Formation scheme and some properties of a thiamine-derived pigment, pyrizepine, formed through the Maillard reaction.

Recently, a yellow Maillard pigment named pyrizepine was identified from a heated solution containing thiamine and glucose. Here, we examined the formation scheme of this pigment and some biological properties. The mass spectrometry and nuclear magnetic resonance data of pyrizepine prepared from [6-13C] glucose showed that the carbon at 6-position of glucose was inserted at 2 different positions of pyrizepine. 5-(Aminomethyl)-2-methylpyridin-4-amine (AMPA), a degradation product of thiamine, was detected in the reaction solution. The pigment also formed in the solution containing AMPA in place of thiamine. These results showed that pyrizepine formed from AMPA and C4 fragments derived from glucose. Pyrizepine showed antioxidative activities in the superoxide dismutase, 2,2-diphenyl-1-picrylhydrazyl, and H-ORAC assays. The pigment did not show mutagenicity with the Ames test. A trace amount of the pigment was detected in a pan-fried ground pork sample added glucose using liquid chromatography-tandem mass spectrometry.

Comparative Analysis of the Extradiol Ring-Cleavage Dioxygenase LigB from Arabidopsis and 3,4-Dihydroxyphenylalanine Dioxygenase from Betalain-Producing Plants.

Diverse arrays of naturally occurring compounds in plants are synthesized by specialized metabolic enzymes, many of which are distributed taxonomically. Although anthocyanin pigments are widely distributed and ubiquitous, betalains have replaced anthocyanins in most families in Caryophyllales. Anthocyanins and betalains never occur together in the same plant. The formation of betalamic acid, catalyzed by 3,4-dihydroxyphenylalanine (DOPA) 4,5-extradiol dioxygenase (DOD), is a key step in betalain biosynthesis. DODs in betalain-producing plants are coded by LigB genes, homologs of which have been identified in a wide range of higher plant orders, as well as in certain fungi and bacteria. Two classes of LigB homologs have been reported: those found in anthocyanin-producing species and those found in betalain-producing species, which contain DOD. To gain insight into the evolution of specialized metabolic enzymes involved in betalain biosynthesis, we performed a comparative biochemical analysis of Arabidopsis LigB, an extradiol ring-cleavage dioxygenase in anthocyanin-producing Arabidopsis and Phytolacca DOD1 of betalain-producing Phytolacca americana. We show that Arabidopsis LigB catalyzes 2,3-extradiol cleavage of DOPA to synthesize muscaflavin, whereas Phytolacca DOD1 converts DOPA to betalamic acid via 4,5-extradiol cleavage. Arabidopsis LigB also converts caffeic acid, a ubiquitous phenolic compound in higher plants, to iso-arabidopic acid in vitro via 2,3-extradiol cleavage of the aromatic ring. Amino-acid substitution in Arabidopsis LigB and Phytolacca DOD1 led to variable extradiol ring-cleavage function, supporting the suggestion that catalytic promiscuity serves as a starting point for the divergence of new enzymatic activities.

Browning and pigmentation in food through the Maillard reaction.

The Maillard reaction was discovered in 1912 by Louis C. Maillard when he observed the browning phenomena with aroma formation in a heated solution containing a sugar and an amino acid. The Maillard reaction starts from the reactions between carbonyl groups of various sugars and amino groups of amino acids/ proteins, following the formation of intermediate compounds or poly-carbonyl compounds, which further react with each other and amino acids/proteins. Through various chemical reactions such as condensation, polymerization, degradation, cyclization etc., color and aroma are formed. The imparting of brown color is mainly attributed to melanoidins. However, the chemical structure of melanoidins remains unclear because melanoidins are complex and heterogeneous polymers. On the other hand, various kinds of low-molecular-weight pigments formed through the Maillard reaction have been isolated and their structures have been identified. Even though the contribution of each pigment is small, the recognition of color is cumulative. In some case, these pigments form brown polymers or significantly contribute to the total color of a model solution. These chemically clear information gives us a novel aspect for an overview of browning or pigmentation through the Maillard reaction. Graphical abstract.

