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1.
Engineering metabolic highways in Lactococci and other lactic acid bacteria   总被引:13,自引:0,他引:13  
Lactic acid bacteria (LAB) are widely used in industrial food fermentations and are receiving increased attention for use as cell factories for the production of food and pharmaceutical products. Glycolytic conversion of sugars into lactic acid is the main metabolic highway in these Gram-positive bacteria and Lactococcus lactis has become the model organism because of its small genome, genetic accessibility and simple metabolism. Here we discuss the metabolic engineering of L. lactis and the value of metabolic models compared with other LAB, with a particular focus on the food-grade production of metabolites involved in flavour, texture and health.  相似文献   

2.
The present paper provides an overview on the use of probiotic organisms as live supplements, with particular emphasis on Lactobacillus acidophilus and Bifidobacterium spp. The therapeutic potential of these bacteria in fermented dairy products is dependent on their survival during manufacture and storage. Probiotic bacteria are increasingly used in food and pharmaceutical applications to balance disturbed intestinal microflora and related dysfunction of the human gastrointestinal tract. Lactobacillus acidophilus and Bifidobacterium spp. have been reported to be beneficial probiotic organisms that provide excellent therapeutic benefits. The biological activity of probiotic bacteria is due in part to their ability to attach to enterocytes. This inhibits the binding of enteric pathogens by a process of competitive exclusion. Attachment of probiotic bacteria to cell surface receptors of enterocytes also initiates signalling events that result in the synthesis of cytokines. Probiotic bacteria also exert an influence on commensal micro-organisms by the production of lactic acid and bacteriocins. These substances inhibit growth of pathogens and also alter the ecological balance of enteric commensals. Production of butyric acid by some probiotic bacteria affects the turnover of enterocytes and neutralizes the activity of dietary carcinogens, such as nitrosamines, that are generated by the metabolic activity of commensal bacteria in subjects consuming a high-protein diet. Therefore, inclusion of probiotic bacteria in fermented dairy products enhances their value as better therapeutic functional foods. However, insufficient viability and survival of these bacteria remain a problem in commercial food products. By selecting better functional probiotic strains and adopting improved methods to enhance survival, including the use of appropriate prebiotics and the optimal combination of probiotics and prebiotics (synbiotics), an increased delivery of viable bacteria in fermented products to the consumers can be achieved.  相似文献   

3.
Citrate metabolism in lactic acid bacteria   总被引:20,自引:0,他引:20  
Abstract: Citrate metabolism plays an important role in many food fermentations involving lactic acid bacteria. Since citrate is a highly oxidized substrate, no reducing equivalents are produced during its degradation, resulting in the formation of metabolic end products other than lactic acid. Some of these end products, such as diacetyl and acetaldehyde, have very distinct aroma properties and contribute significantly to the quality of the fermented foods. In this review the metabolic pathways involved in product formation from citrate are described, the bioenergetic consequences of this metabolism for the lactic acid bacteria are discussed and detailed information on some key enzymes in the citrate metabolism is presented. The combined knowledge is used for devising strategies to avoid, control or improve product formation from citrate.  相似文献   

4.
Renault P 《Biochimie》2002,84(11):1073-1087
Lactic acid bacteria have a long history of use in fermented food products. Progress in gene technology allows their modification by introducing new genes or by modifying their metabolic functions. These modifications may lead to improvements in food technology (bacteria better fitted to technological processes, leading to improved organoleptic properties em leader ), or to new applications including bacteria producing therapeutic molecules that could be delivered by mouth. Examples in these two fields will be discussed, at the same time evaluating their potential benefit to society and the possible risks associated with their use. Risk assessment and expected benefits will determine the future use of modified bacteria in the domains of food technology and health.  相似文献   

5.
真菌毒素广泛存在于农业产品中,对人和动物的健康构成巨大威胁。乳酸菌作为一种公认安全的微生物,在食品生物减毒方面具有巨大的应用潜力,成本低廉且不会对食品品质及生态环境造成不良影响。文章主要根据近年来国内外研究进展,阐述乳酸菌对食品和饲料中几种常见真菌毒素的脱毒作用(抑制真菌生长、毒素的吸附和降解),关注乳酸菌在生物脱毒方面的实际应用,为乳酸菌在食品保鲜领域的应用提供理论指导。  相似文献   

6.
Genome data mining of lactic acid bacteria: the impact of bioinformatics   总被引:4,自引:0,他引:4  
Lactic acid bacteria (LAB) have been widely used in food fermentations and, more recently, as probiotics in health-promoting food products. Genome sequencing and functional genomics studies of a variety of LAB are now rapidly providing insights into their diversity and evolution and revealing the molecular basis for important traits such as flavor formation, sugar metabolism, stress response, adaptation and interactions. Bioinformatics plays a key role in handling, integrating and analyzing the flood of 'omics' data being generated. Reconstruction of metabolic potential using bioinformatics tools and databases, followed by targeted experimental verification and exploration of the metabolic and regulatory network properties, are the present challenges that should lead to improved exploitation of these versatile food bacteria.  相似文献   

