[1] BRIZUELA S N,BRAVO-FERRADA M B,POZO-BAYÓN Á M,et al.Changes in the volatile profile of pinot noir wines caused by patagonian Lactobacillus plantarum and Oenococcus oeni strains[J].Food Research International,2018,106:22-28.
[2] BRIZUELA S N,BRAVO-FERRADA M B,HENS V L D,et al.Comparative vinification assays with selected patagonian strains of Oenococcus oeni and Lactobacillus plantarum[J].LWT-Food Science and Technology,2016,77:348-355.
[3] CAPPELLO M S,ZAPPAROLI G,LOGRIECO A,et al.Linking wine lactic acid bacteria diversity with wine aroma and flavor[J].International Journal of Food Microbiology,2017,243:16-27.
[4] UBEDA C,HORNEDO-ORTEGA R,CEREZO B A,et al.Chemical hazards in grapes and wine,climate change and challenges to face[J].Food Chemistry,2020,314.DOI:100.1016/j.foodchem.2020.126222.
[5] 金刚. 苹果酸-乳酸发酵细菌的多样性及其耐酒精分析[D].杨凌:西北农林科技大学,2015.
JIN G.Study on diversity and ethanol tolerance of malolactic bacteria[D].Ynagling:Northwest A&F University,2015.
[6] ZHANG Y M,ROCK C O.Membrane lipid homeostasis in bacteria[J].Nature Reviews Microbiology,2008,6(3):222-233.
[7] 王婷婷, 李春,李佳栋,等.乙醇胁迫对植物乳杆菌膜生理及黏附性的影响[J].食品科学,2019,40(18):63-69.
Wang T T,LI C,LI J D,et al.Effect of ethanol stress on membrane physiology and adhesion of Lactobacillus plantarum[J].Food Science,2019,40(18):63-69.
[8] LAN C H,MARECHAL P A,MAI L T,et al.Fluorescent probes to evaluate the physiological state and activity of microbial biocatalysts:A guide for prokaryotic and eukaryotic investigation[J].Biotechnology Journal,2008,3(7):890-903.
[9] VAN B D V H,ABEE T,TEMPELAARS M,et al.Short-and long-term adaptation to ethanol stress and its cross-protective consequences in Lactobacillus plantarum[J].Applied and Environmental Microbiology,2011,77(15):5 247-5 256.
[10] BRAVO-FERRADA M B,GÓMEZ-ZAVAGLIA A,SEMORILE L,et al.Effect of the fatty acid composition of acclimated oenological Lactobacillus plantarumon the resistance to ethanol[J].Letters in Applied Microbiology,2014,60(2):155-161.
[11] YANG X,TENG K,LI L,et al.Transcriptional regulator AcrR increases ethanol tolerance through regulating fatty acid synthesis in Lactobacillus plantarum[J].Applied and Environmental Microbiology,2019,85(22).DOI:10.1128/aem.01690-19.
[12] 赵红玉, 李华,刘龙祥,等.酒酒球菌胁迫适应性机制的研究进展[J].中国食品学报,2019,48(4):556-561.
ZHAO H Y,LI H,LIU L X.The research progress of stress adaptation mechanism of Oenococcus oeni[J].Journal of Chinese Institute of Food Science and Technology,2019,48(4):556-561.
[13] 李中超. 酒酒球菌SD-2a质膜H+-ATPase特性的研究[D].杨凌:西北农林科技大学,2009.
LI Z C.Researches on the characteristics of plasma membrane H+-ATPase of Oenococcus oeni SD-2a[D].Yangling:Northwest A&F University,2009.
[14] CAFARO C,BONOMO M G,SALZANO G.Adaptive changes in geranylgeranyl pyrophosphate synthase gene expression level under ethanol stress conditions in Oenococcus oeni[J].Journal of Applied Microbiology,2013,116(1):71-80.
[15] NICOLAOU S A,GAIDA S M,PAPOUTSAKIS E T.Exploring the combinatorial genomic space in Escherichia coli for ethanol tolerance[J].Biotechnology Journal,2012,7(11):1 337-1 345.
[16] VOLLMER W,BLANOT D,DE PEDRO M A.Peptidoglycan structure and architecture[J].Fems Microbiology Reviews,2008,32(2):149-167.