Advances in Glycation: from food to human health and disease.

This Special Issue on "Advances in Glycation: from food to human health and disease" was planned after the XXV International Symposium on Glycoconjugates (Glyco25) in Milan in order to ask special attention of importance of glycation to glycoscience community. In addition, we also celebrate the 30th anniversary of JMARS (Japan Maillard Reaction Society), and dedicated to one of the pioneers of this field, Professor Vincent Monnier, MD. He contributed enormously to studies on glycation related to aging and diseases to date and also he contributed to establish IMARS (International Maillard Reaction Society) as well as JMARS.

Browning of Maillard reaction systems containing xylose and 4-hydroxy-5-methyl-3(2H)-furanone.

Pentose is involved in the browning through the Maillard reaction of food derived of plant origin. During research on the Maillard reaction between xylose (Xyl) and lysine (Lys), we detected 4-hydroxy-5-methyl-3(2H)-furanone (HMFO) as a major decomposition product of Xyl. To clarify the chemical pathway of the browning of pentose system, the formation and decomposition of dicarbonyls from HMFO and Xyl were examined. In the HMFO system, HMFO was oxidatively hydrolyzed to form 2-hydroxy-3,4-dioxopentanal, which leads to the formation of methylglyoxal (MGO) and then diacetyl (DA). In the Xyl system, MGO was also the major dicarbonyl degradation product from 1-deoxyxylosone (1-DX). Among Xyl, HMFO, MGO, and DA, MGO turned brown most rapidly in the presence of Lys and formed melanoidin-like brown pigments. In the Xyl system, MGO derived from HMFO and 1-DX most contributed to the browning, although some low-molecular-weight pigments, a colorless polymer, and fluorescent substances were also formed.

Relationship between lactose utilization of lactic acid bacteria and browning of cheese during storage.

To produce processed cheese turning hardly brown during transportation and storage at room temperature, natural cheese showing less discoloration should be used as a raw material. The purpose of this study was to clarify the relationship between the lactose utilization of lactic acid bacteria and the browning of cheese during storage. Three type-cultures (Lactobacillus plantarum and Streptococcus thermophilus) and five isolates from Japanese pickles (Lactobacillus spp.) were used. Cheese curds inoculated with these bacteria were prepared and stored. The L. plantarum-inoculated curds showed smaller ΔE-values after storage, an indicator for the browning, compared to the others. Accumulation of galactose was observed in the curd to which S. thermophilus was inoculated. The sample showed larger ΔE-value after storage. These results showed the lactose utilization of bacteria affected galactose concentration in cheese and its browning during storage. L. plantarum might be a good starter for preparing cheese turning hardly brown.

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.

Two novel pyrrolooxazole pigments formed by the Maillard reaction between glucose and threonine or serine.

Pyrrolothiazolate formed by the Maillard reaction between l-cysteine and d-glucose has a pyrrolothiazole skeleton as a chromophore. We searched for a Maillard pigment having a pyrrolooxazole skeleton formed from l-threonine or l-serine instead of l-cysteine in the presence of d-glucose. As a result, two novel yellow pigments, named pyrrolooxazolates A and B, were isolated from model solutions of the Maillard reaction containing l-threonine and d-glucose, and l-serine and d-glucose, respectively, and identified as (2R,3S,7aS)-2,3,7,7a-tetrahydro-6-hydroxy-2,5,7a-trimethyl-7-oxo-pyrrolo[2,1-b]oxazole-3-calboxylic acid and (3S,7aS)-2,3,7,7a-tetrahydro-6-hydroxy-5,7a-dimethyl-7-oxo-pyrrolo[2,1-b]oxazole-3-calboxylic acid by instrumental analyses. These compounds were pyrrolooxazole derivatives carrying a carboxy group, and showed the absorption maxima at 300-360 nm under acidic and neutral conditions and at 320-390 nm under alkaline conditions.

