Identification of 2,4-Dihydroxy-2,5-dimethyl-3(2H)-thiophenone as a Low-Molecular-Weight Yellow Pigment in Soy Sauce

The color of soy sauce is considered to be mainly attributable to melanoidins formed by the Maillard reaction. However, the chemical structure of melanoidins cannot be clarified, because melanoidins are high-molecular-weight heterogeneous polymers. We isolated a low-molecular-weight pigment from soy sauce and identified 2,4-dihydroxy-2,5-dimethyl-3(2H)-thiophenone as this pigment formed by the Maillard reaction, although its contribution to the total color of soy sauce was very low.     

Identification of a novel blue pigment as a melanoidin intermediate in the D-xylose-glycine reaction system

Some blue pigments were formed in the D-xylose (1 M)-glycine (0.1 M) reaction system. A novel blue pigment, designated as Blue-M2 (blue Maillard intermediate-2), was identified as 5-[1,4-dicarboxymethyl-5-(2,3-dihydroxypropyl)-1,4-dihydropyrrolo[3,2-b]pyrrole-2-ylmethylene]-1,4-dicarboxymethyl-2-{5-[N-carboxymethyl(2,3,4-trihydroxytetrahydrofuran-2-yl)methylamino]-2-hydroxymethyl-4-(1,2,3-trihydroxypropyl)tetrahydrofuran-3-yl}-4,5-dihydropyrrolo-[3,2-b]pyrrole-1-ium. Blue-M2 is presumed to have been generated by the reaction between Blue-M1, which was identified as the major blue pigment in a previous paper (Hayase et al., Biosci. Biotechnol. Biochem., 63, 1512-1514 (1999)), and di-D-xyluloseglycine. Blue pigments are important Maillard reaction intermediates through the formation of melanoidins.     

Effects of Maillard reaction products on the oxidative cleavage and polymerization of protein under ascorbic acid-transition metal system.

This study investigated the effects of Maillard reaction products (MRPs) on the oxidative cleavage and polymerization of BSA (bovine serum albumin) in an aqueous system. In L-ascorbic acid (AsA) and Cu(II) or Fe(III) reaction system, 50-60% of BSA was cleaved under physiological conditions (37 degrees C, pH 7.2). The oxidative cleavage induced by AsA-Cu(II) system was suppressed to the extent of 32-86% by model melanoidins or brown pigments from amino acids and foodstuffs. In the AsA-Fe(III) system, the oxidative cleavage was inhibited to the extent of 45-93% by melanoidins and brown pigments. However, this cleavage was promoted by amino acid Amadori rearrangement products and brown pigment from soy paste. Therefore, MRPs show both suppression and promotion activity on oxidative cleavage of BSA in the system of AsA and a transition metal. The quantity of Amadori rearrangement moiety (ARM) in melanoidins from Lysine and brown pigments molecules from foods was also measured. From these data, it was estimated that the suppression and/or promotion of oxidative cleavage of BSA did not only depend on the quantity of ARM, but also depended on the chemical structure of ARM in melanoidins or brown pigments.     

Inhibiting Effect of Browned Processed Foods on Trypsin

Inhibition of proteases was examined in browned foods including soy pastes, soy sauces, fish sauce, sauces, teas, coffees, and others in association with melanoidin, a Maillard product, which had been found to be a potent inhibitor of trypsin. Most of the foods were effective in restraining trypsin activity based on hydrolysis of N-α-benzoyl-DL-arginine-p-nitroanilide, while being ineffective on chymotrypsin except for black tea and cola. Especially, teas were noted for their strong inhibitory effect on trypsin. The color intensity of the foods in terms of optical density at 400 nm appeared not to correlate with the extent of inhibition except for soy sauces.     

