REFERENCES
- Mazza S, Murooka Y: Vinegar through the age. In Solieri L, Giudici P (ed): “Vinegars of the world.” Milán: Spinger-Verlag, pp 17−39, 2009.
- Ou ASM, Chang RC: Taiwan fruit vinegar. In Solieri L, Giudici P (ed): “Vinegars of the world.” Milán: Spinger-Verlag, pp 223−241, 2009.
- Budak HN, Kumbul Doguc D, Savas CM, Seydim AC, Kök Tas T, Ciris IM Güzel-Seydim ZB: Effects of Apple Cider Vinegars Produced with Different Techniques on Blood Lipids in High-Cholesterol-Fed Rats. J Agr Food Chem 59:6638–6644, 2011.
- Nishidai S, Nakamura Y, Torikai K, Yamamoto M, Ishihara N, Mori H, Ohigashi H: Kurosu, a traditional vinegar produced from unpolished rice, suppresses lipid peroxidation in vitro and in mouse skin. Biosci Biotech Bioch 64:1909–1914, 2000.
- Ogawa N, Satsu H, Watanabe H, Fukaya M, Tsukamoto Y, Miyamoto Y, Shimizu M: Acetic acid suppresses the increase in disaccharidase activity that occurs during culture of caco-2 cells. J Nutr 130:507–513, 2000.
- Fushimi T, Tayama K, Fukaya M, Kitakoshi K, Nakai N, Tsukamoto Y, Sato Y: Acetic acid feeding enhances glycogen repletion in liver and skeletal muscle of rats. J Nutr 131:1973–1977, 2001.
- Kondo S, Tayama K, Tsukamoto Y, Ikeda K, Yamori Y: Antihypertensive Effects of Acetic acid and Vinegar on Spontaneously Hypertensive Rats. Biosci Biotech Bioch 65:2690–2694, 2001.
- Shimoji Y, Oishi E, Kitajima T, Muneta Y, Shimizu S, Mori Y: Heterologous Protein Expression and Intranasal Immunization of Pigs. Infect Immun 70, 226–232, 2002.
- Sugiyama A, Saitoh M, Takahara A, Satoh Y, Hashimoto K: Acute cardiovascular effects of a new beverage made of wine vinegar and grape juice, assessed using an in vivo rat, Nutr Res 23:1291–1296, 2003.
- Johnston CS, Kim CM, Buller AJ: Vinegar improves insulin sensitivity to a high-carbohydrate meal in subjects with insulin resistance or type 2 diabetes. Diabetes Care 27:281–282, 2004.
- Scrinis G: Functional foods or functionally marketed foods? A critique of, and alternative to, the category of ‘functional foods’. Public Health Nutr 11:541–545, 2008.
- Horiuchi J, Tada K, Kobayashi M, Kanno T, Ebie K: Biological approach for effective utilization of worthless onions vinegar production and composting. Resour Conserv Recy 40:97–109, 2004.
- Abe K, Kushıbıkı T, Matsue H, Furukawa K, Motomura S: Generation of Antitumor Active Neutral Medium-Sized α-Glycan in Apple Vinegar Fermentation. Biosci Biotech Bioch 71:2124–2129, 2007.
- Tagliazucchi D, Verzelloni E, Conte A: Contribution of melanoidins to the antioxidant activity of traditional balsamic vinegar during aging. J Food Biochem 34:1061–1078, 2010.
- Verzelloni E, Tagliazucchi D, Conte A: From balsamic to healthy: Traditional balsamic vinegar melanoidins inhibit lipid peroxidation during simulated gastric digestion of meat. Food Chem Toxicol 48:2097–2102, 2010.
- Ojansivua I, Ferreirab CL, Salminena S: Yacon, a new source of prebiotic oligosaccharides with a history of safe use. Trends Food Sci Tech 22:40–46, 2011.
- Ibnaof Ali IAI, Akakabe Y, Moonmangmee S, Deeraksa A, Matsutani M, Yakushi T, Yamada M, Matsushita K: Structural characterization of pellicle polysaccharides of Acetobacter tropicalis SKU1100 wild type and mutant strains. Carbohyd Polym 86:1000–1006, 2011.
