乳酸菌遗传育种研究现状

乳酸菌是一大类发酵糖产生大量乳酸的细菌的通称 ,主要包括乳杆菌、双歧杆菌、乳球菌、链球菌、肠球菌、明串珠菌、片球菌、芽胞杆菌等属。乳酸菌在医药、工业、农业等与人类生活密切相关的重要领域有很高的应用价值 ,如乳杆菌、双歧杆菌、嗜热链球菌发酵的酸奶 ,应用于保健食品 ;植物乳杆菌应用于青贮饲料 ;乳杆菌、双歧杆菌等应用于临床医疗。但目前很多菌种都是野生型的 ,其某些性状、功能不太令人满意。因此 ,许多研究者通过微生物遗传育种来改良野生型菌株的某些遗传性状 ,以更适合开发利用其价值。1　传统的乳酸菌菌种改良方法1 1　…     

高效降解草酸乳酸菌的筛选

尿路结石70%~80%主要由草酸钙结晶构成。人体内的草酸一般通过肠道内微生物降解,经由粪便排出或在泌尿道吸收由尿液排出。本研究对市场上商品化的发酵乳制品、饮料和药品中的乳酸菌进行分离,得到37株菌,包括嗜热链球菌、保加利亚乳杆菌、干酪乳杆菌、鼠李糖乳杆菌、植物乳杆菌、嗜酸乳杆菌、动物双歧杆菌、长双歧杆菌、粪肠球菌、屎肠球菌和乳球菌,并检测这些菌株降解草酸的能力。结果提示,乳酸菌在体外能够有效的降低培养物中的草酸浓度,并筛选出了具有高效降解草酸能力的乳酸菌菌株。有望成为尿石症预防的新措施。     

乳酸发酵香芋饮料的研制

目的：探讨乳酸菌发酵制备香芋饮料的工艺条件。方法：通过正交实验得出发酵的最佳工艺条件。结果：保加利亚乳杆菌与嗜热链球菌最佳添加比例为1：1,发酵温度为42℃,发酵时间为36h,添加蔗糖量5％时饮料口味最佳。结论：通过乳酸菌发酵香芋汁可以制得保健型香芋饮料。     

两株乳酸菌的产酸性能及其对抗生素敏感性研究

从市售酸奶中分离出2株乳酸菌,经鉴定为嗜热链球菌(St)与保加利亚乳杆菌(Lb),并对其产酸性能及对抗生素敏感性进行了研究。结果表明:St与Lb 1∶1混合发酵效果优于单菌发酵;乳酸菌对4种抗生素类药物敏感性较弱,服用该类药物对人体肠道内乳酸菌的有益作用产生的影响较小。     

益生菌发酵银杏汁饮料的研究与开发

选用银杏果作为原料,通过植物乳杆菌,保加利亚乳杆菌以及嗜热链球菌进行发酵(其菌种比例为1∶1∶3)。主要研究银杏汁的发酵液浓度,饮料体系稳定方法以及发酵过程中的参数,如pH,温度以及活菌数等。通过对益生菌发酵银杏汁的感官及口感的检测,发现银杏果与水的比例为1∶10时最佳。为获得体系稳定的银杏汁,加入中温淀粉酶和中性蛋白酶水解。通过在不同温度下使用乳酸菌发酵银杏汁,得到最适宜银杏汁发酵的温度为40℃,发酵时间10 h,乳酸菌发酵银杏汁的pH趋于稳定,在3.47左右,初始活菌数为2×10~6cfu/mL,其最大活菌数为10 h时达到,为4.7×10~7cfu/mL,得到香味浓郁,质地细腻,酸味适中以及颜色乳黄的益生菌发酵银杏汁饮料产品。     

EZAL-MY96乳酸菌种菌株分离鉴定

目的：对引进法国罗地亚EZAL-MY96直投式酸奶发酵剂(DVS)进行菌株分离鉴定。方法：利用半选择性培养基进行发酵剂菌株分离,并采用糖发酵实验和RAPD指纹图谱进行鉴定。结果：EZAL-MY96中球菌的平板菌落与光镜显微观察、糖发酵实验和RAPD指纹图谱均只有1种情况,而杆菌均有2种情况。结论：从EZAL-MY96菌种中共分离到3株菌,其中1株鉴定为嗜热链球菌,1株为德氏乳杆菌保加利亚亚种,另1株为未知的乳杆菌。     

