Your search keyword '"Glucotropaeolin"' showing total 4 results

1. Characterization of glucosinolates in 80 broccoli genotypes and different organs using UHPLC-Triple-TOF-MS method

Author

Honghao Lv, Zhiyuan Fang, Donghui Xu, Yong Wang, Yumei Liu, Limei Yang, Mu Zhuang, Shuning Zheng, Zhansheng Li, and Yangyong Zhang

Subjects

Spectrometry, Mass, Electrospray Ionization, Indoles, Genotype, Glucosinolates, Brassica, 01 natural sciences, Analytical Chemistry, Gluconasturtiin, Glucobrassicin, chemistry.chemical_compound, 0404 agricultural biotechnology, Imidoesters, Oximes, Food science, Chromatography, High Pressure Liquid, Glucoraphanin, 010401 analytical chemistry, Glucotropaeolin, 04 agricultural and veterinary sciences, General Medicine, 040401 food science, 0104 chemical sciences, chemistry, Sulfoxides, Glucosinolate, Time-of-flight mass spectrometry, Food Science

Abstract

We aimed to characterize and quantify glucosinolate compounds and contents in broccoli, and a total of 80 genotypes and eight developmental organs were analyzed with UHPLC-Triple-TOF-MS. The method was validated in terms of performance, and the coefficients of determination (R2) were 0.97 and 0.99 for glucoraphanin and gluconapin, respectively. In 80 genotypes, twelve glucosinolates were found in broccoli florets ranging from 0.467 to 57.156 µmol/g DW, with the highest glucosinolate content being approximately 122-fold higher than the lowest value. The principal component of glucobrassicin, neoglucobrassicin and glucoraphanin explained 60.53% of the total variance. There were positive correlations among hydroxyglucobrassicin, methoxyglucobrassicin, glucobrassicin, glucoerucin, gluconasturtiin, glucoraphanin, and glucotropaeolin (P

Published

2021

2. Pitfalls in the desulphation of glucosinolates in a high-throughput assay

Author

Ruud Verkerk, Matthijs Dekker, Guusje Bonnema, and K. Hennig

Subjects

vegetables, Glucosinolates, Brassica, hplc, High-performance liquid chromatography, Analytical Chemistry, brassica-oleracea, chemistry.chemical_compound, Laboratorium voor Plantenveredeling, Sample preparation, Plant Proteins, VLAG, Glucoraphanin, broccoli, Chromatography, breakdown, Chemistry, food, Leerstoelgroep Productontwerpen en kwaliteitskunde, Glucotropaeolin, General Medicine, ms, Product Design and Quality Management Group, High-Throughput Screening Assays, Plant Breeding, Small range, napus, Sulfatases, Food Science

Abstract

Glucosinolates are phytochemicals with health promoting properties. Determination as desulpho-glucosinolates is widely used and a desulphation in microtiter plates has been applied to reach high throughput. The use of various sulphatase concentrations and volumes throughout literature necessitates the identification of an appropriate desulphation procedure in microtiter plates. High sulphatase concentrations (⩾15 mg/ml) decreased the concentration of the internal standard glucotropaeolin, whereas the other glucosinolates were less affected. Due to the calculation based on the recovery of glucotropaeolin, this leads to an overestimation of GL concentrations after desulphation with high sulphatase concentrations. A glucosidase side-activity, present in the crude sulphatase powder, is likely causing this phenomenon. At lower sulphatase concentrations (1 mg/ml) glucoiberin and glucoraphanin were insufficiently desulphated. Combining these effects results in a small range of applicable sulphatase concentrations. A purified sulphatase preparation resulted in good recoveries for a diversity of samples and is hence recommended for high throughput desulphation in microtiter plates.

Published

2012

3. Optimized extraction, separation and quantification of twelve intact glucosinolates in broccoli leaves

Author

María J. Nozal, Ana M. Ares, José L. Bernal, and José Bernal

Subjects

Glucoraphanin, Spectrometry, Mass, Electrospray Ionization, Chromatography, Myrosinase, Chemistry, Plant Extracts, Electrospray ionization, Extraction (chemistry), Glucosinolates, Analytic Sample Preparation Methods, Glucotropaeolin, General Medicine, Brassica, Analytical Chemistry, Gluconasturtiin, Glucobrassicin, Plant Leaves, chemistry.chemical_compound, Sinigrin, Food Science

Abstract

A new method has been developed and validated to determine twelve intact glucosinolates (glucoiberin, GIB; glucoraphanin, GRA; glucoerucin GER; gluconapin, GNA; glucotropaeolin, GTL; glucobrassicin, GBC; gluconasturtiin, GST; glucoalyssin, ALY; 4-hydroxyglucobrassicin, 4-OH; 4-metoxyglucobrassicin, 4ME; neoglucobrassicin, NEO; sinigrin, SIN) in broccoli leaves using liquid chromatography (LC) coupled to diode array (DAD) and electrospray ionization mass spectrometry (ESI-MS) detection. An extraction procedure has also been proposed and optimized by means of statistical analysis (the Box-Behnken design and analysis of variance); this is based on the deactivation of myrosinase using a microwave and heated water. Low limits of detection and quantification were obtained, ranging from 10 to 72 μg/g with DAD and 0.01 to 0.23 μg/g with ESI-MS, and the resulting recovery values ranged from 87% to 106% in all cases. Finally, glucosinolates were analyzed in broccoli leaf samples from six different cultivars (Ramoso calabrese Parthenon, Marathon, Nubia, Naxos and Viola).

Published

2013

4. On the determination of papaya seed adulteration of black pepper

Author

G.R. Fenwick and C.L. Curl

Subjects

business.industry, Chemistry, Extraction (chemistry), food and beverages, Glucotropaeolin, General Medicine, Contamination, Analytical Chemistry, Biotechnology, chemistry.chemical_compound, Glucosinolate, Pepper, Food science, Gas chromatography, business, Food Science, PAPAYA SEED

Abstract

Determination of the amount of benzyl glucosinolate (glucotropaeolin) in black pepper seed and products affords a sensitive method of determining the degree of adulteration with papaya seed. The glucotropaeolin may be estimated directly using gas chromatography, or indirectly by measuring the glucose which is quantitatively released following enzymic treatment. No attempt has been made to optimise the conditions of the extraction since, as described, the method allows detection of 0·1% papaya seed contamination/adulteration.

Published

1983