Quantification of glycosidase activities in selected yeasts and lactic acid bacteria

Using a model system, the activities of α-L-arabinofuranosidase, β-glucosidase, and α-L-rhamonopyranosidase were determined in 32 strains of yeasts belonging to the genera Aureobasidium, Candida, Cryptococcus, Hanseniaspora, Hansenula, Kloeckera, Metschnikowia, Pichia, Saccharomyces, Torulaspora and Brettanomyces (10 strains); and seven strains of the bacterium Leuconostoc oenos. Only one Saccharomyces strain exhibited β-glucosidase activity, but several non-Saccharomyces yeast species showed activity of this enzyme. Aureobasidium pullulans hydrolyzed α-L-arabinofuranoside, β-glucoside, and α-L-rhamnopyranoside. Eight Brettanomyces strains had β-glucosidase activity. Location of enzyme activity was determined for those species with enzymatic activity. The majority of β-glucosidase activity was located in the whole cell fraction, with smaller amounts found in permeabilized cells and released into the growth medium. Aureobasidium pullulans hydrolyzed glycosides found in grapes. Received 02 February 1999/ Accepted in revised form 26 June 1999     

Screening of Lactobacillus spp. and Pediococcus spp. for glycosidase activities that are important in oenology

AIMS: To assess glycosidase activities from a range of Lactobacillus and Pediococcus species and characterize these activities under conditions pertinent to the wine industry. METHODS AND RESULTS: Lactic acid bacteria were cultured in MRS broth supplemented with apple juice before being harvested, washed and assayed for glycosidase activity using p-nitrophenol-linked substrates. All strains exhibited a detectable capacity for the hydrolysis of the beta- and alpha-d-glucopyranosides. The magnitude of these activities and their response to the physico-chemical parameters investigated varied in a strain-dependent manner. The use of an assay buffer with a pH below 4 generally resulted in a reduced hydrolysis of both substrates while temperature optima ranged between 35 and 45 degrees C. The effect of the inclusion of ethanol in the assay buffer (up to 12%, v/v) ranged from near complete inhibition to increases in activity approaching 80%. With the clear exception of a single strain, glucose and fructose (0.1-20 g l(-1)) acted as inhibitors. An assessment of glycosidase activity during simultaneous exposure to glucose and ethanol at a pH of 3.5 suggested that ethanol decreased loss of activity under these wine-like conditions. CONCLUSIONS: Lactobacillus spp. and Pediococcus spp. possess varying degrees of beta- and alpha-d-glucopyranosidase activities, which in turn are influenced differently by exposure to ethanol and/or sugars, temperature and pH. Several strains appeared suited for further evaluation under winemaking conditions. SIGNIFICANCE AND IMPACT OF THE STUDY: This work highlights the fact that strains of Lactobacillus and Pediococcus have the potential to influence the glycoside composition of wine. Tailoring of wine may therefore be possible through selective application of strains or enzymatic extracts thereof.     

New ways of selecting lactic acid bacteria for biotechnological processes

Summary Illustrated by the selection of lactic acid bacteria to be used as biological ensilage agents, new methods are introduced; they are practicable in microtitre plate dimensions by means of an automatic analysing system. According to the test setting, statements can be made on the acidifiability, the inhibition effect on contaminants and the growth under different milieu conditions. Of 126 strains tested 20 satisfied screening criteria.     

Perspectives of engineering lactic acid bacteria for biotechnological polyol production

Polyols are sugar alcohols largely used as sweeteners and they are claimed to have several health-promoting effects (low-caloric, low-glycemic, low-insulinemic, anticariogenic, and prebiotic). While at present chemical synthesis is the only strategy able to assure the polyol market demand, the biotechnological production of polyols has been implemented in yeasts, fungi, and bacteria. Lactic acid bacteria (LAB) are a group of microorganisms particularly suited for polyol production as they display a fermentative metabolism associated with an important redox modulation and a limited biosynthetic capacity. In addition, LAB participate in food fermentation processes, where in situ production of polyols during fermentation may be useful in the development of novel functional foods. Here, we review the polyol production by LAB, focusing on metabolic engineering strategies aimed to redirect sugar fermentation pathways towards the synthesis of biotechnologically important sugar alcohols such as sorbitol, mannitol, and xylitol. Furthermore, possible approaches are presented for engineering new fermentation routes in LAB for production of arabitol, ribitol, and erythritol.     