工业化生产格瓦斯的研究

选用保加利亚乳杆菌、乳酸乳球菌及产脱假丝酵母同于工业化格瓦斯生产。采用麦芽与焦香麦芽为原料,经保加利亚乳杆菌、乳酸乳球菌和产肮假丝酵母发酵生产格瓦斯,该产品香气浓郁,味道醇厚。     

应用DGGE和Real-time PCR分析酸菜发酵液中乳酸菌的动态变化

目的使用DGGE和实时荧光定量PCR分析酸菜发酵液中乳酸菌的动态改变。方法采集传统天然发酵1~8周的酸菜发酵液50mL,抽提基因组DNA,使用DGGE对乳酸菌菌群进行多样性、相似性研究和优势菌的鉴定,实时荧光定量PCR测定乳酸菌含量。结果发酵周期加长,乳酸菌的含量随之也逐渐增大。清酒乳杆菌是酸菜自然发酵过程中的优势菌型,鼠李糖乳杆菌主要存在于发酵初期,发酵的中期(3~5周)、后期(6~8周)明显减少,同时发酵后期植物乳杆菌成为优势菌并完成全部发酵过程。发酵周期延长后,香农多样性指数和丰富度较高,出现先下降后上升的趋势,在第7周达到最大值。结论在DNA水平上,DGGE和实时定量PCR检测了酸菜发酵液中乳酸菌的含量,进行菌群结构的动态分析,明确优势菌型,为实现酸菜标准化生产提供理论依据。     

嗜酸乳杆菌与嗜热链球菌共发酵互生机理的研究

目的:对嗜酸乳杆菌和嗜热链球菌共发酵时两者的互生作用机理进行研究。方法:以质量浓度100gL脱脂乳为培养基,将嗜酸乳杆菌主要代谢产物—氨基酸,如赖氨酸、精氨酸、缬氨酸分别以0.0083mgml、0.0036mgml、0.0053mgml的量加入含嗜热链球菌脱脂乳培养基中,40℃培养,测定凝乳时间;将嗜热链球菌的代谢产物-乳酸、甲酸分别为0.1332mgml和0.075mgml的量加入含嗜酸乳杆菌脱脂乳培养基中,37℃培养,测定其发酵乳的凝乳时间。结果:嗜热链球菌发酵乳凝乳时间由12h缩短到4h,pH为4.52～4.62,吉尔涅尔度为54.23～64.74°T;嗜酸乳杆菌发酵乳的凝乳时间由16h缩短为5h,pH为4.61～4.65;且嗜酸乳杆菌在CO2环境中发酵时,发酵时间明显缩短。结论:嗜酸乳杆菌和嗜热链球菌共发酵时具有互生关系。     

具有降胆固醇功能益生菌的筛选研究

目的通过体外实验从发酵制品及人体肠道内分离筛选出安全高效的降胆固醇乳酸菌,并研究其生理生化特性,为今后功能性乳制品的开发提供优良菌种。方法应用MRS．胆固醇培养基液体发酵法进行目的菌株筛选,并测定其耐酸及耐胆盐等能力。结果筛选出4株具有降胆固醇能力的乳酸菌,其降解率分别为DM8403163．1％、DM8403470．3％、DM850381．1％、DM8605663．1％;同时4株乳酸菌均表现出不同程度的耐酸及耐胆盐能力,其中DM86056能力最强,其他3株乳酸菌次之;经鉴定,DM84031为保加利亚乳杆菌、DM84034为嗜热链球菌、DM8503为詹氏乳杆菌、DN86056为屎肠球菌。结论经上述实验综合比较,DM86056降胆固醇能力比较强且耐酸及耐胆盐等能力也较强,因此有待于将其应用于动物体内进行深入研究。     