- Yamada Y: Transfer of Acetobacter oboediens and Acetobacterintermedius to the genus Gluconacetobacter as Gluconacetobacteroboediens comb. nov. and Gluconacetobacter intermedius comb. nov. Int J Syst Evol Micr 50:2225–2227, 2000.
- Brown RM: The biosynthesis of cellulose. Pure Appl Chem 33:1345–1373, 1996.
- AOAC: “In Official Methods of analysis.” Washington DC: Association of Official Analytical Chemists, 2000.
- Hounsell EF, Davies MJ, Smith KD: Chemical methods of analysis of glycoproteins. In Walker JM (ed): “The Protein Protocol Handbook.” 2nd ed. New Jersey: Humana Press, pp 804–805, 1997.
- EPA Method 6010C: “Determination of Inorganic Analytes by Inductively Coupled Plasma-Atomic Emission Spectrometry.” Test Methods for Evaluating Solid Waste, SW-846. http://www.caslab.com/EPA-Methods/PDF/EPA-Method-6010C.pdf Washington DC: United States Environmental Protection Agency.
- EPA Method 3015A: “Microwave assisted acid digestion of aqueous samples and extracts.” http://www.epa.gov/osw/hazard/testmethods/sw846/pdfs/3015a.pdf Washington DC: United States Environmental Protection Agency.
- Kim AG, Hesbach P: Comparison of fly ash leaching methods, Fuel 88:926–937, 2009.
- Singleton VL, Orthofer R, Lamuela-Raventos RM: Analysis of total phenols and other oxidation substrates and antioxidants by means of Folin-Ciocalteau reagent. Method Enzymol 299:152–178, 1999.
- Kelen M, Demiralay EC, Sen S, Ozkan G: Separation of abscisic acid, indole-3-acetic acid, gibberellic acid in 99 R (Vitis berlandieri x Vitis rupestris) and rose oil (Rosa damascena Mill.) by reversed phase liquid chromatography. Turk J Chem 28:603–610, 2004.
- Budak HN, Guzel-Seydim ZB: Antioxidant activity and phenolic content of wine vinegars produced by two different techniques. J Sci Food Agr 90:2021–2026, 2010.
- Re R, Pellegrini N, Proteggente A, Pannala A, Yang M, Rice-Evans C: Antioxidant activity applying an improved ABTS radical cation decolorization assay. Free Radical Bio Med 26:1231–1237, 1999.
- Seeram N, Adams L, Henning S, Niu Y, Zhang Y, Nair MG, Heber D: In vitro antiproliferative. apoptotic and antioxidant activities of punicalagins. ellagic acid and a total pomegranate tannin extract are enhanced in combination with other polyphenols as found in pomegranate juice. J Nutr Biochem 16:360–367, 2005.
- Caligiani A, Acquotti D, Palla G, Bocchi V: Identification and quantification of the main organic components of vinegars by high resolution 1H NMR spectroscopy. Anal Chim Acta 585:110–119, 2007.
- Ünverir D, Budak N, Sezer S, Seydim AC, Guzel-Seydim ZB: Chemical and antioxidant properties of pomegranate vinegar. “International Food Congress-Novel Approaches in Food Industry”, İzmir, Turkey, 2011.
- Guerrero MI, Herce-Pagliai C, Cameán AM, Troncoso AM, González AG: Multivariate characterization of wine vinegars from the south of Spain according to their metallic content. Talanta 45:379–386, 1997.
- Nakamura K, Ogasawara Y, Endou K, Fujimori S, Koyama M, Akano H: Phenolic Compounds Responsible for the Superoxide Dismutase-like Activity in High-Brix Apple Vinegar. J Agr Food Chem 58:10124–10132, 2010.
- Akpınar-Bayızıt A, Turan MA, Yılmaz-Ersan L, Taban N: Inductively Coupled Plasma Optical-Emission Spectroscopy Determination of Major and Minor Elements in Vinegar. Not Bot Horti Agrobo 38:64–68, 2010.
