Leaves - genetics / Plant Leaves - microbiology / Plant Leaves - physiology / Plant Leaves - ultrastructure / Plant Stems - genetics / Plant Stems - microbiology / Plant Stems - physiology / Plant Stems - ultrastructure / Research Papers / Sequence Analysis, RNA
2017

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RNA sequencing of Brassica napus reveals cellular redox control of Sclerotinia infection
RNA sequencing of Brassica napus reveals cellular redox control of Sclerotinia infection
Journal Article

RNA sequencing of Brassica napus reveals cellular redox control of Sclerotinia infection

Fernando, W.G. Dilantha,
Tong, Chaobo,
de Kievit, Teresa,
Huang, Junyan,
Girard, Ian J.,
Liu, Shengyi,
Belmonte, Mark F.,
Becker, Michael G.,
Mao, Xingyu
2017
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Overview
Brassica napus is one of the world’s most valuable oilseeds and is under constant pressure by the necrotrophic fungal pathogen, Sclerotinia sclerotiorum, the causal agent of white stem rot. Despite our growing understanding of host pathogen interactions at the molecular level, we have yet to fully understand the biological processes and underlying gene regulatory networks responsible for determining disease outcomes. Using global RNA sequencing, we profiled gene activity at the first point of infection on the leaf surface 24 hours after pathogen exposure in susceptible (B. napus cv. Westar) and tolerant (B. napus cv. Zhongyou 821) plants. We identified a family of ethylene response factors that may contribute to host tolerance to S. sclerotiorum by activating genes associated with fungal recognition, sub-cellular organization, and redox homeostasis. Physiological investigation of redox homeostasis was further studied by quantifying cellular levels of the glutathione and ascorbate redox pathway and the cycling enzymes associated with host tolerance to S. sclerotiorum. Functional characterization of an Arabidopsis redox mutant challenged with the fungus provides compelling evidence into the role of the ascorbate-glutathione redox hub in the maintenance and enhancement of plant tolerance against fungal pathogens.
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Publisher
Oxford University Press
Subject

Ascomycota - physiology

/ Brassica napus - genetics

/ Brassica napus - microbiology

/ Brassica napus - physiology

/ Brassica napus - ultrastructure

/ Crop Molecular Genetics

/ Ethylenes - metabolism

/ Gene Regulatory Networks

/ Host-Pathogen Interactions

/ Oxidation-Reduction

/ Plant Diseases - microbiology

/ Plant Leaves - genetics

/ Plant Leaves - microbiology

/ Plant Leaves - physiology

/ Plant Leaves - ultrastructure

/ Plant Stems - genetics

/ Plant Stems - microbiology

/ Plant Stems - physiology

/ Plant Stems - ultrastructure

/ Research Papers

/ Sequence Analysis, RNA

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