产生物胺乳酸菌的筛查与检测

目的对上海市场上食品和药品中分离出的20株乳杆菌,13株链球菌,3株乳球菌和3株肠球菌的产生物胺能力进行检测,以揭示其潜在的安全性问题。方法检测的生物胺共包括6种：分别为酪胺、精胺、尸胺、组胺、腐胺和色胺。利用添加了前体氨基酸的氨基酸脱羧酶筛选培养基对各菌株的产胺能力进行初筛,通过培养基中指示剂的颜色变化判定产胺能力。结果在检测的39株菌中,8株菌具有产酪胺的能力,7株菌具有产精胺的能力,1株菌具有产组胺的能力,1株菌具有产腐胺的能力。尤其是精胺和酪胺的产量较为引人关注。结论生物胺的危害水平取决于个体解毒的能力,但在筛选食品药品用菌株时应运用规范的方法来检测其产生物胺的能力,以保障相应食品药品的安全问题。     

抗灰葡萄孢霉菌乳酸菌的筛选

从80株乳酸菌中筛选出45株具有抗灰葡萄孢霉菌活性的乳酸菌菌株,其中10株具有较强抗灰葡萄孢霉菌活性。对这10株乳酸菌菌株的抗植物致病真菌谱进行了研究,这10株乳酸菌对番茄早疫病菌,甜瓜疫霉菌,甜瓜枯萎病菌,苹果炭疽病菌的生长均有较强的抑制作用。其中1株具有广谱抗植物致病真菌活性的乳酸菌菌株BX6-4为植物乳杆菌。经番茄离体叶片接种试验发现,植物乳杆菌BX6-4的发酵液能够在体外强烈地抑制灰葡萄孢霉菌的生长。     

Genome analysis of lactic acid bacteria in food fermentations and biotechnological applications

Lactic acid bacteria are an important group of microorganisms, several of which are used in fermented food processes. Lactococcus lactis is a non-pathogenic, non-invasive and non-colonising gram-positive lactic acid bacterium, the genome sequence of which has been established. A great deal is known about the genetics, vectors, gene expression systems and protein secretion apparatus of this bacterium. Recently, recombinant strains of L. lactis have been developed that might provide in vivo delivery of cytokines and specific antigens across mucosal surfaces to the immune system of animals.     

具有拮抗空肠弯曲杆菌能力鸡源乳酸菌的筛选及特性

【目的】从鸡粪中筛选具有拮抗空肠弯曲杆菌能力的乳酸菌,研究其肠道益生特性,探讨其对空肠弯曲杆菌鞭毛毒力因子的影响。【方法】利用牛津杯法测定40株鸡粪源乳酸菌菌株的抑菌活性以确定抑菌性能好的菌株,利用16S r RNA基因分析进行菌株鉴定,采用HT-29细胞测定菌株的细胞粘附能力,通过模拟胃肠液实验分析菌株对胃肠道环境的耐受性,利用扫描电镜分析乳酸菌无细胞提取物对空肠弯曲杆菌鞭毛毒力因子的影响。【结果】从鸡粪中分离得到40株菌株,进一步筛选得到X13、X14和G20等3株拮抗空肠弯曲杆菌能力较强的菌株,经16S r RNA基因序列分析分别鉴定为罗伊氏乳杆菌、唾液乳杆菌和鸡乳杆菌;HT-29细胞粘附实验表明X13、X14及G20的粘附指数分别为11.5、20.3和14.3个/细胞,均具有良好的粘附能力;3株乳酸菌对人工胃肠液均具有良好的耐受性;扫描电镜观察表明,与对照组相比,3株纯培养乳酸菌无细胞提取物均能抑制空肠弯曲杆菌鞭毛毒力因子的合成。【结论】从鸡粪中筛选得到了3株能有效抑制空肠弯曲杆菌生长并能抑制其鞭毛合成的乳酸菌,有望作为拮抗性饲用益生菌用于控制禽畜的空肠弯曲杆菌感染。     

