A P-loop mutation in G? subunits prevents transition to the active state: Implications for G-protein signaling in fungal pathogenesis
10.1371/journal.ppat.1002553
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sg-nus-scholar.10635-1616432024-04-03T10:36:00Z A P-loop mutation in G? subunits prevents transition to the active state: Implications for G-protein signaling in fungal pathogenesis Bosch D.E. Willard F.S. Ramanujam R. Kimple A.J. Willard M.D. Naqvi N.I. Siderovski D.P. BIOLOGICAL SCIENCES aluminum derivative aluminum tetrafluoride arginine G protein coupled receptor guanine nucleotide binding protein guanosine triphosphatase kb 1753 unclassified drug guanine nucleotide binding protein alpha subunit mutant protein article binding affinity binding site controlled study crystal structure DNA binding motif fungal strain fungus gene locus gene mutation hydrolysis intracellular signaling nonhuman pathogenesis protein conformation protein protein interaction signal transduction amino acid substitution chemical structure chemistry enzyme active site genetics Hordeum Magnaporthe metabolism microbiology mycosis pathogenicity physiology plant disease plant leaf point mutation protein folding protein tertiary structure signal transduction X ray crystallography Fungi Magnaporthe grisea Magnaporthe oryzae Thespesia grandiflora Amino Acid Substitution Catalytic Domain Crystallography, X-Ray GTP-Binding Protein alpha Subunits Hordeum Magnaporthe Models, Molecular Mutant Proteins Mycoses Plant Diseases Plant Leaves Point Mutation Protein Folding Protein Structure, Tertiary Signal Transduction 10.1371/journal.ppat.1002553 PLoS Pathogens 8 2 e1002553 2019-11-06T09:30:26Z 2019-11-06T09:30:26Z 2012 Article Bosch D.E., Willard F.S., Ramanujam R., Kimple A.J., Willard M.D., Naqvi N.I., Siderovski D.P. (2012). A P-loop mutation in G? subunits prevents transition to the active state: Implications for G-protein signaling in fungal pathogenesis. PLoS Pathogens 8 (2) : e1002553. ScholarBank@NUS Repository. https://doi.org/10.1371/journal.ppat.1002553 15537366 https://scholarbank.nus.edu.sg/handle/10635/161643 Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/ Unpaywall 20191101 |
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aluminum derivative aluminum tetrafluoride arginine G protein coupled receptor guanine nucleotide binding protein guanosine triphosphatase kb 1753 unclassified drug guanine nucleotide binding protein alpha subunit mutant protein article binding affinity binding site controlled study crystal structure DNA binding motif fungal strain fungus gene locus gene mutation hydrolysis intracellular signaling nonhuman pathogenesis protein conformation protein protein interaction signal transduction amino acid substitution chemical structure chemistry enzyme active site genetics Hordeum Magnaporthe metabolism microbiology mycosis pathogenicity physiology plant disease plant leaf point mutation protein folding protein tertiary structure signal transduction X ray crystallography Fungi Magnaporthe grisea Magnaporthe oryzae Thespesia grandiflora Amino Acid Substitution Catalytic Domain Crystallography, X-Ray GTP-Binding Protein alpha Subunits Hordeum Magnaporthe Models, Molecular Mutant Proteins Mycoses Plant Diseases Plant Leaves Point Mutation Protein Folding Protein Structure, Tertiary Signal Transduction |
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aluminum derivative aluminum tetrafluoride arginine G protein coupled receptor guanine nucleotide binding protein guanosine triphosphatase kb 1753 unclassified drug guanine nucleotide binding protein alpha subunit mutant protein article binding affinity binding site controlled study crystal structure DNA binding motif fungal strain fungus gene locus gene mutation hydrolysis intracellular signaling nonhuman pathogenesis protein conformation protein protein interaction signal transduction amino acid substitution chemical structure chemistry enzyme active site genetics Hordeum Magnaporthe metabolism microbiology mycosis pathogenicity physiology plant disease plant leaf point mutation protein folding protein tertiary structure signal transduction X ray crystallography Fungi Magnaporthe grisea Magnaporthe oryzae Thespesia grandiflora Amino Acid Substitution Catalytic Domain Crystallography, X-Ray GTP-Binding Protein alpha Subunits Hordeum Magnaporthe Models, Molecular Mutant Proteins Mycoses Plant Diseases Plant Leaves Point Mutation Protein Folding Protein Structure, Tertiary Signal Transduction Bosch D.E. Willard F.S. Ramanujam R. Kimple A.J. Willard M.D. Naqvi N.I. Siderovski D.P. A P-loop mutation in G? subunits prevents transition to the active state: Implications for G-protein signaling in fungal pathogenesis |
description |
10.1371/journal.ppat.1002553 |
author2 |
BIOLOGICAL SCIENCES |
author_facet |
BIOLOGICAL SCIENCES Bosch D.E. Willard F.S. Ramanujam R. Kimple A.J. Willard M.D. Naqvi N.I. Siderovski D.P. |
format |
Article |
author |
Bosch D.E. Willard F.S. Ramanujam R. Kimple A.J. Willard M.D. Naqvi N.I. Siderovski D.P. |
author_sort |
Bosch D.E. |
title |
A P-loop mutation in G? subunits prevents transition to the active state: Implications for G-protein signaling in fungal pathogenesis |
title_short |
A P-loop mutation in G? subunits prevents transition to the active state: Implications for G-protein signaling in fungal pathogenesis |
title_full |
A P-loop mutation in G? subunits prevents transition to the active state: Implications for G-protein signaling in fungal pathogenesis |
title_fullStr |
A P-loop mutation in G? subunits prevents transition to the active state: Implications for G-protein signaling in fungal pathogenesis |
title_full_unstemmed |
A P-loop mutation in G? subunits prevents transition to the active state: Implications for G-protein signaling in fungal pathogenesis |
title_sort |
p-loop mutation in g? subunits prevents transition to the active state: implications for g-protein signaling in fungal pathogenesis |
publishDate |
2019 |
url |
https://scholarbank.nus.edu.sg/handle/10635/161643 |
_version_ |
1795374109505355776 |