Cold shock response in Lactococcus lactis ssp. diacetylactis: a comparison of the protection generated by brief pre-treatment at less severe temperatures

Acquired freeze–thaw tolerance was investigated for Lactococcus lactis ssp. diacetylactis. Pre-treatment of microorganisms at less severe temperatures to initiate cold tolerance gave L. lactis ssp. diacetylactis improved cell viability after successive freezings and thawings. The ability of cells to survive freezing–thawing was dependent on factors experienced prior to freezing. Factors affecting lactic acid bacteria survival during freezing–thawing cycles include different diluents, growth phase, and cold temperatures. Viability experiments showed that this strain displaying cold shock cryotolerance had an improved survival capacity in stationary phase. The plasmid contents of lactic acid bacteria isolated from different types, strains DRC-2 and DRC-2C, were examined and compared with the plasmid contents of culture collection strains both before and after cold shock treatment. Using agarose gel electrophoresis, no obvious correlation between the cold shock response and the number of plasmids in the cell could be observed.     

Lactic acid bacteria as a cell factory: rerouting of carbon metabolism in Lactococcus lactis by metabolic engineering

Lactic acid bacteria display a relatively simple metabolism wherein the sugar is converted mainly to lactic acid. The extensive knowledge of metabolic pathways and the increasing information of the genes involved allows for the rerouting of natural metabolic pathways by genetic and physiological engineering. We discuss several examples of metabolic engineering of Lactococcus lactis for the production of important compounds, including diacetyl, alanine and exopolysaccharides.     

Ecology of lactic acid bacteria in Italian fermented sausages: isolation, identification and molecular characterization

In this study, the ecology of the lactic acid bacteria (LAB) of three naturally fermented sausages produced in the Friuli-Venezia-Giulia region, in the North East of Italy, was investigated. A total of 465 strains isolated from three fermentations were identified by molecular methods and 12 different species of LAB were detected. Lactobacillus curvatus and Lactobacillus sakei were the most numerous (67 and 353 strains isolated, respectively) and they were subjected to RAPD-PCR. Clusters containing strains isolated from different plants were observed, underlining a coherent population distribution in three different fermentations. However, we also observed clusters formed by strains isolated from a specific fermentation, only. This could be explained considering the different technologies and recipes used for the production in three plants. Ingredient composition, fermentation and maturation parameters could play an important role in the selection of specific populations adapted in a specific environment.     

Lactic acid production by mixed cultures of Kluyveromyces marxianus, Lactobacillus delbrueckii ssp. bulgaricus and Lactobacillus helveticus

Lactic acid production using Kluyveromyces marxianus (IFO 288), Lactobacillus delbrueckii ssp. bulgaricus (ATCC 11842) and Lactobacillus helveticus (ATCC 15009) individually or as mixed culture on cheese whey in stirred or static fermentation conditions was evaluated. Lactic acid production, residual sugar and cell biomass were the main features examined. Increased lactic acid production was observed, when mixed cultures were used in comparison to individual ones. The highest lactic acid concentrations were achieved when K. marxianus yeast was combined with L. delbrueckii ssp. bulgaricus, and when all the strains were used revealing possible synergistic effects between the yeast and the two lactic acid bacteria. The same synergistic effects were further observed and verified when the mixed cultures were applied in sourdough fermentations, proving that the above microbiological system could be applied in the food fermentations where high lactic acid production is sought.     

Metabolic flux analysis of lactic acid fermentation: effects of pH and lactate ion concentration

A detailed metabolic flux analysis for lactic acid production by Streptococcus lactis has been carried out. A metabolic reaction set was constructed for the metabolism of S. lactis. Fluxes through these reactions were estimated by using accumulation rates of biomass, product and consumption rates of the substrate, which were obtained through experiments. The changes in the flux movement are shown for different pHs and initial lactate concentrations of the medium. The analysis indicated that pH only affected the uptake rates of lactose, whereas lactate ion concentration influenced the movement of flux through the network.     