Identification of the blue pigment formed in a D-glucose-glycine reaction system

D-Glucose (0.7 M), glycine (0.3 M), and sodium hydrogencarbonate (0.1 M) were dissolved in aqueous 30% ethanol at pH 8.0 and left at 50 °C for 4 d in a dark room under nitrogen displacement. The resulting blue pigment was isolated and purified from the blue solution by anionic exchange and gel filtration chromatography. This blue pigment, which is designated Blue-G1, was identified as 5-[1,4-bis-carboxymethyl-5-(2,3,4-trihydroxybutyl)-1,4-dihydropyrrolo[3,2-b]pyrrol-2-ylmethylene]-1,4-bis-carboxymethyl-2-(2,3,4-trihydroxybutyl)-4,5-dihydropyrrolo[3,2-b]pyrrol-1-ium. Blue-G1 had two symmetrical pyrrolopyrrole structures with a trihydroxybutyl group. Blue-G1 had a polymerizing activity, suggesting it to be an important Maillard reaction intermediate through the formation of melanoidins.     

Identification and Quantitation of New Glutamic Acid Derivatives in Soy Sauce by UPLC/MS/MS

Glutamic acid is an abundant amino acid that lends a characteristic umami taste to foods. In fermented foods, glutamic acid can be found as a free amino acid formed by proteolysis or as a non‐proteolytic derivative formed by microorganisms. The aim of the present study was to identify different structures of glutamic acid derivatives in a typical fermented protein‐based food product, soy sauce. An acidic fraction was prepared with anion‐exchange solid‐phase extraction (SPE) and analyzed by UPLC/MS/MS and UPLC/TOF‐MS. α‐Glutamyl, γ‐glutamyl, and pyroglutamyl dipeptides, as well as lactoyl amino acids, were identified in the acidic fraction of soy sauce. They were chemically synthesized for confirmation of their occurrence and quantified in the selected reaction monitoring (SRM) mode. Pyroglutamyl dipeptides accounted for 770 mg/kg of soy sauce, followed by lactoyl amino acids (135 mg/kg) and γ‐glutamyl dipeptides (70 mg/kg). In addition, N‐succinoylglutamic acid was identified for the first time in food as a minor compound in soy sauce (5 mg/kg).     

A novel thiamine-derived pigment,pyrizepine, formed by the Maillard reaction

To find a Maillard pigment derived from thiamine, a solution containing glucose and thiamine was heated and analyzed with high-performance liquid chromatography equipped with diode-array detection. As a result, a unique peak showing an absorption maximum at 380 nm was detected. This peak was then isolated from a reaction solution containing glucose, lysine and thiamine, and was identified as 1-(2-methyl-6,9-dihydro-5H-pyrimido[4,5-e][1,4]diazepin-7-yl)ethan-1-one using instrumental analyses. This compound, named pyrizepine, was a novel yellow pigment having a fused ring consisting of pyrimidine and diazepine. Pyrizepine was a major low-molecular-weight pigment in the reaction solution. The structure suggests that pyrizepine is formed by condensation reaction between a degradation product of thiamine and a tetrosone derivative formed from glucose by the Maillard reaction.     

Role of hydroxycinnamates in coffee melanoidin formation

Melanoidins are the high molecular weight brown end products of the Maillard reaction. They are formed during heat processing of foods like coffee, bread, malt, and beef. A chemical definition of these food polymers is still impossible, despite several efforts to determine their structure. In the last years, the interest in research on melanoidins has increased due to their biological activities. Coffee brew is one of the main sources of melanoidins in human diet. Various melanoidin fractions were obtained by applying chromatographic separation techniques or specific isolation procedures, allowing, a partial view on structural features and diversity of coffee brew melanoidins. Different melanoidin populations can be found with respect to total carbohydrate contents and their structural features. In this paper, the recent advances in research on coffee melanoidin structures and formation mechanisms are reviewed. The participation of hydroxycinnamates in melanoidin formation, especially true for coffee melanoidins, is a hypothesis older than three decades, but only recently more consistent data have been obtained for their presence. Although the role of hydroxycinnamates in melanoidin formation is not yet completely understood, it was demonstrated that the interaction between phenolic compounds and melanoidins can be of non-covalent or of covalent nature. The most likely linkage point is through the protein fragments incorporated in the coffee melanoidin during the roasting process, although carbohydrates, such as arabinose, seem to be possible binding sites for the chlorogenic acid derivatives on these brown structures, too.     

Non-enzymic Browning of Soy Sauce

Ion exchange resins have been used to separate soy sauce into three fractions of distinctly different composition: a cation fraction, a neutral fraction and an anion fraction. Almost all of the constituents responsible for browning were recovered in these three fractions.

