Journal
FOOD CHEMISTRY
Volume 383, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.foodchem.2022.132544
Keywords
(+)-S-Alk(en)yl-L-cysteine sulfoxides; Cystine lyase; Dimethyltrisulfide; Thiosulfinates; S-Methyl methanethiosulfinate; Brassica; Proteome; Volatile Organosulfur Compound
Funding
- Leibniz Association [J16/2017]
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This study investigated the accumulation and formation of sulfur-containing compounds in Brassica vegetables. The results showed that SMCSO was the main sulfur compound, and it degraded to other compounds upon heating. The SMCSO content was similar in white and red cabbages. Proteome profiling revealed a correlation between the recovery of sulfur compounds and the abundance of two cystine lyase isoforms.
Besides glucosinolates, Brassica vegetables accumulate sulfur-containing (+)-S-methyl-L-cysteine sulfoxide (SMCSO, methiin), mainly known from Allium vegetables. Such (+)-S-alk(en)yl-L-cysteine sulfoxides can degrade to volatile organosulfur compounds (VOSCs), which have been linked to health beneficial effects. In the present study, the accumulation of SMCSO and the formation of VOSCs was investigated in Brassica oleracea vegetables. SMCSO content of commercially available white and red cabbages was monitored over a three-month period and linked with the formation of VOSCs. S-Methyl methanethiosulfinate was the main VOSC released from SMCSO. Upon heating, it degraded to dimethyltrisulfide and dimethyldisulfide, which were less abundant in fresh homogenates. SMCSO made up approximately 1% of the dry matter of cabbages and the overall contents were similar in white and red cabbages (3.2-10.2 and 3.9-10.3 mu mol/g fresh weight, respectively). Using proteome profiling it was shown that recovery of VOSCs correlated with abundance of two isoforms of cystine lyase.
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