Screening of species-specific lactic acid bacteria for veal calves multi-strain probiotic adjuncts

The selection of promising specific species of lactic acid bacteria with potential probiotic characteristics is of particular interest in producing multi species-specific probiotic adjuncts in veal calves rearing. The aim of the present work was to select and evaluate in?vitro the functional activity of lactic acid bacteria, Bifidobacterium longum and Bacillus coagulans strains isolated from veal calves in order to assess their potential use as multi species-specific probiotics for veal calves. For this purpose, bacterial strains isolated from faeces collected from 40 healthy 50-day-calves, were identified by RiboPrinter and 16s rRNA gene sequence. The most frequent strains belonged to the species B. longum, Streptococcus bovis, Lactobacillus animalis and Streptococcus macedonicus. Among these, 7 strains were chosen for testing their probiotic characteristics in?vitro. Three strains, namely L. animalis SB310, Lactobacillus paracasei subsp. paracasei SB137 and B. coagulans SB117 showed varying individual but promising capabilities to survive in the gastrointestinal tract, to adhere, to produce antimicrobial compounds. These three selected species-specific bacteria demonstrated in?vitro, both singularly and mixed, the functional properties needed for their use as potential probiotics in veal calves.     

Screening and typing of Patagonian wine yeasts for glycosidase activities

AIMS: The purpose of this study was to select autochthonous glycosidase producer yeasts with potential use in industrial production of Patagonian red wines. METHODS AND RESULTS: The study was carried out in oenological autochthonous yeasts from Comahue region (Argentinean North Patagonia). A set of screenable yeast phenotypic characteristics indicative of their potential usefulness in more aromatic red wine production was defined and tested in both, Saccharomyces and non-Saccharomyces populations. Twelve isolates showing six different glycosidase phenotypes were selected and they were characterized at species and strain levels using molecular methods. A close correlation between molecular and phenotypic characteristics was observed. Five strains belonging to Candida guilliermondii, C. pulcherrima and Kloeckera apiculata with highest constitutive beta-glucosidase activity levels without anthocyanase activity were discriminated. Some of them also showed constitutive beta-xylosidase and inductive alpha-rhamnosidase activities. CONCLUSIONS: The extension of the selection of oenological yeast to non-Saccharomyces species provided strains possessing novel and interesting oenological characteristics which could have significant implications in the production of more aromatic young red wine. SIGNIFICANCE AND IMPACT OF THE STUDY: As these non-Saccharomyces are indigenous to wine, they can be used in mixed starters at the beginning or as pure cultures at the end fermentation to contribute in enhancing the wine nuance that is typical of this specific area.     

Screening and selection of lactic acid bacteria strains suitable for ensiling grass

AIM: Lactic acid bacteria (LAB) strains shown to have broad-spectrum antimicrobial activity were screened for potential as grass silage inoculants. The strains capable of rapidly lowering the pH of the grass matrix and with low proteolytic activity were assessed in laboratory-scale silos in a grass matrix containing natural microbial flora. METHODS AND RESULTS: Screening of nine candidate strains was performed first in a grass extract medium. The four most promising strains were selected on the basis of growth rate in the medium, capacity to reduce pH and ability to limit the formation of ammonia-N. The efficiency of the selected strains was further assessed in a laboratory-scale ensiling experiment. Untreated (no additive) and formic acid served as controls. All tested inoculants improved silage quality compared with untreated. With one exception (Pediococcus parvulus E315) the fermentation losses in the inoculated silages were even lower than in the acid-treated control silage. Pure lactic acid fermentation was obtained in the timothy-meadow fescue silage with all inoculants. The results obtained in the ensiling experiments were consistent with those of the screening procedure, which appeared to predict correctly the potential of LAB as silage inoculants. The strains with a low ammonia production rate in the grass extract medium behaved similarly in the silage. Especially in this respect the strain Lactobacillus plantarum E76 was superior to the other candidates. CONCLUSIONS: The screening method using grass extract proved to be useful in strain selection. SIGNIFICANCE AND IMPACT OF THE STUDY: The rapid screening method developed for the LAB strains provides a useful tool for more systematic product development of commercial inoculant preparations. Time consuming and laborious ensiling experiments can be limited only to the most promising strains.     

