Inducing malolactic fermentation in Chardonnay musts and wines using different strains of Oenococcus oeni

Malolactic fermentations (MLF) were induced in a commercially prepared Washington State Chardonnay must to evaluate the influence of timing of inoculation and pre-culture conditions of Oenococcus oeni strains MCW, EQ-54, and WS-8. The must (pH 3.62, 21.5°Brix) was divided into lots and inoculated with Saccharomyces cerevisiae strain CY3079. Strains of O. oeni were pre-cultured by growing in diluted juice or by re-hydration of freeze-dried strains. Bacteria were inoculated into the musts before (Day 0) or after completion of the alcoholic fermentation (Day 22). Yeast populations exceeded 10⁷cfu/mL in all fermentations that proceeded to dryness. However, the viability of most strains of O. oeni quickly declined after inoculation regardless of the timing of inoculation or the strain used. MLF was induced in the wines inoculated with strains EQ-54 and WS-8 but not with MCW, and the rate depended on the time of inoculation. The method used to prepare bacterial starter cultures had no apparent influence on the completion of MLF. Values for volatile acidity were slightly higher (P< 0.05) in wines inoculated with O. oeni before alcoholic fermentation compared with those inoculated after alcoholic fermentation.     

Evidence of mixed wild populations of Oenococcus oeni strains during wine spontaneous malolactic fermentations

Two hundred and four bacterial isolates from Rioja red wines undergoing spontaneous malolactic fermentation (MLF) were studied. Bacterial species was determined both by microbiological identification methods and by specific PCR analysis. Oenococcus oeni was shown to be the predominant species (98.5% of total isolates). Pulsed field gel electrophoresis (PFGE) of chromosomal DNA digested with SfiI was used to differentiate individual strains of O. oeni. A wide variety of restriction digest patterns were detected, which indicated a rich biodiversity of indigenous strains. Most fermentations (37 out of 41) showed from 2 to 6 clones growing in the same tank. Five O. oeni strains were the most frequently found, appearing in more than three of the 13 studied wineries, and most times in combination with other less frequently found strains. PFGE was shown to be a suitable method for strain differentiation, for monitoring individual strains and determining which strains actually survive and carry out MLF. A high genotypic heterogeneity of wild O. oeni strains was demonstrated and 90% of the studied wines showed mixed populations of O. oeni strains during MLF.     

Characterisation of malolactic conversion by Oenococcus oeni to reduce the acidity of apple juice

The high concentration of malic acid is responsible for the acidity and sourness in apple juice. Bio‐conversion of malic acid to lactic acid through malolactic conversion (MC) in apple juice using Oenococcus oeni was investigated. When apple juice was inoculated with O. oeni (1 × 10⁶ CFU mL^?1), over 90% of malic acid was converted into lactic acid within 96 h at room temperature. When pH of apple juice was adjusted to 4.1 prior to inoculation, MC was completed within 60 h. MC was enhanced at a higher temperature (30°C) when compared with room temperature. The rate of MC was directly proportional to the number of bacteria added and MC was completed within 24 h at 1 × 10⁹ CFU mL^?1 initial cell density. MC occurred equally under aerobic and anaerobic conditions. The sensory analysis of partial MC‐applied juice when compared against control revealed potential for use of MC for manufacture of low‐acid apple juice.     

酒酒球菌在青梅汁中的生长及苹果酸乳酸发酵特性的研究

以青梅汁为原料,利用酒酒球菌的苹果酸-乳酸发酵（MLF）对青梅汁进行生物降酸的研究。结果表明:接种量为2.0×108CFU/mL,青梅汁的pH≥3.4时,MLF能正常进行,并使样品的酸度降低61.35%以上;接种量为2.6×107CFU/mL时,青梅汁的pH为3.6才能触发MLF,样品的酸度降低了77.60%;接种量为2.3×108CFU/mL,在pH3.6和4.0的青梅汁中,添加1.0g/100g的葡萄糖的样品,与不添加葡萄糖的样品相比,其酸度分别降低了27.04%和34.63%;在柠檬酸-柠檬酸钠缓冲体系中,酒酒球菌使体系酸度降低了26.40%,证实酒酒球菌可利用柠檬酸作为碳源,进行MLF。      

