生物胺降解乳酸菌的筛选与特性研究

为筛选出高效降解生物胺的优良乳酸菌,该研究以实验室前期筛选的41株乳酸菌作为研究对象,运用显色培养、高效液相色谱（HPLC）法对菌株生物胺产生和降解能力进行筛选,并对筛选出的菌株进行耐盐及耐酸实验。结果表明,筛选得到5株高效降解生物胺菌株,其中以植物乳杆菌（Lactobacillus plantarum）30的生物胺降解能力最好,其对尸胺、组胺、酪胺的降解率分别为62.42%、74.32%、89.97%。植物乳杆菌30能在含盐量0～9%和pH为4.5～8.5环境中较好的生长繁殖,该菌株无生物胺生成活性,并同时具备生物胺降解能力和耐盐耐酸能力,可作为蛋白质类发酵食品的发酵剂运用于食品中降低生物胺毒性。     

黄酒中不产生物胺乳酸菌的筛选及应用

为筛选不产生物胺的乳酸菌菌株,对黄酒发酵醪液及米浆水中的微生物进行培养及与分离纯化,发现3株菌不具有氨基酸脱羧酶活性,但具有一定的生物胺降解能力。使用黄酒发酵液培养该3株菌,发现在2.50%Vol的黄酒培养液中,3株菌能正常生长;在8.80%Vol黄酒培养液中,菌株5-4和8-3生长能力明显弱于14-2-1;在15.70%Vol黄酒培养液中,3株菌均受到严重抑制。菌株14-2-1生长速率最快,繁殖最旺,经鉴定为植物乳杆菌,同时菌株产酸能力较强,产酸速率也较快,表现出一定的优越性,应用于黄酒酿造中,能有效降低黄酒中生物胺的含量。     

高效降解生物胺乳酸菌的筛选、鉴定及特性研究

为获得高效降解生物胺的乳酸菌,以鱼露为试验原料,从鱼露中分离纯化并筛选具有高效降解4种常见生物胺活性的菌株,通过形态观察、碳源利用和分子生物学鉴定,该菌株,并研究其生长和生物胺降解特性。结果表明,共筛选得到8株生物胺降解菌株,其中最佳生物胺降解菌为FSCBAD033,该菌株被鉴定为发酵柠檬乳杆菌（Limosilactobacillus fermentum）。该菌株可以降解86.4%腐胺、78.5%尸胺、72.3%组胺和100%酪胺,且在含有前体氨基酸的培养基中不积累该四种生物胺。菌株FSCBAD033的最适生长温度、初始pH值和NaCl含量分别为40 ℃、6和3%,其在温度30～40 ℃、初始pH值5～7、NaCl含量不超过6%的范围内降解生物胺能力较高（四种生物胺降解率均＞50%）。     

Production of biogenic amines by lactic acid bacteria and bifidobacteria isolated from dairy products and beer

The aim was to monitor production of eight biogenic amines (BAs) (histamine, tyramine (TYR), tryptamine, putrescine, cadaverine (CAD), phenylethylamine, spermine and spermidine) by selected 81 lactic acid bacteria (LAB) strains: Lactobacillus, Lactococcus, Leuconostoc, Enterococcus, Pediococcus, Tetragenococcus and Bifidobacterium. The tested LAB and bifidobacteria were isolated from dairy products and beer. The decarboxylase activity of the micro‐organisms was studied in growth medium after cultivation. The activity was monitored by HPLC after the pre‐column derivatisation with dansylchloride. Fifty LAB showed decarboxylase activity. Thirty‐one strains produced low concentrations of CAD (≤10 mg L^?1). Almost 70% of beer isolates generated higher amounts of TYR (≤3000 mg L^?1). Most of the tested LAB demonstrated decarboxylase activity. The above micro‐organisms can contribute to the increase of content of BAs in dairy products or beer and thereby threaten food safety and health of consumers. Production of BAs even by the representatives of some probiotic strains (Bifidobacterium and Lactobacillus rhamnosus) was detected in this research. This study has also proved that contaminating LAB can act as sources of higher amounts of CAD and TYR in beer.     