[17] YUAN Y,BI C,NICOLAOU S A,et al.Overexpression of the Lactobacillus plantarum peptidoglycan biosynthesis murA2 gene increases the tolerance of Escherichia coli to alcohols and enhances ethanol production[J].Applied Microbiology and Biotechnology,2014,98(19):8 399-8 411.
[18] OLGUÍN N,CHAMPOMIER-VERGES M,ANGLADE P,et al.Transcriptomic and proteomic analysis of Oenococcus oeni PSU-1 response to ethanol shock[J].Food Microbiology,2015,51:87-95.
[19] DIMOPOULOU M,HAZO L,DOLS-LAFARGUE M.Exploration of phenomena contributing to the diversity of Oenococcus oeni exopolysaccharides[J].International Journal of Food Microbiology,2012,153(1-2):114-122.
[20] CIEZACK G,HAZO L,CHAMBAT G,et al.Evidence for exopolysaccharide production by Oenococcus oeni strains isolated from non-ropy wines[J].Journal of Applied Microbiology,2010,108(2):499-509.
[21] COSTANTINI A,RANTSIOU K,MAJUMDER A,et al.Complementing DIGE proteomics and DNA subarray analyses to shed light on Oenococcus oeni adaptation to ethanol in wine-simulated conditions[J].Journal of Proteomics,2015,123:114-127.
[22] SALEMA M,LOLKEMA J S,SAN ROMÃO M V,et al.The proton motive force generated in Leuconostoc oenos by L-malate fermentation[J].Journal of Bacteriology,1996,178(11):3 127-3 132.
[23] GAO Y,LIU Y,SUN M,et al.Physiological function analysis of Lactobacillus plantarum Y44 based on genotypic and phenotypic characteristics[J].Journal of Dairy Science,2020,103:5 916-5 939.
[24] MARGALEF-CATALA M,FELIS G E,REGUANT C,et al.Identification of variable genomic regions related to stress response in Oenococcus oeni[J].Food Research International,2017,102:625-638.
[25] CONTRERAS A,RIBBECK M,GUTIÉRREZ G D,et al.Mapping the physiological response of Oenococcus oeni to ethanol stress using an extended genome-scale metabolic model[J].Frontiers in Microbiology,2018,9:291.
[26] ZHANG J,DU G C,ZHANG Y,et al.Glutathione protects Lactobacillus sanfranciscensis against freeze-thawing,freeze-drying,and cold treatment[J].Applied and Environmental Microbiology,2010,76(9):2 989-2 996.
[27] SAMAD A,JAMES A,WONG J,et al.Insulin protects pancreatic acinar cells from palmitoleic acid-induced cellular injury[J].Journal of Biological Chemistry,2014,289:23 582-23 595.
[28] CHU-KY S,TOURDOT-MARECHAL R,MARECHAL P-A,et al.Combined cold,acid,ethanol shocks in Oenococcus oeni:Effects on membrane fluidity and cell viability[J].Biochimica Et Biophysica Acta,2005,1717(2):118-124.
[29] LIN Y,ZHAO H Y,LIU L X,et al.Heterologous expression of the puuE from Oenococcus oeni SD-2a in Lactobacillus plantarum WCFS1 improves ethanol tolerance[J].Journal of Basic Microbiology,2019,59(11):1-9.
[30] MOHEDANO M D I L,RUSSO P,DE L R V,et al.A proteome reference map of the wine lactic acid bacteria Oenococcus oeni ATCC BAA-1163[J].Open Biology,2014,4(2):130-154.
[31] ZHAO W Y,KANG Z K.Advanced progress on adaptive stress response of Oenococcus oeni[J].Journal of Northeast Agricultural University,2013,20(1),91-96.
[32] PASSERINI D,LAROUTE,VALÉRIE,et al.New insights into Lactococcus lactis diacetyl-and acetoin-producing strains isolated from diverse origins[J].International Journal of Food Microbiology,2013,160(3):329-336.
[33] OLGUIN N,BORDONS A,REGUANT C.Influence of ethanol and pH on the gene expression of the citrate pathway in Oenococcus oeni[J].Food microbiology,2009,26(2):197-203.