Inhibitory effects of food additives derived from polyphenols on staphylococcal enterotoxin A production and biofilm formation by Staphylococcus aureus.

In this study, we examined the inhibitory effects of 14 food additives derived from polyphenol samples on staphylococcal enterotoxin A (SEA) production and biofilm formation by Staphylococcus aureus. Tannic acid AL (TA), Purephenon 50 W (PP) and Polyphenon 70A (POP) at 0.25 mg/mL and Gravinol®-N (GN), Blackcurrant polyphenol AC10 (BP), and Resveratrol-P5 (RT) at 1.0 mg/mL significantly decreased SEA production by S. aureus C-29 (p < 0.05). TA, GN, BP, and RT significantly inhibited the expression of the sea gene in S. aureus C-29 (p < 0.05), while suppression attempts by PP and POP proved unsuccessful. After result analysis, it can be derived that TA, GN, BP, and RT inhibit the production of SEA. Of the six samples, each one significantly inhibited biofilm formation (p < 0.05). Food additives derived from polyphenols have viability to be used as a means to inhibit the enterotoxin production and control the biofilm formation of foodborne pathogens.

Isolation, identification, and formation conditions of a novel Maillard yellowish pigment, pyrrolothiazolate.

We isolated a novel yellow pigment from a model Maillard reaction system containing l-cysteine, l-lysine, and glucose and identified it as 6-hydroxy-3[R],7a[S]-dimethyl-7-oxo-2,3-dihydropyrrolo[2,1-b]thiazole-3-calboxylic acid. This compound was a novel pyrrolothiazole derivative carrying a carboxy group and was named pyrrolothiazolate. This compound showed the absorption maxima at 300 and 360 nm under acidic and neutral conditions, while 320 and 400 nm did under alkaline conditions. Pyrrolothiazolate formed from cysteine and glucose was the major low-molecular-weight Maillard pigment in the reaction mixture, and its formation was stimulated by adding lysine to the reaction cocktail. After heating at 110 °C for 2 h, 1-2 mg/mL of pyrrolothiazolate was formed in a reaction mixture containing 100 mM cysteine, 200 mM lysine, and 300 mM glucose dissolved in 0.5 m acetate buffer (pH 6.0) or 0.5 m phosphate buffer (pH 6.5).

Conditions and Mechanism of Formation of the Maillard Reaction Pigment, Furpenthiazinate, in a Model System and in Some Acid Hydrolyzates of Foods and its Biological Properties.

Furpenthiazinate is a yellow pigment formed by the Maillard reaction between cysteine and furfural under strongly acidic conditions. Here, we describe the conditions and mechanism of pigment formation in a model system and in an acid hydrolyzate of food and analyze its biological properties. A reaction solution containing 32 mM cysteine and 128 mM furfural or 64 mM cysteine and 256 mM furfural in the presence of 2-6 M hydrochloric acid that was heated to 110 °C for 1-2 h yielded approximately 3 mM furpenthiazinate. Nuclear magnetic resonance analysis of furpenthiazinate prepared using 1-13C or 5-13C d-ribose suggests that it was formed through the condensation of cysteine and two C5 chains derived from pentose with the dehydration and elimination of formic acid. Furpenthiazinate was detected in mieki, a seasoning, and some acid hydrolyzates of food, and it did not show antibacterial or mutagenic activity.

Temperature dependence of the production of staphylococcal enterotoxin A by Staphylococcus aureus.