Acidity reduction in northern region berry juices by the malolactic bacterium Oenococcus oeni

Acidity of juices from northern berries was reduced by inoculating with a malolactic microorganism, Oenococcus oeni. The berries were white and black currant, bilberry, lingonberry, and, for comparison, an apple cultivar. Malic acid was first converted to lactic acid in all fermentations, while soluble sugars and citric acid remained unattacked. Upon exhaustion of malic acid, sugar and citric acid degradations were initiated simultaneously. Sequential utilization of substrates by O. oeni offers a basis for multitude compositional changes in acidic juices. Elimination of malic acid alone led to a noticeable reduction of acidic taste in these berry juices.     

酒类酒球菌新菌株苹果酸-乳酸发酵条件的研究

酒类酒球菌(Oenococcus oeni)普遍应用于葡萄酒生产中,它可以触发苹果酸-乳酸发酵,促进葡萄酒中的苹果酸转化为乳酸,降低总滴定酸,提高酒体生物稳定性,改善酒体口感。本文针对3株自主筛选的酒类酒球菌,研究了酒精度、pH、SO2浓度、发酵温度、接种量等因素对葡萄酒苹-乳发酵过程的影响。     

Release of glycosidically bound flavour compounds of Chardonnay by Oenococcus oeni during malolactic fermentation

Glycosidases, produced by Oenococcus oeni strain Lalvin EQ54 during malolactic fermentation (MLF) performed in a chemically defined wine (CDW) medium, contributed to the release of volatile aglycons from their glycosylated precursors, present in a Chardonnay wine glycosidic extract. The liberation of wine volatiles during MLF was limited by the low activity of these enzymes in this strain. Six different aglycons examined were 3-hydroxydamascone, alpha-terpineol, vanillin, methyl vanillate, 4-hydroxybenzoic acid and tyrosol. Using p-nitrophenyl synthetic substrates, it was shown that O. oeni Lalvin EQ54 has β-glucosidase, and limited α-l-rhamnopyranosidase and α-l-arabinofuranosidase activities. Release of aglycons from the Chardonnay wine glycosidic extract was increased when purified α-l-rhamnopyranosidase and α-l-arabinofuranosidase were added to the CDW medium together with the malolactic bacteria culture. The results obtained confirmed that O. oeni has the necessary glycosidases for the sequential liberation of the disaccharide sugars from wine glycosides. The rate of MLF proceeded much faster in the CDW supplemented with the Chardonnay wine glycoside extract (8 days compared to 20 days), even though the bacterial growth was unaffected.     

Induction,purification and characterization of malolactic enzyme from Oenococcus oeni SD-2a

The aim of this study was to purify a malolactic enzyme (MLE) from Oenococcus oeni (O. oeni) strain and determine its properties in detail. O. oeni SD-2a was cultivated in the ATB broth supplemented with 7 g/L l-malic acid for harvesting the cells. After harvest, the cells were washed and disrupted for purification of MLE. MLE was purified from the supernatant of the disrupted cells through protamine sulfate precipitation, anion exchange chromatography and gel filtration chromatography. The purified MLE was identified using mass spectrometry. The MLE was purified by 43-fold with a yield of 0.42 % and possessed a specific activity of 419.2 U/mg. The purified enzyme with a nominal molecular mass of 59 kDa and a theoretical pI of 4.76 exhibited a maximum enzyme activity at 35 °C and pH 6.0, which retained over 50 % of its initial activity in the presence of 14 % (v/v) ethanol. Mn²⁺ was proven to be the most effective divalent cation to promote enzyme activity. Under the conditions of temperature 30 °C and pH 6.0, the K _m and V _max of MLE on l-malic acid were 12.5 × 10^?3 M and 43.86 μmol/(min × mg), respectively. Moreover, the purified enzyme exhibited a higher stability with 0.1 M NaCl in addition and had a half-life of 30 days at 4 °C.     

