Research progress of application of mannoprotein in wine brewing
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摘要: 甘露糖蛋白是一种在酵母自溶时,从酵母细胞壁中释放的可溶性糖蛋白。本文介绍甘露糖蛋白的结构及特性,综述该蛋白对葡萄酒中花青素、单宁、乳酸菌、芳香类物质及蛋白质的作用及机理,如稳定花青素、单宁及蛋白质,促进乳酸菌生长,保护芳香化合物等。甘露糖蛋白对于葡萄酒工业生产有重要意义。Abstract: Mannoprotein is a kind of soluble glycoprotein released from yeast cell wall when yeast autolysis. The structure and characteristic of mannoprotein were introduced in this paper. How the protein effects on anthocyanins, tannins, lactic acid bacteria, aromatic substances and protein function in wine and accordingly mechanism were detailed reviewed, such as stabilizing anthocyanins, tannins and protein, promoting the growth of lactic acid bacteria, and protecting aromatic compounds.Mannoprotein has important significance to wine industry production.
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Keywords:
- mannoprotein /
- wine quality /
- anthocyanin /
- tannin /
- aromatic substance /
- protein
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[1] Ribéreau-Gayon P.Handbook of enology[M].Handbook of Enology, 2000.
[2] De Melo A N F, de Souza E L, Da Silva Araujo V B, et al.Stability, nutritional and sensory characteristics of French salad dressing made with mannoprotein from spent brewer’s yeast[J].LWT-Food Science and Technology, 2015, 62 (1) :771-774.
[3] 门颖.酵母甘露糖蛋白对葡萄酒品质影响的研究[D].济南:齐鲁工业大学, 2015. [4] Ene I V, Adya A K, Wehmeier S, et al.Host carbon sources modulate cell wall Architecture, drug resistance and virulence in a fungal pathogen[J].Cellular Microbiology, 2012, 14 (9) :1319-1335.
[5] Quirós M, Morales P, Pérez-Través L, et al.A new methodology to determine cell wall mannoprotein content and release in wine yeasts[J].Food Chemistry, 2011, 125 (2) :760-766.
[6] 柳岛直彦.酵母解剖[M].天津:南开大学出版社, 1990. [7] Blasco L, Vi1as M, Villa T G.Proteins influencing foam formation in wine and beer:the role of yeast[J].International Microbiology the Official Journal of the Spanish Society for Microbiology, 2011, 14 (2) :61-71.
[8] Ballou C.Structure and Biosynthesis of the Mannan Component of the Yeast Cell Envelope[J].Advances in Microbial Physiology, 1976, 14 (11) :93-158.
[9] Llaubères R M, Dubourdieu D, Villettaz J C.Exocellular polysaccharides from Saccharomyces in Wine[J].Journal of the Science of Food&Agriculture, 1987, 41 (3) :277-286.
[10] Chatonnet P, Dubourdieu D, Boidron J N.Incidence of fermentation and ageing conditions of dry white wines in barrels on their composition in substances yielded by oak wood[J].Sciences des Aliments (France) , 1992, 12 (4) :665-685.
[11] Waters E J, Pellerin P, Brillouet J M.A Saccharomyces mannoprotein that protects wine from protein haze[J].Carbohydrate Polymers, 1994, 23 (3) :185-191.
[12] Lubbers S, Voilley A, Feuillat M, et al.Influence of Mannaproteins from Yeast on the Aroma Intensity of a Model Wine[J].LWT-Food Science and Technology, 1994, 27 (2) :108-114.
[13] Poncet-Legrand C, Doco T, Williams P, et al.Inhibition of grape seed tannin aggregation by wine mannoproteins:Effect of polysaccharide molecular weight[J].American Journal of Enology&Viticulture, 2007, 58 (1) :87-91.
[14] Chalier P, Angot B, Delteil D, et al.Interactions between aroma compounds and whole mannoprotein isolated from Saccharomyces cerevisiae strains[J].Food Chemistry, 2007, 100 (1) :22-30.
[15] Guadalupe Z, Ayestaran B.Effect of commercial mannoprotein addition on polysaccharide, polyphenolic, and color composition in red wines[J].Journal of Agricultural and Food Chemistry, 2008, 56 (19) :9022-9029.
[16] Diez L, Guadalupe Z, Ayestaran B, et al.Effect of yeast mannoproteins and grape polysaccharides on the growth of wine lactic acid and acetic acid bacteria[J].Journal of Agricultural and Food Chemistry, 2010, 58 (13) :7731-7739.
[17] Rodriguez-Nogales J M, Fernández-Fernández E, Gómez M, et al.Antioxidant properties of sparkling wines produced withβ-glucanases and commercial yeast preparations[J].Journal of Food Science, 2012, 77 (9) :1005-1010.
[18] Martínez-Lapuente L, Guadalupe Z, Ayestarán B, et al.Role of major wine constituents in the foam properties of white and rosésparkling wines[J].Food Chemistry, 2015, 174:330-338
[19] He F, Liang N N, Mu L, et al.Anthocyanins and their variation in red wines I.Monomeric anthocyanins and their color expression[J].Molecules, 2012, 17 (2) :1571-1601.
[20] Philippe A, Robert C P.Maceration enzymes and mannoproteins:a possible strategy to increase colloidal stability and color extraction in red wines[J].Plant&Cell Physiology, 2007, 55 (12) :4854-4862.
[21] Tachibana N, Kimura Y, Ohno T.Examination of molecular mechanism for the enhanced thermal stability of anthocyanins by metal cations and polysaccharides[J].Food Chemistry, 2014, 143 (3) :452-458.
