相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。Retrograde sulfur flow from glucosinolates to cysteine in Arabidopsis thaliana
Ryosuke Sugiyama et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2021)
The potential use of L-sulforaphane for the treatment of chronic inflammatory diseases: A review of the clinical evidence
Nadia Mazarakis et al.
CLINICAL NUTRITION (2020)
Calcium spikes, waves and oscillations in plant development and biotic interactions
Wang Tian et al.
NATURE PLANTS (2020)
Sulforaphane Prevents Hepatic Insulin Resistance by Blocking Serine Palmitoyltransferase 3-Mediated Ceramide Biosynthesis
Wendi Teng et al.
NUTRIENTS (2019)
Simultaneous direct determination of 15 glucosinolates in eight Brassica species by UHPLC-Q-Orbitrap-MSN
In Min Hwang et al.
FOOD CHEMISTRY (2019)
Dynamic variation of glucosinolates and isothiocyanates in broccoli sprouts during hydrolysis
Chaoqun Leng et al.
SCIENTIA HORTICULTURAE (2019)
Broccoli or Sulforaphane: Is It the Source or Dose That Matters?
Yoko Yagishita et al.
MOLECULES (2019)
Slightly Acidic Electrolyzed Water Treatment Enhances the Main Bioactive Phytochemicals Content in Broccoli Sprouts via Changing Metabolism
Lizhen Li et al.
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY (2019)
Isothiocyanate from Broccoli, Sulforaphane, and Its Properties
Alena Vanduchova et al.
JOURNAL OF MEDICINAL FOOD (2019)
Effect of slightly acidic electrolyzed water on bioactive compounds and morphology of broccoli sprouts
Lizhen Li et al.
FOOD RESEARCH INTERNATIONAL (2018)
Localization of the glucosinolate biosynthetic enzymes reveals distinct spatial patterns for the biosynthesis of indole and aliphatic glucosinolates
Sebastian J. Nintemann et al.
PHYSIOLOGIA PLANTARUM (2018)
UVA, UVB Light, and Methyl Jasmonate, Alone or Combined, Redirect the Biosynthesis of Glucosinolates, Phenolics, Carotenoids, and Chlorophylls in Broccoli Sprouts
Melissa Moreira-Rodriguez et al.
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES (2017)
UVA, UVB Light Doses and Harvesting Time Differentially Tailor Glucosinolate and Phenolic Profiles in Broccoli Sprouts
Melissa Moreira-Rodriguez et al.
MOLECULES (2017)
Heat and hypoxia stresses enhance the accumulation of aliphatic glucosinolates and sulforaphane in broccoli sprouts
Liping Guo et al.
EUROPEAN FOOD RESEARCH AND TECHNOLOGY (2016)
FAMA: A Molecular Link between Stomata and Myrosin Cells
Makoto Shirakawa et al.
TRENDS IN PLANT SCIENCE (2016)
Effects of CaCl2 on the metabolism of glucosinolates and the formation of isothiocyanates as well as the antioxidant capacity of broccoli sprouts
Runqiang Yang et al.
JOURNAL OF FUNCTIONAL FOODS (2016)
Metabolomic Assessment Reveals an Elevated Level of Glucosinolate Content in CaCl2 Treated Broccoli Microgreens
Jianghao Sun et al.
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY (2015)
The calcium sensor GhCaM7 promotes cotton fiber elongation by modulating reactive oxygen species (ROS) production
Wenxin Tang et al.
NEW PHYTOLOGIST (2014)
The relationship between antioxidant enzymes activity and mungbean sprouts growth during the germination of mungbean seeds treated by electrolyzed water
Rui Liu et al.
PLANT GROWTH REGULATION (2014)
Novel concepts of broccoli sulforaphanes and disease: induction of phase II antioxidant and detoxification enzymes by enhanced-glucoraphanin broccoli
Don James et al.
NUTRITION REVIEWS (2012)
Glucosinolate structures in evolution
Niels Agerbirk et al.
PHYTOCHEMISTRY (2012)
The Calmodulin-Binding Transcription Factor SIGNAL RESPONSIVE1 is a Novel Regulator of Glucosinolate Metabolism and Herbivory Tolerance in Arabidopsis
K. Laluk et al.
PLANT AND CELL PHYSIOLOGY (2012)
Factors Influencing Glucoraphanin and Sulforaphane Formation in Brassica Plants: A Review
Gu Zhen-xin et al.
JOURNAL OF INTEGRATIVE AGRICULTURE (2012)
Plants as Biofactories: Physiological Role of Reactive Oxygen Species on the Accumulation of Phenolic Antioxidants in Carrot Tissue under Wounding and Hyperoxia Stress
Daniel A. Jacobo-Velazquez et al.
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY (2011)
ROS signaling: the new wave?
Ron Mittler et al.
TRENDS IN PLANT SCIENCE (2011)
Calcium Signals: The Lead Currency of Plant Information Processing
Joerg Kudla et al.
PLANT CELL (2010)
Calcium and Calmodulin-Mediated Regulation of Gene Expression in Plants
Min Chul Kim et al.
MOLECULAR PLANT (2009)
Synergistic activation of the Arabidopsis NADPH oxidase AtrbohD by Ca2+ and phosphorylation
Yoko Ogasawara et al.
JOURNAL OF BIOLOGICAL CHEMISTRY (2008)
The antagonist function of Arabidopsis WRKY53 and ESR/ESP in leaf senescence is modulated by the jasmonic and salicylic acid equilibrium
Ying Miao et al.
PLANT CELL (2007)
Effects of metal ions on myrosinase activity and the formation of sulforaphane in broccoli seed
Hao Liang et al.
JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC (2006)
Arabidopsis IQD1, a novel calmodulin-binding nuclear protein, stimulates glucosinolate accumulation and plant defense
M Levy et al.
PLANT JOURNAL (2005)
Direct analysis of single leaf disks for chemopreventive glucosinolates
QM Wang et al.
PHYTOCHEMICAL ANALYSIS (2002)
Hydrogen peroxide homeostasis: Activation of plant catalase by calcium/calmodulin
T Yang et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2002)
Calcium at the crossroads of signaling
D Sanders et al.
PLANT CELL (2002)
The versatility and universality of calcium signalling
MJ Berridge et al.
NATURE REVIEWS MOLECULAR CELL BIOLOGY (2000)