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。Sulforaphane-enriched extracts from glucoraphanin-rich broccoli exert antimicrobial activity against gut pathogens in vitro and innovative cooking methods increase in vivo intestinal delivery of sulforaphane
Salah Abukhabta et al.
EUROPEAN JOURNAL OF NUTRITION (2021)
Characterization of glucosinolates in 80 broccoli genotypes and different organs using UHPLC-Triple-TOF-MS method
Zhansheng Li et al.
FOOD CHEMISTRY (2021)
Combined Broccoli Sprouts and Green Tea Polyphenols Contribute to the Prevention of Estrogen Receptor-Negative Mammary Cancer via Cell Cycle Arrest and Inducing Apoptosis in HER2/neu Mice
Shizhao Li et al.
JOURNAL OF NUTRITION (2021)
A Metabolic Pathway for Activation of Dietary Glucosinolates by a Human Gut Symbiont
Catherine S. Liou et al.
CELL (2020)
Microwave cooking increases sulforaphane level in broccoli
Lu Yingjian et al.
FOOD SCIENCE & NUTRITION (2020)
Bioactive Compounds and Bioactivities of Brassica oleracea L. var. Italica Sprouts and Microgreens: An Updated Overview from a Nutraceutical Perspective
Thanh Ninh Le et al.
PLANTS-BASEL (2020)
Mild heat combined with lactic acid fermentation: a novel approach for enhancing sulforaphane yield in broccoli puree
Yan Xue Cai et al.
FOOD & FUNCTION (2020)
Sorting out the Value of Cruciferous Sprouts as Sources of Bioactive Compounds for Nutrition and Health
Angel Abellan et al.
NUTRIENTS (2019)
Sulforaphane-role in aging and neurodegeneration
Roberto Santin-Marquez et al.
GEROSCIENCE (2019)
Fermentation-based biotransformation of glucosinolates, phenolics and sugars in retorted broccoli puree by lactic acid bacteria
Jian-Hui Ye et al.
FOOD CHEMISTRY (2019)
Enhanced production of sulforaphane by exogenous glucoraphanin hydrolysis catalyzed by myrosinase extracted from Chinese flowering cabbage (Brassica rapa var. parachinensis)
Supakarn Sangkret et al.
SCIENTIFIC REPORTS (2019)
Influence of Cooking Methods on Glucosinolates and Isothiocyanates Content in Novel Cruciferous Foods
Nieves Baenas et al.
FOODS (2019)
Dynamic variation of glucosinolates and isothiocyanates in broccoli sprouts during hydrolysis
Chaoqun Leng et al.
SCIENTIA HORTICULTURAE (2019)
Sulforaphane Induces miR135b-5p and Its Target Gene, RASAL2, thereby Inhibiting the Progression of Pancreatic Cancer
Libo Yin et al.
MOLECULAR THERAPY-ONCOLYTICS (2019)
Main Health-Promoting Compounds Response to Long-Term Freezer Storage and Different Thawing Methods in Frozen Broccoli Florets
Huiying Miao et al.
FOODS (2019)
Assessment of freeze damage in fruits and vegetables
Piyush Kumar Jha et al.
FOOD RESEARCH INTERNATIONAL (2019)
Leaching and degradation kinetics of glucosinolates during boiling of Brassica oleracea vegetables and the formation of their breakdown products
Franziska S. Hanschen et al.
FOOD CHEMISTRY (2018)
Hydrolysis before Stir-Frying Increases the Isothiocyanate Content of Broccoli
Yuanfeng Wu et al.
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY (2018)
Isothiocyanates from Brassica VegetablesEffects of Processing, Cooking, Mastication, and Digestion
Teresa Oliviero et al.
MOLECULAR NUTRITION & FOOD RESEARCH (2018)
Processing effects on antioxidant, glucosinolate, and sulforaphane contents in broccoli and red cabbage
Jessica Tabart et al.