乳酸菌产生的抑菌物质及其作用机制

乳酸菌是公认的食品级安全微生物,碳水化合物进行发酵的过程中,代谢产生包括蛋白质、多肽类物质、有机酸及其他的具有抑菌活性的物质。这些抑菌物质能够抑制食物中腐败菌及食源性致病菌的生长繁殖,但其自身不会对人体造成损害。乳酸菌能促进动物生长,调节胃肠道正常菌群、维持微生态平衡,从而改善胃肠道功能;提高食物消化率和生物效价;降低血清胆固醇,控制内毒素;抑制肠道内腐败菌生长:提高超氧化物歧化酶(superoxide dismutase,SOD)酶活力,消除人体自由基,具抗衰老、延年益寿作用;控制人体内毒素水平,保护肝脏并增强肝脏的解毒、排毒功能;提高机体免疫力等。本文对乳酸菌代谢过程中产生的具有抑菌活性的物质及这些物质的抑菌机制进行综述,以期为乳酸菌的研究提供一定的参考。     

The function of lactic acid bacteria and brine solutions on biogenic amine formation by foodborne pathogens in trout fillets

The influences of lactic acid bacteria and brine solutions on the biogenic amine formation by Staphylococcus aureus, Escherichia coli, Klebsiella pneumoniae, Enterococus faecalis, Pseudomonas aeruginosa, Listeria monocytogenes, Aeromonas hydrophila and Salmonella paratyphi A in fermented trout fillets were investigated. Fish fillets were divided into four groups, group 1 without any lactic acid bacteria inoculation, group 2 and group 3 with different salt concentration inoculated with lactic acid bacteria and food-borne pathogens, and group 4 inoculated with lactic acid bacteria and food-borne pathogens without a salt solution. The histamine content in trout fillets in group 4 was found to be more than 10 mg/100 g, while the other groups contained less than 7.5 mg/100 g. The highest tyramine production was found for group 1 and group 3, ranging from 3 to 18 mg/100 g. Lactic acid bacteria did not seem to play an important role on biogenic amine production by food borne pathogens, while adding brine solution on fillets has inhibitory effects on some of the biogenic amines.     

产细菌素乳酸菌在蔬菜发酵制品生物保鲜中的应用

生物保鲜（biopreservation）是当今食品保藏和食品安全研究的热点。近年来,大量的研究致力于细菌素和产细菌素菌种在食品生物保鲜中的应用策略。本文主要介绍最新的产细菌素乳酸菌（LAB）在蔬菜发酵制品中的应用,通过将产细菌素乳酸菌作为发酵菌剂（starter culture）、保护菌剂（protective culture）或共培养菌剂（co-culture）运用到蔬菜的发酵制作中,以稳定蔬菜发酵过程中微生物体系,控制腐败和病原菌的存活和生长。      

Effects of specific lactic acid bacteria species on biogenic amine production by foodborne pathogen

The influences of lactic acid bacteria (LAB) on biogenic amines formation by foodborne pathogens (FBP) were investigated. Biogenic amines production by single and mix cultures was tested in histidine decarboxylase broth. All of the mix cultures (LAB with FBP) inhibited significantly (P < 0.05) the ammonia accumulation except for Escherichia coli with Lactococcus lactic subsp. lactic and Lactobacillus plantarum. Although LAB with most of the pathogen showed considerably stimulation effects on putrescine, cadaverine, spermine, 2‐phenylethylamine, histamine (HIS), tyramine, trimethylamine, dopamine and agmatine (AGM), some of the LAB with pathogens showed poor inhibition effect on different amines formation. HIS production by Klebiella pneumonia was 0.16 mg L^?1, whereas HIS value in presence of Lb. plantarum increased to 30.92 mg L^?1. Consequently, LAB inhibition of the ammonium production by FBP is favourable, while the stimulation effects of LAB on biogenic amines formation by FBPs are not desirable for food industry.     

乳酸菌抗突变活性的研究进展

根据近年来国内外报道，对乳酸菌抗突变活性的研究进展进行了综述，并介绍了乳酸菌抗突变活性物质的分离、纯化及其研究方法。     

乳酸菌抗真菌生物防腐剂作用机理和前景展望

食品在储藏过程中易受霉菌及其产生的毒素的污染,严重危害人类健康。许多研究发现有些乳酸菌能够通过产生的有机酸、短肽、过氧化氢、以及其自身的吸附能力等抑制霉菌生长,吸附真菌毒素,以降低食品中霉菌及其毒素的含量,延长食品货架期。对乳酸菌的代谢产物及其抗真菌活性的深入研究表明,乳酸菌作为生物防腐剂具有良好的应用前景,有望成为安全的食品添加剂。     

基因工程改良乳酸菌发酵剂品质的研究进展

综述了近5年来利用基因工程技术改良乳酸菌发酵剂蛋白质水解能力、产生双乙酰能力、合成胞外多糖能力、抗杂菌病源菌污染能力4个方面研究的最新进展，并简要介绍了基因食品可能存在的不安全问题及解决方法。     

