https://orcid.org/0000-0003-1275-6721
References
- Ancín-Azpilicueta C, Jiménez-Moreno N, Moler JA, Nieto-Rojo R, Urmeneta H. 2016. Effects of reduced levels of sulfite in wine production using mixtures with lysozyme and dimethyl dicarbonate on levels of volatile and biogenic amines. Food Addit Contam Part A. 33(10):1518‒1526.
- Bauer R, Dicks LMT. 2004. Control of malolactic fermentation in wine A Review. S Afr J Enol Vitic. 25:74‒88.
- [CFR] Code of Federal Regulations. 2017. 21CFR172.350. Code of Federal Regulations Title 21, Vol. 3. Revised on April 1st, 2017. https://www.accessdata.fda.gov/scripts/cdrh/cfdocs/cfcfr/CFRSearch.cfm?fr=172.350&SearchTerm=fumaric%20acid
- Cofran DR, Meyer BJ. 1970. The effect of fumaric acid on malo-lactic fermentation. Am J Enol Vitic. 21:189‒192.
- Comes JE, Beelman RB. 2002. Addition of fumaric acid and sodium benzoate as an alternative method to achieve a 5-log reduction of Escherichia coli O157: h7populations in apple cider. J Food Prot. 65:476‒483.
- Côrte-Real M, Leao C. 1990. Transport of malic acid and other dicarboxylic acids in the yeast Hansenula anomala. Appl Environ Microb. 56:1109‒1113.
- Davis CR, Wibowo D, Eschenbruch R, Lee TH, Fleet GH. 1985. Practical implications of malolactic fermentation: a review. Am J Enol Vitic. 36:290‒301.
- Ertan Anlı R, Bayram M. 2008. Biogenic amines in wines. Food Rev Int. 25:86‒102.
- Ferrer-Gallego R, Puxeu M, Martín L, Nart E, Hidalgo C, Andorrà I. 2018. Microbiological, physical, and chemical procedures to elaborate high-quality SO2-free wines. In: Jordão AM, Cosme F, editors. Grapes and wines: advances in production, processing, analysis and valorization. 1st ed. London (UK): IntechOpen; p. 171‒185.
- Galloway DA, Williams JB, Moore CS. 2017. Effects of fumarates on inflammatory human astrocyte responses and oligodendrocyte differentiation. Ann Clin Transl Neurol. 4:381‒391.
- Gao YC, Zhang G, Krentz S, Darius S, Power J, Lagarde G. 2002. Inhibition of spoilage lactic acid bacteria by lysozyme during wine alcoholic fermentation. Aus J Grape Wine Res. 8:76‒83.
- García-Ruiz A, Moreno-Arribas MV, Martín-Álvarez PJ, Bartolomé B. 2011. Comparative study of the inhibitory effects of wine polyphenols on the growth of enological lactic acid bacteria. Int J Food Microbiol. 145:426‒431.
- Gerbaux V, Villa A, Monamy C, Bertrand A. 1997. Use of lysozyme to inhibit malolactic fermentation and to stabilize wine after malolactic fermentation. Am J Enol Vitic. 48:49‒54.
- Glories Y. 1984. La couleur des vins rouges. 2ème partie: mesure, origine et interprétation. J Int Sci Vigne Vin. 18:253‒271.
- Guzzo F, Cappello MS, Azzolini M, Tosi E, Zapparoli G. 2011. The inhibitory effects of wine phenolics on lysozyme activity against lactic acid bacteria. Int J Food Microbiol. 148:184‒190.
- [ISO] International Organization for Standardization. 2004. ISO 4120 Sensory analysis – Methodology – Triangle test.
- Jastrzębska A, Piasta A, Szlyk E. 2014. Simultaneous determination of selected biogenic amines in alcoholic beverages samples by isotachophoretic and chromatographic methods. Food Addit Contam Part A. 31(1):83‒92.
- Lerm E, Engelbrecht L, Du Toit M. 2010. Malolactic fermentation: the ABC’s of MLF. S Afr J Enol Vitic. 31:186‒212.
- Lonvaud-Funel A. 1999. Lactic acid bacteria in the quality improvement and depreciation of wine. A Van Leeuw J Microb. 76:317‒331.
- Lu HJ, Breidt F Jr, Pérez-Díaz IM, Osborne JA. 2011. Antimicrobial effects of weak acids on the survival of Escherichia coli O157: H7under anaerobic conditions. J Food Prot. 74:893‒898.
- Morata A, Loira I, Tesfaye W, Bañuelos MA, González C, Suárez-Lepe JA. 2018. Lachancea thermotolerans applications in wine technology. Fermentation. 4(3):53.
- Morata A, Loira I, Vejarano R, González C, Callejo MJ, Suárez-Lepe JA. 2017. Emerging preservation technologies in grapes for winemaking. Trends Food Sci Tech. 67:36‒43.
- Nieto-Rojo R, Luquin A, Ancín-Azpilicueta C. 2015. Improvement of wine aromatic quality using mixtures of lysozyme and dimethyl dicarbonate, with low SO2 concentration. Food Addit Contam Part A. 32(12):1965‒1975.
- Osborne JP, Edwards CG. 2006. Inhibition of malolactic fermentation by Saccharomyces during alcoholic fermentation under low‒ and high‒nitrogen conditions: a study in synthetic media. Aust J Grape Wine Res. 12:69‒78.
- Pérez-Díaz IM, McFeeters RF. 2010. Preservation of acidified cucumbers with a natural preservative combination of fumaric acid and allyl isothiocyanate that target lactic acid bacteria and yeasts. J Food Sci. 75:M204‒M208.
- Pilone GJ, Rankine BC, Pilone DA. 1974. Inhibiting malo-lactic fermentation in Australian dry red wines by adding fumaric acid. Am J Enol Vitic. 25:99‒107.
- Saayman M, Van Vuuren HJJ, Van Zyl WH, Viljoen-Bloom M. 2000. Differential uptake of fumarate by Candida utilis and Schizosaccharomyces pombe. Appl Microbiol Biotechnol. 54:792‒798.
- Salmond CV, Kroll RG, Booth IR. 1984. The effect of food preservatives on pH homeostasis in Escherichia coli. J Gen Microbiol. 130:2843‒2850.
- Tango CN, Mansur AR, Kim GH, Oh DH. 2014. Synergetic effect of combined fumaric acid and slightly acidic electrolysed water on the inactivation of food-borne pathogens and extending the shelf life of fresh beef. J Appl Microbiol. 117:1709‒1720.
- Tchelistcheff A, Peterson RG, Van Gelderen M. 1971. Control of malolactic fermentation in wine. Am J Enol Vitic. 22:1‒5.
- Van Vuuren HJJ, Dicks LMT. 1993. Leuconostoc oenos: A review. Am J Enol Vitic. 44:99‒112.
- Wibowo D, Eschenbruch R, Davis CR, Fleet GH, Lee TH. 1985. Occurrence and growth of lactic acid bacteria in wine: a review. Am J Enol Vitic. 36:302‒313.
- Xu Q, Li S, Huang H, Wen J. 2012. Key technologies for the industrial production of fumaric acid by fermentation. Biotechnol Adv. 30:1685‒1696.
- Yang ST, Zhang K, Zhang B, Huang H. 2011. Fumaric acid. In: Moo-Young M, editor. Comprehensive biotechnology. 2nd ed. Oxford (UK): Academic Press-Elsevier. Vol. 3, 3.16; p. 163‒177.