Storage experiments show that when the three fractions were stored separately, only the cation fraction darkened considerably. When they were combined and stored, the color of the mixture increased at nearly the same rate as that of the original soy sauce. Neutral sugars are important constituents of the neutral fraction with respect to browning. The browning rate of a sugar-amino acid mixture (simulated soy sauce), was about 10% of soy sauce. The effect of the anion fraction (mainly caused by organic acids) and the ashed cation fraction on the over-all browning of soy sauce is calculated to be 1O~12% and 20%, respectively.

The sum of the contribution rate of the anion fraction, the neutral fraction, the amino acids and the ashed cation fraction in the browning of soy sauce was concluded to be approximately 40%. Compounds responcible for residual part of 60% should be considered to exist in the cation fraction. It was suggested that such compounds have strong reducing power and 0₂-uptaking ability.     

Enolization and racemization reactions of glucose and fructose on heating with amino-acid enantiomers and the formation of melanoidins as a result of the Maillard reaction

This study investigated the enolization and racemization reactions of glucose and fructose on heating with amino acid enantiomers and the formation of melanoidins as a result of the Maillard reaction. The study measured reducing sugars and L- and D- amino acids using HPLC as an index for the amount of enolization of the sugars and isomerization of the amino acids. Additionally, the absorption of melanoidins was measured at different wavelengths (420, 450, 470, 490 nm); the UV–Vis spectra and the extinction coefficient were determined for the formation of melanoidins. Melanoidins were, rather arbitrarily, defined by a high-molecular-weight (HMW) if it was above a lower limit of 12.4 kDa, which was the nominal cut-off value in the dialysis system used. A remarkable enolization reaction of the sugars was observed in the course of the Maillard reaction. Especially, in the Fru/D-Asn model system, the degree of sugar enolization was more than in the other model systems. All of the FDAA (1-fluoro-2, 4-dinitrophenyl-5-L-alanine amide) amino acids were separated by TLC. The racemization of the amino acids was higher in the fructose-amino acids systems. Isomer formation was the highest in the Fru/D-Asn system. The L- and D- isomers showed different absorptions in the UV–Vis spectra, although these had similar shapes. The absorption of the melanoidins formed from glucose was higher than that formed from fructose. In particular, the sugar–asparagine system showed different characteristics according to the L- and D-isomers. The differences in the extinction coefficients of the melanoidins was significant (P < 0.05), except for the sugar–lysine system.     

Physiological relevance of dietary melanoidins

Melanoidins are the final products of the Maillard reaction. The main dietary sources of melanoidins are coffee, bread crust, bakery products, black beer and cocoa. Although the chemical structures of melanoidins are widely unknown, data from gravimetric techniques allow to roughly estimate a daily intake in the order of 10 g with a Western diet. Melanoidins contribute to the sensorial properties, modulating texture and flavour of foods. Growing evidence also suggests that melanoidins have health beneficial properties, such as chemopreventive, antioxidant and antimicrobial activities, and the ability to chelate different minerals. In the gastrointestinal tract, melanoidins behave not only as antioxidants, but also as dietary fibre by promoting the growth of bifidobacteria. This array of biological activities suggests the need for analytical techniques to identify the melanoidin structures and to control their formation during thermal food processing.     

The identification of antioxidants in dark soy sauce

Soy sauce is a traditional fermented seasoning in Asian countries, that has high antioxidant activity in vitro and some antioxidant activity in vivo. We attempted to identify the major antioxidants present, using the 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) (ABTS) assay as a guide. 3-Hydroxy-2-methyl-4H-pyran-4-one (maltol) was one of several active compounds found in an ethyl acetate extract of dark soy sauce (DSS) and was present at millimolar concentrations in DSS. However, most of the antioxidant activity was present in colored fractions, two of which (CP1 and CP2) were obtained by gel filtration chromatography. Their structural characteristics based on nuclear magnetic resonance (NMR) and electrospray-ionization time-of-flight mass spectrometry (ESI-TOF-MS) analysis suggest that carbohydrate-containing pigments such as melanoidins are the major contributors to the high antioxidant capacity of DSS.     