- Krewulak KD, Vogel HJ: Structural biology of bacterial iron uptake, Biochim Biophys Acta, 1778:1781–1804, 2008.
- Ninfali P, Mea G, Giorgini S, Rocchi M, Bacchiocca M: Antioxidant capacity of vegetables, spices and dressings relevant to nutrition. Brit J Nutr 93:257–266, 2005.
- Alonso AM, Castro R, Rodrıguez MC, Guillen DA, Barroso CG: Study of the antioxidant power of brandies and vinegars derived from Sherry wines and correlation with their content in polyphenols. Food Res Int 37:715–721, 2004.
- Davalos A, Bartolome B, Gomez-Cordoves C: Antioxidant properties of commercial grape juices and vinegars. Food Chem 93:325–330, 2005.
- Ubeda C, Hidalgo C, Torija MJ, Mas A, Troncoso AM, Morales ML: Evaluation of antioxidant activity and total phenols index in persimmon vinegars produced by different processes. LWT - Food Sci Technol 44:1591–1596, 2011.
- Mena P, Gironés-Vilaplana A, Martí N, García-Viguera C: Pomegranate varietal wines: Phytochemical composition and quality parameters. Food Chem 133:108–115, 2012.
- Ginjom I, D’Arcy B, Caffin N, Gidley M: Phenolic compound profiles in selected Queensland red wines at all stages of the wine-making process. Food Chem 125:823–834, 2011.
- Peng Y, Liu F, Peng Y, Ye J: Determination of polyphenols in apple juice and cider by capillary electrophoresis with electrochemical detection. Food Chem 92:169–175, 2005.
- Rodriguez Madrera R, Picinelli Lobo A, Suarez Valles B: Phenolic profile of Asturian (Spain) natural cider. J Agr Food Chem 54:120–124, 2006.
- Rice-Evans CA, Miller NJ, Paganga G: Structure antioxidant activity relationships of flavonoids and phenolic acids. Free Radical Bio Med 20:933–956, 1996.
- Cerezo AB, Tesfaye W, Torija MJ, Mateo E, Garcia-Parrilla MC, Troncoso AM: The phenolic composition of red wine vinegar produced in barrels made from different woods. Food Chem 109:606–615, 2008.
- Cheng Z, Ren J, Li Y, Chang W, Chen Z: Study on the Multiple Mechanisms Underlying the Reaction Between Hydroxyl Radical and Phenolic Compounds by Qualitative Structure and Activity Relationship. Bioorgan Med Chem 10:4067–4073, 2002.
- Cerezo AB, Tesfaye W, Soria-Dı´az ME, Torija MJ, Mateo E, Garcia-Parrilla MC, Troncoso AM: Effect of wood on the phenolic profile and sensory properties of wine vinegars during ageing. J Food Compos Anal 23:175–184, 2010.
- Plessi M, Bertelli D, Miglietta F: Extraction and identification by GC-MS of phenolic acids in traditional balsamic vinegar from Modena. J Food Compos Anal 19:49–54, 2006.
- Cerezo AB, Cuevas E, Winterhalter P, Garcia-Parrilla MC, Troncoso AM: Anthocyanin composition in Cabernet Sauvignon red wine vinegar obtained by submerged acetification. Food Res Int 43:1577–1584, 2010.
- Ubeda C, Callejón RM, Hidalgo C, Torija MJ, Troncoso AM, Morales ML: Employment of different processes for the production of strawberry vinegars: Effects on antioxidant activity, total phenols and monomeric anthocyanins. LWT - Food Sci Technol 52:139–145, 2013.
- Masino F, Chinnici F, Bendini A, Montevecchi G, Antonelli A: A study on relationships among chemical, physical, and qualitative assessment in traditional balsamic vinegar, Food Chem 106:90–95, 2008.
- Fischer UA, Carle R, Kammerer DR: Identification and quantification of phenolic compounds from pomegranate (Punica granatum L.) peel, mesocarp, aril and differently produced juices by HPLC-DAD–ESI/MS. Food Chem 127:807–821, 2011.
- Received September 11, 2013; revision accepted February 16, 2014.