A survey of glycosidase activities of commercial wine strains of Oenococcus oeni

Lactic acid bacteria play an important role in wine-making by undertaking the malolactic fermentation, yet little information is available on other aspects of their physiology, such as their profile of external enzymatic activities. In this study we sought evidence for the existence and action of glycosidase enzymes in wine isolates of Oenococcus oeni. This group of enzymes is of interest because of their potential for liberation of grape-derived aroma compounds from their natural glycosylated state. This comprehensive study reveals that these bacteria produce glycosidases that might be important in wine-making. Strains did not necessarily hydrolyse all substrates tested, but rather were grouped according to substrate specificity. Thus a subset comprising strains 2, 5 and 16 possessed high cumulative activities against beta-d- and alpha-d-glucopyranoside substrates, while a group comprising strains 4, 21 and 22 was noted for superior hydrolysis of beta-d-xylopyranoside, alpha-l-rhamnopyranoside and alpha-l-arabinofuranoside substrates. Key physico-chemical inhibitors of analogous systems from other microorganisms were seen to produce variable responses across the strains investigated here. Accordingly, several strains retained significant hydrolytic activity at typical wine pH values ( approximately 3.0-4.0), residual glucose and fructose contents (up to 20 g/L), and ethanol contents (up to 12%). These findings highlight the potential of O. oeni as a useful alternative source of glycosidase enzymes for use in wine-making.     

RNA fingerprinting analysis of Oenococcus oeni strains under wine conditions

Oenococcus oeni is a lactic acid bacterium of economic interest used in winemaking. This bacterium is the preferred species for malolactic fermentation (MLF) due its adaptability to the chemically harsh wine environment. MLF enhances the organoleptic properties and ensures deacidification of wines.     

The effects of freezing and freeze-drying of Oenococcus oeni upon induction of malolactic fermentation in red wine

Summary The use of Oenococcus oeni starter cultures for the induction of malolactic fermentation (MLF) in wine permits control over the timing of the process and the quality of the wine. Successful inoculation of bacterial starter cultures into wine depends on the selection of suitable strains and on the preparation and conservation of those cultures. Medium for Leuconostoc oenos (MLO) is the best medium for easy and rapid growth of O. oeni cultures under laboratory controlled conditions for isolation and identification. However, this study showed that O. oeni cells inoculated in MLO failed to induce MLF in wine while cells grown in Medium of Preculture (MP) or wine, stored at −20 °C or freeze-dried retained the ability to induce MLF when inoculated in wine. Our results suggest that the use of freeze-dried cultures of O. oeni previously grown in MP is the best choice for industrial application.     

Prevalent lactic acid bacteria in cider cellars and efficiency of Oenococcus oeni strains