Identification of the Blue Pigment Formed in a D-Glucose-Glycine Reaction System

D-Glucose (0.7 M), glycine (0.3 M), and sodium hydrogencarbonate (0.1 M) were dissolved in aqueous 30% ethanol at pH 8.0 and left at 50 °C for 4 d in a dark room under nitrogen displacement. The resulting blue pigment was isolated and purified from the blue solution by anionic exchange and gel filtration chromatography. This blue pigment, which is designated Blue-G1, was identified as 5-[1,4-bis-carboxymethyl-5-(2,3,4-trihydroxybutyl)-1,4-dihydropyrrolo[3,2-b]pyrrol-2-ylmethylene]-1,4-bis-carboxymethyl-2-(2,3,4-trihydroxybutyl)-4,5-dihydropyrrolo[3,2-b]pyrrol-1-ium. Blue-G1 had two symmetrical pyrrolopyrrole structures with a trihydroxybutyl group. Blue-G1 had a polymerizing activity, suggesting it to be an important Maillard reaction intermediate through the formation of melanoidins.     

Melanoidins as major colourant in sugarcane molasses based distillery effluent and its degradation

Melanoidins are natural condensation products of sugar and amino acids produced by non-enzymatic Maillard amino-carbonyl reaction taking place between the amino and carbonyl groups in organic substances. Melanoidins extensively exist in food products, drinks and wastewaters released from distilleries and fermentation industries. Melanoidins are very important from the nutritional, physiological and environmental aspects and due to their structural complexity, dark colour and offensive odor, these pose serious threat to soil and aquatic ecosystem that release of melanoidins cause increased load of recalcitrant organic material to natural water bodies. This then causes the problems, like reduction of sunlight penetration, decreased photosynthetic activity and dissolved oxygen concentration whereas on land, it causes reduction in soil alkalinity and inhibition of seed germination. Further, due to the possibility of complexation reactions of introduced melanoidins with metal ions, they could influence the biogeochemical cycle of many constituents in natural waters. This review presents an overview to dramatic progress to understand the synthesis, chemical structure and degradation pathway of melanoidins as well as microbial strategies for the degradation and decolourisation of melanoidins.     

Inhibiting the color formation by gradient temperature‐elevating Maillard reaction of soybean peptide‐xylose system based on interaction of l‐cysteine and Amadori compounds

Light color and savory flavor enhancer are attractive for consumers and food producers. The effect of addition time of l ‐cysteine on inhibiting color formation was investigated in soybean peptide‐xylose system, and the possible pathway was explored. Once dicarbonyl compounds were formed during the Maillard reaction, the addition of l ‐cysteine had no color‐inhibiting effect; if l ‐cysteine was added immediately after the Amadori compound was formed, the extraordinary color‐inhibiting effect was observed. Therefore, an improved way to inhibit color formation was proposed on the basis of the interaction of l ‐cysteine and Amadori compounds by controlling the addition time of l ‐cysteine through gradient temperature‐elevating Maillard reaction. The system was heated at 80 °C for 60 min to form Amadori compounds, followed by the addition of L‐cysteine, and the temperature was raised to 120 °C and held for 110 min. Compared with traditional products, the lightest color product was found desirable by GC/MS analysis and sensory evaluation. The novel method proposed can be a guide for the industrial preparation of light‐colored products. Copyright © 2012 European Peptide Society and John Wiley & Sons, Ltd.     

Diversity of <Emphasis Type="Italic">Aspergillus oryzae</Emphasis> genotypes (RFLP) isolated from traditional soy sauce production within Malaysia and Southeast Asia

DNA fingerprinting was performed on 64 strains of Aspergillus oryzae and 1 strain of Aspergillus sojae isolated from soy sauce factories within Malaysia and Southeast Asia that use traditional methods in producing “tamari-type” Cantonese soy sauce. PstI digests of total genomic DNA from each isolate were probed using the pAF28 repetitive sequence. Strains of A. oryzae were distributed among 32 genotypes (30 DNA fingerprint groups). Ten genotypes were recorded among 17 A. oryzae isolates from a single soy sauce factory. Genotypes Ao-46 and GTAo-47, represented by 8 and 5 strains, respectively, were isolated from a soy sauce factory in Kuala Lumpur and factories in two Malaysian states. Four strains of GTAo-49, isolated from three soy sauce factories in Malaysia; each produced sclerotia. Two strains were found to be naturally occurring color mutants of NRRL 32623 (GTAo-49) and NRRL 32668 (GTAo-52). Only two fingerprint matches were produced with the 43 DNA fingerprint groups in our database, representing A. oryzae genotypes from Japan, China, and Taiwan. Aspergillus sojae NRRL 32650 produced a fingerprint matching GTAo-9, the only known genotype representing koji strains of A. sojae. No aflatoxin was detected in broth cultures of these koji strains as determined by TLC.     

