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Research on the GST gene family in Salix lindleyana reveals Trp162 and Pro202 as key amino acids controlling the release rate of GS-X
by
Yang, Ye-Bo
, Qu, Chang
, Xue, Jing
, Wang, Shi-Yi
, Wu, Zhao-Qun
, Wang, Yu-Wen
, Zhang, Xiu-Xing
, Yang, Hai-Ling
, Xu, Nan
in
Adaptation (Biology)
/ Agriculture
/ Amino Acid Sequence
/ Amino acids
/ Binding sites
/ Biomedical and Life Sciences
/ Botanical research
/ Catalysis
/ Crystal structure
/ Efficient catalytic mechanism
/ Enzymatic activity
/ Enzyme activity
/ Enzyme kinetics
/ Enzymes
/ Evolution
/ evolutionary adaptation
/ family
/ Gene expression
/ Genes
/ Genetic aspects
/ Genomes
/ genomics
/ Glutathione
/ Glutathione transferase
/ Glutathione Transferase - chemistry
/ Glutathione Transferase - genetics
/ Glutathione Transferase - metabolism
/ Homology
/ Hydrogen bonds
/ Hydrophobicity
/ Life Sciences
/ Metabolites
/ Molecular docking
/ Molecular Docking Simulation
/ Multigene Family
/ Mutation
/ Phylogenetics
/ Phylogeny
/ Physiological aspects
/ Plant Proteins - chemistry
/ Plant Proteins - genetics
/ Plant Proteins - metabolism
/ Plant reproductive systems: genetics and evolution
/ Plant resistance
/ Plant Sciences
/ Positive selection
/ Positive selection gene
/ Proline - genetics
/ Proline - metabolism
/ Proteins
/ Regulation
/ Salix
/ Salix - enzymology
/ Salix - genetics
/ Salix - metabolism
/ Salix lindleyana
/ selection pressure
/ Site-directed mutation
/ Software
/ Structural analysis
/ Structure-function relationships
/ subfamily
/ Tree Biology
/ Tryptophan - genetics
/ Tryptophan - metabolism
/ Willow
/ Willows
2025
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Research on the GST gene family in Salix lindleyana reveals Trp162 and Pro202 as key amino acids controlling the release rate of GS-X
by
Yang, Ye-Bo
, Qu, Chang
, Xue, Jing
, Wang, Shi-Yi
, Wu, Zhao-Qun
, Wang, Yu-Wen
, Zhang, Xiu-Xing
, Yang, Hai-Ling
, Xu, Nan
in
Adaptation (Biology)
/ Agriculture
/ Amino Acid Sequence
/ Amino acids
/ Binding sites
/ Biomedical and Life Sciences
/ Botanical research
/ Catalysis
/ Crystal structure
/ Efficient catalytic mechanism
/ Enzymatic activity
/ Enzyme activity
/ Enzyme kinetics
/ Enzymes
/ Evolution
/ evolutionary adaptation
/ family
/ Gene expression
/ Genes
/ Genetic aspects
/ Genomes
/ genomics
/ Glutathione
/ Glutathione transferase
/ Glutathione Transferase - chemistry
/ Glutathione Transferase - genetics
/ Glutathione Transferase - metabolism
/ Homology
/ Hydrogen bonds
/ Hydrophobicity
/ Life Sciences
/ Metabolites
/ Molecular docking
/ Molecular Docking Simulation
/ Multigene Family
/ Mutation
/ Phylogenetics
/ Phylogeny
/ Physiological aspects
/ Plant Proteins - chemistry
/ Plant Proteins - genetics
/ Plant Proteins - metabolism
/ Plant reproductive systems: genetics and evolution
/ Plant resistance
/ Plant Sciences
/ Positive selection
/ Positive selection gene
/ Proline - genetics
/ Proline - metabolism
/ Proteins
/ Regulation
/ Salix
/ Salix - enzymology
/ Salix - genetics
/ Salix - metabolism
/ Salix lindleyana
/ selection pressure
/ Site-directed mutation
/ Software
/ Structural analysis
/ Structure-function relationships
/ subfamily
/ Tree Biology
/ Tryptophan - genetics
/ Tryptophan - metabolism
/ Willow
/ Willows
2025
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Research on the GST gene family in Salix lindleyana reveals Trp162 and Pro202 as key amino acids controlling the release rate of GS-X
by
Yang, Ye-Bo
, Qu, Chang
, Xue, Jing