[22] Howard L R, Brownmiller C, Prior R L, et al.Improved stability of chokeberry juice anthocyanins byβ-cyclodextrin addition and refrigeration[J].Journal of Agricultural&Food Chemistry, 2013, 61 (3) :693-699.
[23] Guadalupe Z, Palacios A, Ayestarán B.Maceration enzymes and mannoproteins:a possible strategy to increase colloidal stability and color extraction in red wines[J].Journal of Agricultural and Food Chemistry, 2007, 55 (12) :4854-4862.
[24] Wu J, Guan Y, Zhong Q.Yeast mannoproteins improve thermal stability of anthocyanins at p H7.0[J].Food Chemistry, 2015, 172:121-128.
[25] Gonzalez R, Tronchoni J, Quirós M, et al.Genetic Improvement and Genetically Modified Microorganisms[M]//Wine Safety, Consumer Preference, and Human Health.Springer International Publishing, 2016:71-96.
[26] Pérez-Través L, Querol A, Pérez-Torrado R.Increased mannoprotein content in wines produced by Saccharomyces kudriavzevii×Saccharomyces cerevisiae hybrids[J].International Journal of Food Microbiology, 2016, 237:35-38.
[27] McRae J M, Kennedy J A.Wine and grape tannin interactions with salivary proteins and their impact on astringency:a review of current research[J].Molecules, 2011, 16 (3) :2348-2364.
[28] Baiano A, Gianni A D.Timing of the treatment with oak chips:the case of Nero di Troia wine[J].European Food Research and Technology, 2016, 242 (8) :1343-1353.
[29] Nguela J M, Vernhet A, Sieczkowski N, et al.Interactions of condensed Tannins with Saccharomyces cerevisiae yeast cells and cell walls:Tannin location by microscopy[J].Journal of Agricultural and Food Chemistry, 2015, 63 (34) :7539-7545.
[30] Nguela J M, Poncet-Legrand C, Sieczkowski N, et al.Interactions of grape tannins and wine polyphenols with a yeast protein extract, mannoproteins andβ-glucan[J].Food Chemistry, 2016, 210:671-682.
[31] Tabasco R, Sánchez-Patán F, Monagas M, et al.Effect of grape polyphenols on lactic acid bacteria and bifidobacteria growth:Resistance and metabolism[J].Food Microbiology, 2011, 28 (7) :1345-52.
[32] 杨新元, 李华, 刘树文, 等.甘露糖蛋白对葡萄酒苹果酸-乳酸发酵的影响[J].西北农林科技大学学报自然科学版, 2007, 35 (3) :203-208. [33] Ganan M, Carrascosa A V, De Pascual-Teresa S, et al.Effect of Mannoproteins on the Growth, Gastrointestinal Viability, and Adherence to Caco-2 Cells of Lactic Acid Bacteria[J].Journal of Food Science, 2012, 77 (3) :176-180.
[34] Vincenzi S, Panighel A, Gazzola D, et al.Study of combined effect of proteins and bentonite fining on the wine aroma loss[J].Journal of Agricultural and Food Chemistry, 2015, 63 (8) :2314-2320.
[35] Lubbers S, Voilley A, Feuillat M, et al.Influence of Mannaproteins from Yeast on the Aroma Intensity of a Model Wine[J].LWT-Food Science and Technology, 1994, 27 (2) :108-114.
[36] Juega M, Nunez Y P, Carrascosa A V, et al.Influence of Yeast Mannoproteins in the Aroma Improvement of White Wines[J].Journal of Food Science, 2012, 77 (8) :499-504.
[37] Juega M, Carrascosa A V, Martinez-Rodriguez A J.Effect of Short Ageing on Lees on the Mannoprotein Content, Aromatic Profile, and Sensorial Character of White Wines[J].Journal of Food Science, 2015, 80 (2) :384-388.
[38] Diako C, Mcmahon K, Mattinson S, et al.Alcohol, Tannins, and Mannoprotein and their Interactions Influence the Sensory Properties of Selected Commercial Merlot Wines:A Preliminary Study[J].Journal of Food Science, 2016, 81 (8) :2039-2048.
[39] Lochbühler B, Manteau S, Morge C, et al.Yeast protein extracts:an alternative fining agent for red wines[J].European Food Research&Technology, 2014, 240 (4) :689-699.
[41] 周攀, 周元.甘露糖蛋白对葡萄酒稳定性的影响[J].中外葡萄与葡萄酒, 2011 (7) :57-59. [41] Moriwaki C, Matioli G, Arévalo-Villena M, et al.Accelerate and enhance the`release of haze-protective polysaccharides after alcoholic fermentation in winemaking[J].European Food Research&Technology, 2015, 240 (3) :499-507.
[42] Schmidt S A, Ee Leng T, Shauna B, et al.Hpf2 glycan structure is critical for protection against protein haze formation in white wine.[J].Journal of Agricultural&Food Chemistry, 2009, 57 (8) :3308-3315.
[43] Moriwaki C, Matioli G, Arévalo-Villena M, et al.Accelerate and enhance the release of haze-protective polysaccharides after alcoholic fermentation in winemaking[J].European Food Research and Technology, 2015, 240 (3) :499-507.
[44] Guadalupe Z, Martínez L, Ayestarán B.Yeast mannoproteins in red winemaking:effect on polysaccharide, polyphenolic, and color composition[J].American Journal of Enology&Viticulture, 2010, 61 (2) :191-200.
[45] Gawel R, Smith P A, Waters E J.Influence of polysaccharides on the taste and mouthfeel of white wine[J].Australian Journal of Grape&Wine Research, 2016, 22 (3) :350-357.
[46] Stewart G G.Beer Shelf Life and Stability 10[J].The Stability and Shelf Life of Food, 2016:293.
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