Amino acid decarboxylase activities and biogenic amine formation abilities of lactic acid bacteria isolated from shalgam

56 lactic acid bacteria were isolated during shalgam fermentation and identified as Lactobacillus spp. (51 isolates), Lactococcus spp. (3 isolates), Streptococcus sp. (one isolate), and Leuconostoc sp. (one isolate). 53 of all isolates decarboxylated both arginine and tyrosine, while others decarboxylated one of arginine or tyrosine. None of the isolates could decarboxylate histidine, ornithine, lysine, phenylalanine, or tryptophan. All isolates produced both agmatine (105.8–867.5 mg L^–1) and tyramine (24.5–649.7 mg L^–1). Although none of the isolates displayed ornithine decarboxylase activity, putrescine was produced (2.1–33.3 mg L^–1) by all isolates, except one Lactobacillus strain. Therefore, lactic acid bacteria seem to be responsible mainly for tyramine and agmatine formation during shalgam fermentation, as well as a small amount of putrescine.     

酱油变质微生物因素及乳酸菌在防腐中的应用

酱油是经微生物发酵制成的具有独特色、香、味的液体调味品。酱油中含有充足的营养物质,并且酱油发酵体系多为混菌体系,因此在酱油发酵、生产和贮藏过程中容易因污染腐败菌出现“生花”、变馊、胀袋、沉淀、浑浊等现象,导致酱油的腐败变质。该文详细阐述了酱油中存在的腐败微生物种类和由它们引起的酱油变质现象,以及通过发酵工艺优化、添加防腐剂和生物技术等手段防止酱油腐败的相应措施。最后概述了乳酸菌的抗菌代谢产物种类与抑菌特性,并讨论了乳酸菌在酱油防腐中的应用潜力,以期为开发保障酱油品质稳定和提升的方法提供经验和参考。     

Potential of wine-associated lactic acid bacteria to degrade biogenic amines

Some lactic acid bacteria (LAB) isolated from fermented foods have been proven to degrade biogenic amines through the production of amine oxidase enzymes. Since little is known about this in relation to wine micro-organisms, this work examined the ability of LAB strains (n = 85) isolated from wines and other related enological sources, as well as commercial malolactic starter cultures (n = 3) and type strains (n = 2), to degrade histamine, tyramine and putrescine. The biogenic amine-degrading ability of the strains was evaluated by RP-HPLC in culture media and wine malolactic fermentation laboratory experiments. Although at different extent, 25% of the LAB isolates were able to degrade histamine, 18% tyramine and 18% putrescine, whereas none of the commercial malolactic starter cultures or type strains were able to degrade any of the tested amines. The greatest biogenic amine-degrading ability was exhibited by 9 strains belonging to the Lactobacillus and Pediococcus groups, and most of them were able to simultaneously degrade at least two of the three studied biogenic amines. Further experiments with one of the strains that showed high biogenic amine-degrading ability (L. casei IFI-CA 52) revealed that cell-free extracts maintained this ability in comparison to the cell suspensions at pH 4.6, indicating that amine-degrading enzymes were effectively extracted from the cells and their action was optimal in the degradation of biogenic amines. In addition, it was confirmed that wine components such as ethanol (12%) and polyphenols (75 mg/L), and wine additives such as SO₂ (30 mg/L), reduced the histamine-degrading ability of L. casei IFI-CA 52 at pH 4.6 by 80%, 85% and 11%, respectively, in cell suspensions, whereas the reduction was 91%, 67% and 50%, respectively, in cell-free extracts. In spite of this adverse influence of the wine matrix, our results proved the potential of wine-associated LAB as a promising strategy to reduce biogenic amines in wine.     

抑菌活性乳酸菌的筛选及其抑菌物质的提取条件优化

从内蒙古东部地区发酵酸菜中分离的乳酸菌为供试菌株,以大肠杆菌和金黄色葡萄球菌为指示菌进行了抑菌活性筛选,并检测其抑菌谱。通过单因素和L₉（3⁴）正交实验确定抑菌活性物质的最佳提取条件,并应用于市售牛饲料中检测其抑菌效果。结果表明,在发酵酸菜中分离的14株供试乳酸菌中获得了1株抑菌活性较强且稳定的菌株S1-4,该菌株对大肠杆菌和金黄色葡萄球菌的抑菌圈直径分别达（19.69±0.71）mm和（20.59±0.26）mm,并呈现出较广的抑菌谱。菌株S1-4产抑菌活性物质的最佳提取条件:沉淀p H为5.0,乙醇浓度95%,沉淀时间8 h,料液比为1∶4（v∶v）,在此条件下,抑菌圈直径为39.53 mm,提高了23.18%。菌株S1-4发酵液添加到牛饲料中,可抑制饲料中细菌和霉菌的生长,并且随添加量的增加,抑菌效果明显增加。      