7.
Lactic acid bacteria such as Lactococcus lactis are the microorganisms of choice for performing metabolic engineering in relation to food fermentation. These bacteria are used extensively in food fermentations, they have a simple and therefore controllable metabolism and the molecular genetics of these food bacteria is well-developed. There have been recent successes in metabolic engineering in these lactic acid bacteria, including examples of changes in both primary metabolism (diacetyl and alanine) and secondary metabolism (exopolysaccharides and flavour).  相似文献   

8.
9.
Polyols such as mannitol, erythritol, sorbitol, and xylitol are naturally found in fruits and vegetables and are produced by certain bacteria, fungi, yeasts, and algae. These sugar alcohols are widely used in food and pharmaceutical industries and in medicine because of their interesting physicochemical properties. In the food industry, polyols are employed as natural sweeteners applicable in light and diabetic food products. In the last decade, biotechnological production of polyols by lactic acid bacteria (LAB) has been investigated as an alternative to their current industrial production. While heterofermentative LAB may naturally produce mannitol and erythritol under certain culture conditions, sorbitol and xylitol have been only synthesized through metabolic engineering processes. This review deals with the spontaneous formation of mannitol and erythritol in fermented foods and their biotechnological production by heterofermentative LAB and briefly presented the metabolic engineering processes applied for polyol formation.  相似文献   

10.
Proteolytic systems in lactic acid bacteria   总被引:29,自引:0,他引:29  
The proteolytic systems of lactic acid bacteria are important as a means of making protein and peptide N available for growth and as part of the curing or maturation processes which give foods their characteristic rheological and organoleptic properties. The proteolytic systems of lactic acid bacteria are described in relation to their growth and their functions in protein-rich foods. Their role in the manufacture of milk products is discussed.  相似文献   

11.
作为工业化的细胞工厂,乳酸菌广泛应用于食品、农业和医药等行业。然而在乳酸菌的工业生产中以及作为益生菌在人体胃肠道系统中都会面临多种环境胁迫,这些胁迫环境严重影响乳酸菌的生理功能,从而影响食品微生物制造的效率。近年来,随着代谢工程和系统生物学的发展,为乳酸菌生理功能的改造带来了前所未有的机遇。本文综述了系统生物学和代谢工程在乳酸菌生理功能的优化和调控中的具体应用。  相似文献   

12.
食品级乳酸菌表达系统研究进展   总被引:2,自引:0,他引:2  
乳酸菌表达系统是近几年发展起来的食品级高效表达系统。乳酸菌具有益生菌特征,因此该表达系统与其他细菌表达系统相比有很多优点。介绍了糖诱导表达系统、噬菌体Φ31爆发式诱导的表达系统、乳链球菌素调控表达系统、温控表达系统等的研究进展,以及这些系统的应用前景。  相似文献   

13.
The cytoplasmic membrane of bacteria is the matrix for metabolic energy transducing processes such as proton motive force generation and solute transport. Passive permeation of protons across the cytoplasmic membrane is a crucial determinant in the proton motive generating capacity of the organisms. Adaptations of the membrane composition are needed to restrict the proton permeation rates especially at higher temperatures. Thermophilic bacteria cannot sufficiently restrict this proton permeation at their growth temperature and have to rely on the much␣lower permeation of Na + to generate a sodium motive force for driving metabolic energy-dependent membrane processes. Specific transport systems mediate passage across the membrane at physiological rates of all compounds needed for growth and metabolism and of all end products of metabolism. Some of transport systems, the secondary transporters, transduce one form of electrochemical energy into another form. These transporters can play crucial roles in the generation of metabolic energy. This is especially so in anaerobes such as Lactic Acid Bacteria which live under energy-limited conditions. Several transport systems are specifically aimed at the generation of metabolic energy during periods of energy-limitation. In their natural environment bacteria are also often exposed to cytotoxic compounds, including antibiotics. Many bacteria can respond to this live-threatening condition by overexpressing powerful drug-extruding multidrug resistance systems.  相似文献   

14.
Beneficial health effects of milk and fermented dairy products — Review   总被引:1,自引:1,他引:0  
Milk is a complex physiological liquid that simultaneously provides nutrients and bioactive components that facilitate the successful postnatal adaptation of the newborn infant by stimulating cellular growth and digestive maturation, the establishment of symbiotic microflora, and the development of gut-associated lymphoid tissues. The number, the potency, and the importance of bioactive compounds in milk and especially in fermented milk products are probably greater than previously thought. They include certain vitamins, specific proteins, bioactive peptides, oligosaccharides, organic (including fatty) acids. Some of them are normal milk components, others emerge during digestive or fermentation processes. Fermented dairy products and probiotic bacteria decrease the absorption of cholesterol. Whey proteins, medium-chain fatty acids and in particular calcium and other minerals may contribute to the beneficial effect of dairy food on body fat and body mass. There has been growing evidence of the role that dairy proteins play in the regulation of satiety, food intake and obesity-related metabolic disorders. Milk proteins, peptides, probiotic lactic acid bacteria, calcium and other minerals can significantly reduce blood pressure. Milk fat contains a number of components having functional properties. Sphingolipids and their active metabolites may exert antimicrobial effects either directly or upon digestion.  相似文献   