We incubated 11 strains of Staphylococcus aureus in a brain heart infusion broth at 10-37 °C with two inoculum sizes and examined their enterotoxin A (SEA) production by a Western blot analysis to clarify the effect of incubation temperature on SEA production. Although SEA was detected in the exponential phase at 15-37 °C, it was also detected in the stationary or death phase at 10 °C. The maximal SEA concentrations of most strains increased as the temperature was increased, although some strains produced as much at 15 °C and 20 °C as they did at 37 °C. The maximal SEA concentration was definitely lowest at 10 °C, and as the temperature was increased, the production rate increased. However, a relationship between the production rates at the two different temperatures was not apparent. Some strains produced more SEA at 10-20 °C with a smaller inoculum size than with a larger one. SEA production therefore did not necessarily depend on the incubation temperature, and it would be difficult to predict at 10 °C and 15 °C from the production at 37 °C.

Why food-poisoning bacteria attached to shredded cabbage are not efficiently disinfected by sodium hypochlorite (NaClO).

The aim of this study was to determine why food poisoning bacteria attached to cut cabbage are not efficiently disinfected by sodium hypochlorite (NaClO). Pretreatment of shredded cabbage with diethyl ether definitely decreased the survival numbers of Escherichia coli O157:H7 and Salmonella spp. after disinfection with 100 ppm of NaClO. The density of E. coli O157:H7 at the cut edge of a cabbage section was larger than that on the surface. The residual ratio of attached bacteria at the cut edge after NaClO disinfection was significantly higher than that on the surface. Microscopical observation indicated that the cut edge of shredded cabbage pretreated with diethyl ether was almost closed, resulting in a decrease in bacterial infiltration. Pretreatment of shredded cabbage with a higher concentration of NaClO to penetrate it more deeply significantly decreased the numbers of surviving bacteria after NaClO disinfection. Based on these results, we concluded that the bacteria attached to cut cabbage were not efficiently disinfected by NaClO, because not enough NaClO deeply infiltrated into the cut edges, and hence not enough came in contact with the bacteria.

Production potency of folate, vitamin B(12), and thiamine by lactic acid bacteria isolated from Japanese pickles.

We investigated the extracellular production of folate, vitamin B(12), and thiamine in cultures of lactic acid bacteria (LAB) isolated from nukazuke, a traditional Japanese pickle, and the relationships between the vitamin production and such properties of LAB as tolerance to salts, ethanol, etc. Among the 180 isolates of LAB, two strains of Lactobacillus (Lb.) sakei and a strain of Lb. plantarum extracellularly produced high levels of folate (about 100 µg/L). A strain of Lb. coryniformis and one of Lb. plantarum produced about 2 µg/L of vitamin B(12), although the level was not high. No isolates produced a high level of thiamine. The type cultures of LBA (53 strains) did not show any higher production of these vitamins. Some isolates showed tolerance to high concentrations of salts and alcohol, and low initial pH. No significant relationships between folate or vitamin B(12) productions and these properties of LAB were apparent.

[Temperature dependence of staphylococcal enterotoxin A production by Staphylococcus aureus].

Staphylococcal food poisoning (SFP) results from the consumption of foods containing sufficient amounts of one or more preformed staphylococcal enterotoxins (SEs). SEs are heat stable and can withstand heat at 121 degrees C for 10 min. Therefore, after SEs were produced in food, reheating of food is ineffective in preventing SFP. Among the SEs, SEA appears to be most frequently associated with food poisoning. SEA can be produced at the temperature range of 10-46 degrees C. Many researchers investigated SEA in various foods such as milk, cream, egg and mushroom at some temperatures. As the temperature is raised, SEA concentration was increased. But, because detailed relationships between SEA production and incubation temperature were not examined, we investigated the effect of incubation temperature (10, 15, 20 and 37 degrees C) on SEA productions by using various SEA producing strains of S. aureus. As a result, relationships were found between incubation temperature and SEA production as well as the studies of others. However, little relationship was found between the maximal SEA concentrations at each incubation temperature. SEA production does not necessarily depend on temperature. This result suggests that SEA production is strongly influenced by the intrinsic properties of strains as well as the environmental factors such as temperature and nutrients.