Antagonistic activities of lactic acid bacteria in food and feed fermentations

Abstract Many factors contribute to a successful natural fermentation of carbohydrate-rich food and feed products. Metabolic activities of lactic acid bacteria (LAB) play a leading role. Their ability to rapidly produce copious amounts of acidic end products with a concomitant pH reduction is the major factor in these fermentations. Although their specific effects are difficult to quantitate, other LAB metabolic products such as hydrogen peroxide and diacetyl can also contribute to the overall antibiosis and preservative potential of these products. The contribution of bacteriocins is also difficult to evaluate. It is suggested that they may play a role in selecting the microflora which initiates the fermentation. Bacteriocins are believed to be important in the ability of LAB to compete in non-fermentative ecosystems such as the gastro-intestinal tract. During the past few decades interest has arisen in the use of the varied antagonistic activities of LAB to extent the shelf-life of protein-rich products such as meats and fish. Recent findings indicate that the newly discovered Lactobacillus reuteri reuterin system may be used for this purpose.     

Antagonistic activities of lactic acid bacteria in food and feed fermentations

Many factors contribute to a successful natural fermentation of carbohydrate-rich food and feed products. Metabolic activities of lactic acid bacteria (LAB) play a leading role. Their ability to rapidly produce copious amounts of acidic end products with a concomitant pH reduction is the major factor in these fermentations. Although their specific effects are difficult to quantitate, other LAB metabolic products such as hydrogen peroxide and diacetyl can also contribute to the overall antibiosis and preservative potential of these products. The contribution of bacteriocins is also difficult to evaluate. It is suggested that they may play a role in selecting the microflora which initiates the fermentation. Bacteriocins are believed to be important in the ability of LAB to compete in non-fermentative ecosystems such as the gastrointestinal tract. During the past few decades interest has arisen in the use of the varied antagonistic activities of LAB to extend the shelf-life of protein-rich products such as meats and fish. Recent findings indicate that the newly discovered Lactobacillus reuteri reuterin system may be used for this purpose.     

The ratio of L-form to D-form of lactic acid as a criteria for the identification of lactic acid bacteria

Stereoisomers of lactic acid produced by lactic acid bacteria were determined by HPLC by using an enantiomeric resolution column. In general, the ratios of L-form to D-form (the type of stereoisomer) obtained were compared with those in references. Values of the type of stereoisomer of lactic acid were discussed from the viewpoint of identification of lactic acid bacteria.     

Evaluation of lactic acid bacteria autolysate for the supplementation of lactic acid bacteria fermentation

At the end of culture in a carbon-limited medium, i.e. the best conditions for subsequent autolysis, lactic acid bacteria were harvested and autolysed at 50 °C for 24 h. The resulting supernatant was then successfully tested as a substitute for industrial yeast extract for the supplementation of whey permeate and its conversion into lactic acid: for almost equivalent total nitrogen amounts of both supplements, the same growth and production rates were recorded.     

Using heme as an energy boost for lactic acid bacteria

Lactic acid bacteria (LAB) are a phylogenetically diverse group named for their main attribute in food fermentations, that is, production of lactic acid. However, several LAB are genetically equipped for aerobic respiration metabolism when provided with exogenous sources of heme (and menaquinones for some species). Respiration metabolism is energetically favorable and leads to less oxidative and acid stress during growth. As a consequence, the growth and survival of several LAB can be dramatically improved under respiration-permissive conditions. Respiration metabolism already has industrial applications for the production of dairy starter cultures. In view of the growth and survival advantages conferred by respiration, and the availability of heme and menaquinones in natural environments, we recommend that respiration be accepted as a part of the natural lifestyle of numerous LAB.