Abstract
It has been established that protein amino acids are involved in garlic greening by reacting with thiosulfinates to form pigment precursors (PP), a class of 2-(1H-pyrrolyl) carboxylic acids. This opens an interesting question of whether specific sulfur-containing non-protein amino acids naturally occurring in garlic such as derivates of cysteine and their corresponding sulfoxides also play a role in garlic greening through the same way. To answer this question, four new sulfur-containing model compounds having a 2-(1H-pyrrolyl) carboxylic acid moiety were synthesized by reacting four non-protein amino acids with 2,5-dimethoxytetrathydrofuran, respectively, to study their effects on garlic greening, the structures of which are similar to that of a previously proposed pigment precursor for garlic greening. The puree of freshly harvested garlic bulbs turned green after being soaked in solutions of P-methyl, P-allyl and P-propyl, and with both increasing concentrations and incubation time, the green color of the puree became deeper. These results provide evidences that the sulfur-containing non-protein amino acids likewise participate in garlic greening by a similar pathway to their analogues, protein amino acids. Additionally, the three compounds exhibited a good relationship between structure and activity of garlic greening, namely, the larger the size of the R group, the larger the contribution. In contrast, P-methyl-O, P-methyl’s sulfoxide cannot turn the puree of freshly harvested garlic bulbs green within the 13 days time frame of the experiment under the same conditions.
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This work was supported by the Chinese Universities Scientific Fund (2009-3-10), and China High-Tech (863) project (2007AA10Z333).
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Yang, H., Zhang, J., Bai, Y. et al. Synthesis and characterization of novel sulfur-containing 2-(1H-pyrrolyl) carboxylic acids and their effects on garlic greening. Eur Food Res Technol 231, 555–561 (2010). https://doi.org/10.1007/s00217-010-1306-7
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DOI: https://doi.org/10.1007/s00217-010-1306-7