[34] ZOMER A L,BUIST G,LARSEN R,et al.Time-resolved determination of the CcpA regulon of Lactococcus lactis subsp.cremoris MG1363[J].Journal of Bacteriology,2006,189(4),1 366-1 381.
[35] DÍEZ L,SOLOPOVA A,FERNÁNDEZ-PÉREZ R,et al.Transcriptome analysis shows activation of the arginine deiminase pathway in Lactococcus lactis as a response to ethanol stress[J].International Journal of Food Microbiology,2017,257:41-48.
[36] HEBERT E M,RAYA R R,DE GIORI G S.Nutritional requirements and nitrogen-dependent regulation of proteinase activity of Lactobacillus helveticus CRL 1062[J].Applied and Environmental Microbiology,2000,66(12):5 316-5 321.
[37] PAPADIMITRIOU K,ALEGRIA A,BRON P A,et al.Stress physiology of lactic acid bacteria[J].Microbiology and Molecular Biology Reviews,2016,80:837-890.
[38] ZOTTA T,PARENTE E,RICCIARDI A.Aerobic metabolism in the genus Lactobacillus:Impact on stress response and potential applications in the food industry[J].Journal of Applied Microbiology,2017,122:857-869.
[39] MAZZOLI R,PESSIONE E,DUFOUR M,et al.Glutamate induced metabolic changes in Lactococcus lactis NCDO 2118 during GABA production:Combined transcriptomic and proteomic analysis[J].Amino Acids,2010,39(3):727-737.
[40] MASIP L,VEERAVALLI K,GEORGIOU G.The many faces of glutathione in bacteria[J].Antioxidants & Redox Signaling,2006,8(5-6):753-762.
[41] CECCONI D,MILLI A,RINALDUCCI S,et al.Proteomic analysis of Oenococcus oeni freeze-dried culture to assess the importance of cell acclimation to conduct malolactic fermentation in wine[J].Electrophoresis,2009,30(17):2 988-2 995.
[42] MARGALEF-CATALÀ M,ARAQUE I,BORDONS A,et al.Genetic and transcriptional study of glutathione metabolism in Oenococcus oeni[J].International Journal of Food Microbiology,2017,242:61-69.
[43] MARGALEF-CATALÀ M,ARAQUE I,WEIDMANN S,et al.Protective role of glutathione addition against wine-related stress in Oenococcus oeni[J].Food Research International,2016,90:8-15.
[44] CEBRIÁN G,CONDÓN S,MAÑAS P.Heat resistance,membrane fluidity and sublethal damage in Staphylococcus aureus cells grown at different temperatures[J].International Journal of Food Microbiology,2019,289:49-56.
[45] VALERIANO V D,PARUNGAO-BALOLONG M,Kang D K.In vitro evaluation of the mucin-adhesion ability and probiotic of Lactobacillus mucosae LM1[J].Journal of pplied Microbiology,2014,117:485-497.
[46] GRANDVALET C,COUCHENEY F,BELTRAMO C,et al.CTSR is the master regulator of stress response gene expression in Oenococcus oeni[J].Journal of Bacteriology,2005,187:5 614-5 623.
[47] DARSONVAL M,JULLIAT F,MSADEK T,et al.CTSR,the master regulator of stress-response in Oenococcus oeni,is a heat sensor interacting with ClpL1[J].Frontiers in Microbiology,2018,9:3 135.
[48] ZHAO H,YUAN L,HU K,et al.Heterologous expression of ctsR from Oenococcus oeni enhances the acid-ethanol resistance of Lactobacillus plantarum[J].FEMS Microbiology Letters,2019,366(15).DOI:10.1093/femsle/fnz192.
[49] FREES D,SAVIJOKI K,VARMANEN P,et al.Clp ATPases and ClpP proteolytic complexes regulate vital biological processes in low GC,Gram-positive bacteria[J].Molecular Microbiology,2010,63(5):1 285-1 295.
[50] 王艳霞. 简单节杆菌乙醇胁迫条件下的抗逆机制研究[D].天津:天津科技大学,2015.
WANG Y X.Study on tolerance mechanism of Arthtrobacter simplex under ethanol stress[D].Tianjin:Tianjin University of Science and Technology,2015.
