Stress-Inducible Galactinol Synthase of Chickpea (CaGolS) is Implicated in Heat and Oxidative Stress Tolerance Through Reducing Stress-Induced Excessive Reactive Oxygen Species Accumulation
出版年份 2017 全文链接
标题
Stress-Inducible Galactinol Synthase of Chickpea (CaGolS) is Implicated in Heat and Oxidative Stress Tolerance Through Reducing Stress-Induced Excessive Reactive Oxygen Species Accumulation
作者
关键词
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出版物
PLANT AND CELL PHYSIOLOGY
Volume 59, Issue 1, Pages 155-166
出版商
Oxford University Press (OUP)
发表日期
2017-11-04
DOI
10.1093/pcp/pcx170
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注意:仅列出部分参考文献,下载原文获取全部文献信息。- Galactinol synthase enzyme activity influences raffinose family oligosaccharides (RFO) accumulation in developing chickpea (Cicer arietinum L.) seeds
- (2016) Manu P. Gangola et al. PHYTOCHEMISTRY
- Differential expression of two galactinol synthase isoforms LcGolS1 and LcGolS2 in developing lentil ( Lens culinaris Medik. cv CDC Redberry) seeds
- (2016) Udhaya Kannan et al. PLANT PHYSIOLOGY AND BIOCHEMISTRY
- Galactinol as marker for seed longevity
- (2016) Deborah de Souza Vidigal et al. PLANT SCIENCE
- Differentially expressed galactinol synthase(s) in chickpea are implicated in seed vigor and longevity by limiting the age induced ROS accumulation
- (2016) Prafull Salvi et al. Scientific Reports
- Galactinol synthase transcriptional profile in two genotypes of Coffea canephora with contrasting tolerance to drought
- (2015) Tiago Benedito Dos Santos et al. GENETICS AND MOLECULAR BIOLOGY
- The acquisition of desiccation tolerance in developing Vicia hirsuta seeds coincides with an increase in galactinol synthase expression and soluble α-d-galactosides accumulation
- (2015) Ewa Gojło et al. JOURNAL OF PLANT PHYSIOLOGY
- ZmGOLS2, a target of transcription factor ZmDREB2A, offers similar protection against abiotic stress as ZmDREB2A
- (2015) Lei Gu et al. PLANT MOLECULAR BIOLOGY
- Overexpression of a Common Wheat Gene GALACTINOL SYNTHASE3 Enhances Tolerance to Zinc in Arabidopsis and Rice Through the Modulation of Reactive Oxygen Species Production
- (2015) Yuange Wang et al. PLANT MOLECULAR BIOLOGY REPORTER
- S-Nitrosoglutathione Reductase-Modulated Redox Signaling Controls Sodic Alkaline Stress Responses in Solanum lycopersicum L.
- (2015) Biao Gong et al. PLANT AND CELL PHYSIOLOGY
- Gas chromatography mass spectrometry based metabolic profiling reveals biomarkers involved in rice-gall midge interactions
- (2014) Ruchi Agarrwal et al. Journal of Integrative Plant Biology
- Dehydration induces expression of GALACTINOL SYNTHASE and RAFFINOSE SYNTHASE in seedlings of pea (Pisum sativum L.)
- (2014) Lesław B. Lahuta et al. JOURNAL OF PLANT PHYSIOLOGY
- Genotype and Growing Environment Interaction Shows a Positive Correlation between Substrates of Raffinose Family Oligosaccharides (RFO) Biosynthesis and Their Accumulation in Chickpea (Cicer arietinum L.) Seeds
- (2013) Manu P. Gangola et al. JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY
- Differentially expressed myo-inositol monophosphatase gene (CaIMP) in chickpea (Cicer arietinum L.) encodes a lithium-sensitive phosphatase enzyme with broad substrate specificity and improves seed germination and seedling growth under abiotic stresses
- (2013) Saurabh C. Saxena et al. JOURNAL OF EXPERIMENTAL BOTANY
- Manipulation of arginase expression modulates abiotic stress tolerance in Arabidopsis: effect on arginine metabolism and ROS accumulation
- (2013) Haitao Shi et al. JOURNAL OF EXPERIMENTAL BOTANY
- Physiological aspects of raffinose family oligosaccharides in plants: protection against abiotic stress
- (2013) A. I. ElSayed et al. PLANT BIOLOGY
- Heat stress induction ofmiR398triggers a regulatory loop that is critical for thermotolerance in Arabidopsis
- (2013) Qingmei Guan et al. PLANT JOURNAL
- PROTEIN L-ISOASPARTYL METHYLTRANSFERASE2 Is Differentially Expressed in Chickpea and Enhances Seed Vigor and Longevity by Reducing Abnormal Isoaspartyl Accumulation Predominantly in Seed Nuclear Proteins
- (2013) P. Verma et al. PLANT PHYSIOLOGY
- Overexpression of TsGOLS2, a galactinol synthase, in Arabidopsis thaliana enhances tolerance to high salinity and osmotic stresses
- (2013) Zhibin Sun et al. PLANT PHYSIOLOGY AND BIOCHEMISTRY
- A cold responsive galactinol synthase gene fromMedicago falcata(MfGolS1) is induced bymyo-inositol and confers multiple tolerances to abiotic stresses
- (2012) Chunliu Zhuo et al. PHYSIOLOGIA PLANTARUM
- VvGOLS1 and VvHsfA2 are Involved in the Heat Stress Responses in Grapevine Berries
- (2012) Jérémy Pillet et al. PLANT AND CELL PHYSIOLOGY
- Isolation and characterization of galactinol synthases from hybrid poplar
- (2011) F. Unda et al. JOURNAL OF EXPERIMENTAL BOTANY
- Molecular Cloning and Characterization of GhGolS1, a Novel Gene Encoding Galactinol Synthase from Cotton (Gossypium hirsutum)
- (2011) Tao Zhou et al. PLANT MOLECULAR BIOLOGY REPORTER
- Expression of three galactinol synthase isoforms in Coffea arabica L. and accumulation of raffinose and stachyose in response to abiotic stresses
- (2011) Tiago B. dos Santos et al. PLANT PHYSIOLOGY AND BIOCHEMISTRY
- Myo-inositol and beyond – Emerging networks under stress
- (2011) Ravi Valluru et al. PLANT SCIENCE
- Analysis of the Regulation of Target Genes by anArabidopsisHeat Shock Transcription Factor, HsfA2
- (2009) Ayako NISHIZAWA-YOKOI et al. BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY
- Galactinol Is a Signaling Component of the Induced Systemic Resistance Caused byPseudomonas chlororaphisO6 Root Colonization
- (2008) Mi Seong Kim et al. MOLECULAR PLANT-MICROBE INTERACTIONS
- Two divergent genes encoding L-myo-inositol 1-phosphate synthase1 (CaMIPS1) and 2 (CaMIPS2) are differentially expressed in chickpea
- (2008) HARMEET KAUR et al. PLANT CELL AND ENVIRONMENT
- Galactinol and Raffinose Constitute a Novel Function to Protect Plants from Oxidative Damage
- (2008) A. Nishizawa et al. PLANT PHYSIOLOGY
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