Food-grade sugar can promote differentiation in melon (Cucumis melo L.) tissue culture

The objective of the present study was to investigate the origin of discrepancy between experimental results in in vitro culture of Turkish melon (Cucumis melo L.) cultivars, conducted by the same individual using the same protocol and same seed batches in two different laboratories. The difference in the sucrose source was found to be the major reason for the deviation in results between the two laboratories. The percentage of regenerating explants and the number of bud-like protuberances and/or shoots were significantly greater when a food-grade Turkish sucrose was used in the medium compared with analytical-grade sucrose. Media formulated with the food-grade sucrose regenerated 37 and 67 % more explants and bud-like protuberances and/or shoots per explant, respectively, than media containing analytical-grade sucrose. No meaningful differences were found in added elements or anions between the sucrose sources or by liquid chromatography/mass spectroscopy. The only significant chemical difference observed between the sucrose samples was the presence of melanoidins (Maillard reaction products) in the food-grade sucrose. The melanoidins were of high molecular weight (>3,000 Da determined by ultrafiltration), with characteristic ultraviolet?Cvisible spectra and in vitro antioxidant activity. Melanoidin-containing sucrose can be differentiated by color and spectroscopy.     

Antihypertensive and natriuretic effects of less-sodium soy sauce containing gamma-aminobutyric acid in spontaneously hypertensive rats

We investigated the mechanism of the antihypertensive effect of less-sodium soy sauce containing gamma-aminobutyric acid (GABA) in spontaneously hypertensive rats (SHRs). When SHRs were given a diet with less-sodium soy sauce containing GABA (GABA-rich soy sauce group) for 6 weeks, the systolic blood pressure decreased as compared with that in rats fed diets with less-sodium soy sauce or a solution of salt. Renal sympathetic nerve activity (RSNA) and positive Na balance were reduced, and the urinary Na excretion tended to increase in the GABA-rich soy sauce group. Vascular hypertrophy of the thoracic aorta and the coronary and renal interlobular arteries tended to reduce in the GABA-rich soy sauce group. These results suggest that inhibition of Na retention by natriuresis, as a result of inhibition of RSNA by the GABA in the soy sauce contributed to the antihypertensive effect of GABA in the SHRs. Intake of less-sodium soy sauce containing GABA might help to reduce overall cardiovascular risk.     

Use of glutaminase for soy sauce made by Koji or a preparation of proteases from Aspergillus oryzae

Although a small amount of glutamic acid was released in the hydrolysis of protein or soy sauce made by a preparation of proteases containing little glutaminase, a large amount of glutamic acid was formed in such hydrolyzate or soy sauce made by the addition of mycelia of black Aspergilli or glutaminase from Cryptococcus albidus. The former effect was caused mainly by glutaminase produced by black Aspergilli. The former crude enzyme showed an optimum pH of 5.0, broad pH stability and salt tolerance. The addition of glutaminase from C. albidus ATCC 20293 in soy sauce manufacture using a preparation of proteases resulted in a 42% increase in glutamic acid per total nitrogen content.     

Industrial production of soy sauce

Summary Soy sauce is a seasoning agent with a salty taste and a distinct aroma suggestive of meat extracts. The sauce is made by fermentation of a combination of soy beans and wheat in water and salt. This paper covers the method for production of fermented soy sauce, and that for acid-hydrolysis of defatted soy bean proteins. The microorganisms involved in soy sauce production, and biochemical and chemical changes in soy bean and wheat during fermentation influence greatly the sensory attributes and quality of soy sauce. Recent progress in industrialization of soy sauce manufacture is discussed.This paper is dedicated to Professor Herman Jan Phaff in honor of his 50 years of active research which still continues.