Malolactic fermentation (MLF) is an important step in cider production in order to allowing for improvement of microbiological stability and organoleptic characteristics of cider. Induction of this fermentation by using starter cultures enables a better control over this bioprocess, but although it is a common practice in winemaking, starters specifically focussed for cider MLF are not yet commercially available. Proper starter cultures need to present the ability to degrade l-malic acid conferring pleasing sensory characteristics while avoiding toxicological risks. In this work, lactic acid bacteria (LAB) were first isolated from MLF industrial cider samples, obtained in a cellar in the main cider-producing region of Spain, Asturias. Isolates, identified by molecular tools, belonged to the Lactobacillus brevis and Oenococcus oeni species. After a phylogenetic analysis, representative strains of both identified species were evaluated in order to determine their fermentation capacity, showing O. oeni the best behaviour in this cider fermentation, as previously demonstrated for wine in the literature. Consequently, and with the aim to test the influence at strain level, selection of O. oeni isolates as starters for cider fermentation has been undergone. In order to check the influence of geography over biodiversity, O. oeni strains from six different industrial cellars representing the distinct producing areas in the region (located in a ratio of 30 km) were analyzed by using a specific RAPD method. In this way, isolates were typed in five distinct groups, mainly corresponding to each producing area. All strains isolated from the same cellar showed the same RAPD profile revealing the significance of geographical origin in the indigenous cider LAB. Molecular tools were applied to reject those isolates exhibiting presence of genes related to organoleptic spoilage (exopolysaccharides and acrolein production) or food safety (biogenic amine production), as key selection criteria. Representative strains of each of the five O. oeni RAPD groups were tested as pure cultures to evaluate their technological utility for cider production. Experimental data of malic acid degradation and cell concentration obtained were fitted to previously selected kinetic models aimed to optimization and prediction of bioprocess performance. Four strains revealed as suitable potential starter cultures for conducting MLF in cider production.     

Phenotypic and genotypic characterization of Oenococcus oeni strains isolated from Italian wines

A phenotypic and genotypic characterization of 84 Oenococcus oeni isolates from Italian wines of different oenological areas was carried out. Numerical analysis of fatty acid profiles grouped the isolates into two clusters at low level of similarity (63%), the minor cluster containing seven isolates besides the type and the reference strains. Forthy-eight O. oeni isolates, representative of the two clusters, showed no differences in their metabolic properties (heterolactic fermentation pattern, citrate degradation capability and formation of some secondary metabolites). Moreover, the analysis of species-specific randomly amplified polymorphic DNA and 16S-23S rDNA intergenic spacer region polymorphism as well as the sequence-specific separation of V3 region from 16S rDNA by denaturing gradient gel electrophoresis demonstrated a substantial homogeneity among the isolates. On the basis of ApaI Pulsed Field Gel Electrophoresis (PFGE) restriction patterns, the 84 isolates were grouped into five different clusters at 70% similarity, but no correlation with the phenotypic groups could be demonstrated. However, by combining phenotypic and genotypic data, the 84 O. oeni isolates grouped into eight phenotypic-genotypic combined profiles and a relationship between the origin of the isolates and their combined profile became evident, so that a sort of strain specificity can be envisaged for each wine-producing area.     

Transport of glutamate in Oenococcus oeni 8403

The transport of L-glutamate in Oenococcus oeni 8403 is energy dependent. It could be activated either by carbohydrate or arginine metabolism, and it was shown to be stimulated by L-malic acid at low pH values. Transport was optimal at pH 7.0. The apparent affinity constants for transport (KT) was 0.98 microM at pH 7.0. L-glutamate uptake was inhibited by glutamine, asparagine and L-aspartate.     

酒酒球菌（Oenococcus oeni）相关生物组学研究进展

酒酒球菌（Oenococcus oeni）是触发葡萄酒苹果酸-乳酸发酵的主要微生物,而苹果酸-乳酸发酵有利于提高葡萄酒品质,为了进一步提高酒酒球菌在葡萄酒酿造工业中的应用,通过各种生物组学方法来探究酒酒球菌的生物调节和代谢体系是必要的。本文对不同生物组学的研究手段进行汇总,并对其在酒酒球菌相关研究中的应用进行归纳和展望。     

酒酒球菌arcABC基因簇的检测

采用PCR技术和气相色谱-质谱联用方法对西北农林科技大学葡萄酒学院保藏的50株酒酒球菌的arcABC基因簇进行检测,以确定其产生氨基甲酸乙酯的特性。结果显示：所有菌株均含有arcA、arcB和arcC基因,即arcABC基因簇;在添加精氨酸的模拟酒培养基中培养酒酒球菌30d后,通过气相色谱-质谱联用方法能够检测出微量的氨基甲酸乙酯;说明这50株酒酒球菌都具有产生氨基甲酸乙酯的能力。