Pulsed-field gel electrophoretic analysis and some characteristics of Staphylococcus aureus isolated from retail foods and human hands.

This study investigates whether there is a predominant Staphylococcus aureus strain in retail foods and healthy human hands, and examines the relationship between pulsed-field gel electrophoresis (PFGE) banding patterns and the S. aureus characteristics of staphylococcal enterotoxin (SE) type, coagulase type, and ß-lactamase activity. Ninety-four strains of S. aureus isolated from retail foods and healthy human hands were analyzed by PFGE. Several strains isolated from the same shop or a chain store showed identical patterns, indicating that the origins of these strains were identical. After excluding these strains showing identical patterns, 54 strains were used for the PFGE analysis. No spread of a particular clone in the environment surrounding the food was apparent. The PFGE analysis of these 54 strains was classified in 6 lineages (L1-L6). There was no relationship between the PFGE banding pattern and coagulase type or SE type. Eleven (84.6%) of the 13 isolates in PFGE banding pattern L5 did not produce ß-lactamase, suggesting that the production of ß-lactamase influenced a specific PFGE banding pattern.

Role of chlorogenic acid quinone and interaction of chlorogenic acid quinone and catechins in the enzymatic browning of apple.

Chlorogenic acid (CQA) is one of the major polyphenols in apple and a good substrate for the polyphenol oxidase (PPO) in apple. Apple contains catechins as well as CQA, and the role of CQA quinone and its interaction with catechins in the enzymatic browning of apple were examined. Browning was repressed and 2-cysteinyl-CQA was formed when cysteine was added to apple juice. CQA quinone was essential for browning to occur. Although catechins and CQA were oxidized by PPO, some catechins seemed to be non-enzymatically oxidized by CQA quinone.

Conditions for the formation of dilysyl-dipyrrolones A and B, and novel yellow dipyrrolone derivatives formed from xylose and amino acids in the presence of lysine.

Foods derived from plants contain pentose in addition to hexose. It is well known that pentose contributes more to browning by the Maillard reaction than hexose does. We have recently found novel yellow compounds formed from xylose and lysine under weakly acidic conditions, named dilysyldipyrrolones (dilysyl-DPLs) A and B. We indicate in this study that dilysyl-DPLs were specifically formed under weakly acidic conditions from pentose, but not hexose. Moreover, we found novel DPL derivatives which were formed from xylose and such amino acids as alanine, arginine, aspartic acid, glutamic acid, isoleucine, leucine, phenylalanine, serine, and valine in the presence of lysine.

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.

Ascorbic acid levels and neutrophil superoxide production in blood of pre-, early and late hypertensive stroke-prone spontaneously hypertensive rats.

We compared ascorbic acid (AA) levels in the blood and TPA- and fMLP-stimulated superoxide (O(2)(•-)) production in neutrophils of pre-, early, and late hypertensive stroke-prone spontaneously hypertensive rats (SHRSP) with those of age-matched Wistar Kyoto rats (WKY), or two other normotensive strains of rats. Plasma and lymphocyte AA levels were about two-fold higher in SHRSP as early as 4 weeks old compared to WKY, and also higher than those of Wistar and Sprague-Dawley (SD) rats. Levels of AA were high in the liver and adrenal glands of SHRSP, indicating congenitally high AA levels. The production of O(2)(•-) in neutrophils was about two-fold higher in SHRSP than in WKY even at 4 weeks of age, and increased with age in both strains. Among SHRSP, AA levels in lymphocytes decreased at the late hypertensive stages with a decrease in hepatic l-gulono-γ-lactone oxidase (GLO) activities. These data suggest that bi-phasic AA levels in the blood of SHRSP comprise congenitally high levels and a decrease after persistent hypertension due to enhanced O(2)(•-) production and a decrease in de novo AA synthesis through GLO.