15.
Hussuwa is a traditional Sudanese fermented food. Hussuwa made from Sorghum bicolor variety feterita exists in northern, central and eastern Sudan. The microbiological study indicated that the fermentation was primarily a lactic acid fermentation. The changes in microbial population, acetic acid bacteria, lactic acid bacteria and yeasts during all stages of hussuwa preparation and ripening were studied. The identification of fermented hussuwa microorganisms revealed that the main microorganisms were Lactobacillus saccharolyticum, Gluconobacter oxydans, Acetobacter xylinum and Saccharomyces cerevisiae. The metabolic products were studied in all stages of preparation and the period of ripening of hussuwa. The values of pH decreased as fermentation proceeded, and titratable acidity and volatile fatty acids increased.  相似文献   

16.
The big challenge for the food industry is the attending to demands for minimally processed foods, avoiding intense heat treatments and reducing the addition of chemical preservatives, but at the same time ensuring microbiological safety of these products. Lactic acid bacteria are traditionally used in the production of fermented foods. They are responsible for the production of antimicrobial compounds, such as organic acids and bacteriocins, which are protein compounds with bactericidal effect against related species and bacteria such as Listeria monocytogenes and Staphylococcus aureus. Aiming to study quantitatively the biological control as a technique of conservation, we developed a mathematical model to describe the interaction between lactic acid bacteria and Listeria in the food. The steady state and dynamical trajectories analyses of the model permit us to study the suitability of including lactic acid bacteria in order to reduce the growth of Listeria in food.  相似文献   

17.
18.
辅酶NADH/NAD+在细胞内氧化还原反应中起着重要的作用,是细胞生长和能量代谢必不可少的辅因子。调节微生物胞内NADH/NAD+的比率是定向改变微生物代谢,高效获得目标代谢产物的有效手段。嗜热厌氧乙醇菌(Thermoanaerobacter ethanolicus)是高温厌氧菌中乙醇产量较高的代表性菌株,本文利用不同氧化还原态的碳源改变T.ethanolicus的胞内NADH/NAD+含量和比例,进而研究了其对细胞生长、代谢产物分布的影响。以不同比例的葡萄糖/甘露醇作为混合碳源发酵,胞内氧化还原水平、细胞的生长特性、代谢产物都发生了不同程度的差异,以葡萄糖作为唯一碳源进行培养时,T.ethanolicus生长良好,乙醇产量为0.79g/L,但胞内NADH/NAD+比值和乙醇/乙酸的比值都比较低,分别为0.47和4.82;随着葡萄糖在混合碳源中比例的下降,NADH/NAD+比值增高,发酵产物中乙醇/乙酸比值也呈现上升的趋势。而以甘露醇作为唯一碳源时,发酵产物中乙醇浓度为0.389g/L,NADH/NAD+比值和乙醇/乙酸的比值分别为1.04和16.0。  相似文献   

19.
Lactic acid is a commonly occurring organic acid, which is valuable due to its wide use in food and food-related industries, and its potential for the production of biodegradable and biocompatible polylactate polymers. Lactic acid can be produced from renewable materials using various fungal species of the Rhizopus genus, which have advantages compared to the bacteria, including their amylolytic characteristics, low nutrient requirements and valuable fermentation by-product—fungal biomass. This paper reviews recent research in process engineering, metabolic and enzymetic mechanisms, and molecular biotechnology associated with lactic acid production by the Rhizopus fungi to get a better understanding of biochemical activities. The major process components: renewable materials, bioreactor systems and process modeling are reviewed. The role of key bioprocess parameters, such as nutrient composition, pH and growth morphology, involved in the production of lactic acid is discussed in detail. In addition, recent advances in simultaneous saccharification and fermentation, molecular genetic approaches, and enzymetic and metabolic pathways involved in the production of lactic acid by fungal strains are discussed.  相似文献   

20.
应用于乳酸菌的非抗生素抗性选择标记系统   总被引:3,自引:0,他引:3  
 乳酸菌是一类重要的安全型微生物,在免疫载体疫苗开发及食品菌株改良等医疗、食品领域均有广泛的应用.非抗生素抗性选择标记是乳酸菌基因工程菌株构建中必不可少的关键组成部分,也是目前乳酸菌研究的前沿和热点.根据筛选时质粒和受体菌之间的表型关系及特征,主要分为显性选择标记、互补型选择标记、显性/互补型选择标记、双质粒选择标记4大类.其中显性选择标记中的细菌素抗性/免疫性选择标记及互补型选择标记中的糖类选择标记均有较大的发展潜力及应用空间;双质粒选择标记系统构建的筛选过程新颖独特,为整个选择标记系统的发展开辟了新的途径及思路.  相似文献   

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