, Wang, Shi-Yi
, Wu, Zhao-Qun
, Wang, Yu-Wen
, Zhang, Xiu-Xing
, Yang, Hai-Ling
, Xu, Nan
in
Adaptation (Biology)
/ Agriculture
/ Amino Acid Sequence
/ Amino acids
/ Binding sites
/ Biomedical and Life Sciences
/ Botanical research
/ Catalysis
/ Crystal structure
/ Efficient catalytic mechanism
/ Enzymatic activity
/ Enzyme activity
/ Enzyme kinetics
/ Enzymes
/ Evolution
/ evolutionary adaptation
/ family
/ Gene expression
/ Genes
/ Genetic aspects
/ Genomes
/ genomics
/ Glutathione
/ Glutathione transferase
/ Glutathione Transferase - chemistry
/ Glutathione Transferase - genetics
/ Glutathione Transferase - metabolism
/ Homology
/ Hydrogen bonds
/ Hydrophobicity
/ Life Sciences
/ Metabolites
/ Molecular docking
/ Molecular Docking Simulation
/ Multigene Family
/ Mutation
/ Phylogenetics
/ Phylogeny
/ Physiological aspects
/ Plant Proteins - chemistry
/ Plant Proteins - genetics
/ Plant Proteins - metabolism
/ Plant reproductive systems: genetics and evolution
/ Plant resistance
/ Plant Sciences
/ Positive selection
/ Positive selection gene
/ Proline - genetics
/ Proline - metabolism
/ Proteins
/ Regulation
/ Salix
/ Salix - enzymology
/ Salix - genetics
/ Salix - metabolism
/ Salix lindleyana
/ selection pressure
/ Site-directed mutation
/ Software
/ Structural analysis
/ Structure-function relationships
/ subfamily
/ Tree Biology
/ Tryptophan - genetics
/ Tryptophan - metabolism
/ Willow
/ Willows
2025
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Research on the GST gene family in Salix lindleyana reveals Trp162 and Pro202 as key amino acids controlling the release rate of GS-X
Journal Article
Research on the GST gene family in Salix lindleyana reveals Trp162 and Pro202 as key amino acids controlling the release rate of GS-X
2025
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Overview
The adaptive evolution of the glutathione S-transferase (GST) gene family in
Salix lindleyana
provides insights into the relationship between enzyme structure and function. In this study, 37 genes encoding the GST protein were cloned from
S. lindleyana
with no genomic data available, and their expression levels and enzyme activity were determined
in vitro
. The 22 genes encoding the Tau GST subfamily were divided into Clades A and B, with Clade A subjected to more relaxed selection pressure than Clade B. Clade A was split into two smaller branches, Clades a and b. Three genes under positive selection from Clade a were chosen for 36 site-directed mutations, with Trp162 and Pro202 crucially affecting variations in GST enzyme activity. Crystal structure analysis of SliGSTU7 complexed with GSH revealed that the Trp162 residue was located at the bottom of the hydrophobic cavity. Homology modeling and molecular docking revealed that the W162G/P202A mutation in SliGSTU7 significantly reduced the neighboring effect during the formation of GS-DNB. A study of the GST gene family of
S. lindleyana
identified Trp162 and Pro202 as key amino acids that regulate the release rate of GS-X.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject
/ Biomedical and Life Sciences
/ Efficient catalytic mechanism
/ Enzymes
/ family
/ Genes
/ Genomes
/ genomics
/ Glutathione Transferase - chemistry
/ Glutathione Transferase - genetics
/ Glutathione Transferase - metabolism
/ Homology
/ Molecular Docking Simulation
/ Mutation
/ Plant reproductive systems: genetics and evolution
/ Proteins
/ Salix
/ Software
/ Structure-function relationships
/ Willow
/ Willows
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