Screening selected strains of probiotic lactic acid bacteria for their ability to produce biogenic amines (histamine and tyramine)

The aim of this study was to investigate the production of biogenic amines (BA), histamine and tyramine by some probiotic lactic acid bacteria (LAB). Fifteen strains representing six LAB species were screened qualitatively by growing them in a decarboxylase medium. Quantitative analysis was carried out by HPLC analysis with direct derivatization of acid extracts. Lactobacillus casei (TISTR 389) and Lactobacillus delbrueckii subsp. bulgaricus (TISTR 895) were found to produce BA. The highest levels of histamine (1820.9 ± 3.5 mg L^?1) and tyramine (5486.99 ± 47.6 mg L^?1) formation were observed for the TISTR 389 strain, while TISTR 895 produced only histamine (459.1 ± 0.63 mg L^?1) in the decarboxylase broth. Biogenic amine potential was not observed for the Lactobacillus acidophilus, Lactobacillus lactis subsp. lactis, Lactococcus lactis subsp. lactis, and Lactobacillus plantarum strains studied. This study confirmed that BA formation is strain dependent and not related to the species. Therefore, careful screening for amino acid decarboxylase activity is recommended before selecting LAB as appropriate starter or probiotic strains in food and dairy industry.     

发酵乳中酵母菌和乳酸菌生长的相互影响

探讨了乳酸菌和酵母菌之间的相互作用。在发酵过程中,酿酒酵母对乳酸菌的生长有抑制作用。乳酸菌能促进酿酒酵母和马克思克鲁维酵母的生长。酿酒酵母和乳酸菌共同接种有利于保持产品冷藏期间活菌数的稳定,菌株之间可能存在共生作用。      

乳酸菌拮抗食源性致病菌的研究及应用进展

食品在生产加工、物流运输和贮存消费过程中均可能出现被食源性致病菌污染的风险,造成安全隐患,目前通过热加工、辐照、电解水和等离子体等方法来控制食品中食源性致病菌,但在食品感官、规模化应用和安全生产等方面存在部分缺点.乳酸菌因其丰富的生物活性常作为生物发酵剂和保鲜剂广泛应用于食品中,并且可在食品中拮抗致病菌.本文主要从竞争...     

Combating biofilms of foodborne pathogens with bacteriocins by lactic acid bacteria in the food industry

Most foodborne pathogens have biofilm-forming capacity and prefer to grow in the form of biofilms. Presence of biofilms on food contact surfaces can lead to persistence of pathogens and the recurrent cross-contamination of food products, resulting in serious problems associated with food safety and economic losses. Resistance of biofilm cells to conventional sanitizers urges the development of natural alternatives to effectively inhibit biofilm formation and eradicate preformed biofilms. Lactic acid bacteria (LAB) produce bacteriocins which are ribosomally synthesized antimicrobial peptides, providing a great source of nature antimicrobials with the advantages of green and safe properties. Studies on biofilm control by newly identified bacteriocins are increasing, targeting primarily onListeria monocytogenes, Staphylococcus aureus, Salmonella, and Escherichia coli. This review systematically complies and assesses the antibiofilm property of LAB bacteriocins in controlling foodborne bacterial-biofilms on food contact surfaces. The bacteriocin-producing LAB genera/species, test method (inhibition and eradication), activity spectrum and surfaces are discussed, and the antibiofilm mechanisms are also argued. The findings indicate that bacteriocins can effectively inhibit biofilm formation in a dose-dependent manner, but are difficult to disrupt preformed biofilms. Synergistic combination with other antimicrobials, incorporation in nanoconjugates and implementation of bioengineering can help to strengthen their antibiofilm activity. This review provides an overview of the potential and application of LAB bacteriocins in combating bacterial biofilms in food processing environments, assisting in the development and widespread use of bacteriocin as a promising antibiofilm-agent in food industries.     

乳酸菌抑制ACE及病原菌代谢产物研究进展

主要对乳酸菌及其发酵乳产品产生降血压的血管紧张素转换酶(ACE)抑制肽及乳酸菌消除肠道微生物降解氨基酸产生致癌因子的作用进行了阐述,表明了乳酸菌在降血压及抗癌方面具有巨大的应用前景。