EUROPEAN FOOD RESEARCH AND TECHNOLOGY (2018)
The Brassica-derived phytochemical indolo[3,2-b]carbazole protects against oxidative DNA damage by aryl hydrocarbon receptor activation
Dagmar Faust et al.
ARCHIVES OF TOXICOLOGY (2017)
Influence of Different Cooking Methods on the Concentration of Glucosinolates and Vitamin C in Broccoli
Ana Soares et al.
FOOD AND BIOPROCESS TECHNOLOGY (2017)
Impact of fermentation conditions on the quality and sensory properties of a probiotic cupuassu (Theobroma grandiflorum) beverage
Ana Lucia Fernandes Pereira et al.
FOOD RESEARCH INTERNATIONAL (2017)
Enhancement Of Glucosinolate and Isothiocyanate Profiles in Brassicaceae Crops: Addressing Challenges in Breeding for Cultivation, Storage, and Consumer-Related Traits
Luke Bell et al.
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY (2017)
High-Pressure Processing of Broccoli Sprouts: Influence on Bioactivation of Glucosinolates to Isothiocyanates
Anna Westphal et al.
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY (2017)
Stir-Frying of Chinese Cabbage and Pakchoi Retains Health-Promoting Glucosinolates
Probo Y. Nugrahedi et al.
PLANT FOODS FOR HUMAN NUTRITION (2017)
Rapid discrimination of strain-dependent fermentation characteristics among Lactobacillus strains by NMR-based metabolomics of fermented vegetable juice
Satoru Tomita et al.
PLOS ONE (2017)
Sulforaphane reduces hepatic glucose production and improves glucose control in patients with type 2 diabetes
Annika S. Axelsson et al.
SCIENCE TRANSLATIONAL MEDICINE (2017)
Effects of industrial pre-freezing processing and freezing handling on glucosinolates and antioxidant attributes in broccoli florets
Congxi Cai et al.
FOOD CHEMISTRY (2016)
Influence of fermentation on glucosinolates and glucobrassicin degradation products in sauerkraut
Kalpana Palani et al.
FOOD CHEMISTRY (2016)
Quality of cabbage during long term steaming; phytochemical, texture and colour evaluation
P. Y. Nugrahedi et al.
LWT-FOOD SCIENCE AND TECHNOLOGY (2016)
Effect of cooking on the contents of glucosinolates and their degradation products in selected Brassica vegetables
Joanna Kapusta-Duch et al.
JOURNAL OF FUNCTIONAL FOODS (2016)
Impact of the industrial freezing process on selected vegetables -Part II. Colour and bioactive compounds
Teresa Mazzeo et al.
FOOD RESEARCH INTERNATIONAL (2015)
The Effects of Broccoli Sprout Extract Containing Sulforaphane on Lipid Peroxidation and Helicobacter pylori Infection in the Gastric Mucosa
Young Woon Chang et al.
GUT AND LIVER (2015)
Boiled Brussels sprouts: A rich source of glucosinolates and the corresponding nitriles
Ewa Ciska et al.
JOURNAL OF FUNCTIONAL FOODS (2015)
A Mechanistic Perspective on Process-Induced Changes in Glucosinolate Content in Brassica Vegetables: A Review
Probo Y. Nugrahedi et al.
CRITICAL REVIEWS IN FOOD SCIENCE AND NUTRITION (2015)
The Effects of Conventional and Non-conventional Processing on Glucosinolates and Its Derived Forms, Isothiocyanates: Extraction, Degradation, and Applications
Qian Deng et al.
FOOD ENGINEERING REVIEWS (2015)
Domestic cooking methods affect the nutritional quality of red cabbage
Feng Xu et al.
FOOD CHEMISTRY (2014)
Optimization of a blanching step to maximize sulforaphane synthesis in broccoli florets
Carmen Perez et al.
FOOD CHEMISTRY (2014)
The effect of cooking on the phytochemical content of vegetables
Mariantonella Palermo et al.
JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE (2014)
Effect of different cooking methods on bioactive compounds in vegetarian, broccoli-based bars
Hassan Barakat et al.
JOURNAL OF FUNCTIONAL FOODS (2014)
The potential to intensify sulforaphane formation in cooked broccoli (Brassica oleracea var. italica) using mustard seeds (Sinapis alba)
Sameer Khalil Ghawi et al.
FOOD CHEMISTRY (2013)
Effects of various heating methods on glucosinolate, carotenoid and tocopherol concentrations in broccoli
Eun-Sun Hwang et al.
INTERNATIONAL JOURNAL OF FOOD SCIENCES AND NUTRITION (2013)
Modifying the Processing and Handling of Frozen Broccoli for Increased Sulforaphane Formation
Edward B. Dosz et al.
JOURNAL OF FOOD SCIENCE (2013)
Impact of Thermal Processing on Sulforaphane Yield from Broccoli (Brassica oleracea L. ssp italica)
Grace C. Wang et al.
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY (2012)
Influence of fermentation conditions of Brassica oleracea L. var. capitata on the volatile glucosinolate hydrolysis compounds of sauerkrauts
E. Penas et al.
LWT-FOOD SCIENCE AND TECHNOLOGY (2012)
Effect of lactic acid fermentation on antioxidant, texture, color and sensory properties of red and green smoothies
Raffaella Di Cagno et al.
FOOD MICROBIOLOGY (2011)
Cooking method significantly effects glucosinolate content and sulforaphane production in broccoli florets
R. B. Jones et al.
FOOD CHEMISTRY (2010)
Cooking methods of Brassica rapa affect the preservation of glucosinolates, phenolics and vitamin C
Marta Francisco et al.
FOOD RESEARCH INTERNATIONAL (2010)
Effect of Different Cooking Methods on Color, Phytochemical Concentration, and Antioxidant Capacity of Raw and Frozen Brassica Vegetables
Nicoletta Pellegrini et al.
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY (2010)
Influence of Fermentation Conditions on Glucosinolates, Ascorbigen, and Ascorbic Acid Content in White Cabbage (Brassica oleracea var. capitata cv. Taler) Cultivated in Different Seasons
C. Martinez-Villaluenga et al.
JOURNAL OF FOOD SCIENCE (2009)
Effects of different cooking methods on health-promoting compounds of broccoli
Gao-feng Yuan et al.
JOURNAL OF ZHEJIANG UNIVERSITY-SCIENCE B (2009)
Effect of thermal treatment on glucosinolates and antioxidant-related parameters in red cabbage (Brassica oleracea L. ssp capitata f. rubra)
Jon Volden et al.
FOOD CHEMISTRY (2008)
Influence of blanching and freezing broccoli (Brassica oleracea var. italica) prior to storage and cooking on glucosinolate concentrations and myrosinase activity
Vanessa Rungapamestry et al.
EUROPEAN FOOD RESEARCH AND TECHNOLOGY (2008)
Effects of stir-fry cooking with different edible oils on the phytochemical composition of broccoli
Diego A. Moreno et al.
JOURNAL OF FOOD SCIENCE (2007)
Effects of some technological processes on glucosinolate contents in cruciferous vegetables
Ewa Cieslik et al.
FOOD CHEMISTRY (2007)
Behavior of glucosinolates in pickling cruciferous vegetables
Chise Suzuki et al.
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY (2006)
Changes in glucosinolate concentrations, myrosinase activity, and production of metabolites of glucosinolates in cabbage (Brassica oleracea Var. capitata) cooked for different durations
Vanessa Rungapamestry et al.
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY (2006)
Glucosinolate hydrolysis products from various plant sources: pH effects, isolation, and purification
SF Vaughn et al.
INDUSTRIAL CROPS AND PRODUCTS (2005)
Glucosinolates and vitamin C content in edible parts of broccoli florets after domestic cooking
F Vallejo et al.
EUROPEAN FOOD RESEARCH AND TECHNOLOGY (2002)
分享论文