Novel sites in the p65 subunit of NF-kappaB interact with TFIIB to facilitate NF-kappaB induced transcription

The citM gene from Lactococcus lactis CRL264 was demonstrated to encode for an oxaloacetate decarboxylase. The enzyme exhibits high levels of similarity to malic enzymes (MEs) from other organisms. CitM was expressed in Escherichia coli, purified and its oxaloacetate decarboxylase activity was demonstrated by biochemical and genetic studies. The highest oxaloacetate decarboxylation activity was found at low pH in the presence of manganese, and the K_m value for oxaloacetate was 0.52 ± 0.03 mM. However, no malic activity was found for this enzyme. Our studies clearly show a new group of oxaloacetate decarboxylases associated with the citrate fermentation pathway in gram-positive bacteria. Furthermore, the essential catalytic residues were found to be conserved in all members of the ME family, suggesting a common mechanism for oxaloacetate decarboxylation.     

Modified electroporation protocol for Lactobacilli isolated from the chicken crop facilitates transformation and the use of a genetic tool

Isolates of Lactobacillus spp. from a collection of potentially probiotic strains isolated from the crops of broiler chickens were found to be non-electrotransformable using published techniques. One strain of Lactobacillus salivarius was shown to develop electrocompetence when an overnight culture was incubated in fresh medium. The effect was enhanced if glycine was incorporated into the fresh growth medium. When these modifications were applied to a number of other crop isolates of Lactobacillus spp., electrocompetence could be detected in approximately half the strains tested. Two temperature sensitive plasmid vectors that had been used for the genetic modification of other lactic acid bacteria were introduced into a crop strain of Lb. salivarius. Both showed temperature sensitivity at 42 °C and above but were relatively stable at 37 °C. The genetic tool harbouring an IS element allowed the delivery of the plasmid to multiple independent sites in the host chromosome. Harnessing such genetic tools will facilitate the future genetic analysis of the host bacterium.     

Study of the effects of temperature, pH, NaCl, and aw on the proteolytic and lipolytic activities of cheese-related lactic acid bacteria by quadratic response surface methodology

The individual and interactive effects of temperature, pH, NaCl, and a_w on the proteolytic and lipolytic activities of Lactobacillus delbrueckii subsp. bulgaricus B397, Lactococcus lactis subsp. lactis T12, and Lb. plantarum 2739 were studied by quadratic response surface methodology. The effects on enzyme activities depended on the interactions among the independent variables, type of activity, substrate and, especially, species. The proteinase activity of strains B397 and T12 was affected differently by pH as individual or interactive terms depending on the type of substrate _sl- or β-casein. The increase of NaCl concentration (2.5–7.5%) under cheese-like conditions had a negative effect on the proteinase activity of strain T12. The effect of NaCl was related to the corresponding decrease in a_w. Aminopeptidases N and A, iminopeptidase and endopeptidase of Lc. lactis subsp. lactis T12 were strongly inhibited by pH 5–6 and NaCl concentration higher than 3.75%. The negative effects of these independent variables was in several cases enhanced by their interaction and/or by the interaction with the lowest temperatures. In contrast, the same peptidases of Lb. plantarum 2739 retained a high activity under the very hostile environmental conditions. Iminopeptidase and especially endopeptidase activities of strain 2739 were stimulated slightly by NaCl at concentrations up to 5%. Lipase/esterase activity of Lb. delbrueckii subsp. bulgaricus B397 was markedly inhibited under cheese-like conditions.     

液质发酵食品中微生物群落及与乳酸菌间相互作用研究进展

液质发酵食品发酵过程中微生物组成复杂,复杂的微生物发酵体系会影响微生物的生长和代谢,继而改变微生物的群落结构与功能,最终影响液质发酵食品的品质。乳酸菌在食品发酵中对形成风味物质、提高营养价值、抑制腐败菌生长具有重要的作用。本文主要对近年来食醋、酱油和饮料酒等液质发酵食品中微生物群落及与乳酸菌间相互作用关系进行综述,了解液质发酵食品在发酵过程中微生物群落结构和群落中乳酸菌与其他微生物的相互作用类型,探讨乳酸菌在发酵过程中的功能以及乳酸菌与其他微生物之间的相互作用机制。