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Lactic acid bacteria acids

In addition to alcohoHc fermentation, a malolactic fermentation by certain desirable strains of lactic acid bacteria needs to be considered. Occasionally, wild strains produce off-flavors. Malolactic fermentation is desirable in many red table wines for increased stabiUty, more complex flavor, and sometimes for decreased acidity. Selected strains are often added toward the end of alcohoHc fermentation. AH the malic acid present is converted into lactic acid, with the resultant decrease of acidity and Hberation of carbon dioxide. Obviously this has more effect on the acidity the more malic acid is present, and this is the case in wine from underripe, too-tart grapes. Once malolactic fermentation has occurred, it does not recur unless another susceptible wine is blended. [Pg.373]

Cells of microorganisms have constituted a portion of human food siace ancient times. Yeast-leavened baked products contain the residual nutrients from the yeast cells destroyed duriag bakiag (see Bakery processes and leavening agents). Cultured dairy products, such as yogurt, buttermilk, and sour cream, contain up to lO cells of lactic acid bacteria per gram (19) (see Milk and milkproducts). Other examples of fermented foods consumed siace early times iaclude fermented meats, fish, and soybean products. [Pg.463]

After World War II, analytical methods for amino acids were improved and new methods were iatroduced. The first was microbial assay usiag lactic acid bacteria which require all of the regular amino acids for growth. Manometric determiaation (by use of a Warburg manometer) of CO2 Hberated by the... [Pg.271]

Lactic acid bacteria are common contaminants of distillers fermentations. E. lactis may produce excessive amounts of volatile acids. Some species convert glycerol to fdpropionaldehyde which may break down to acrolein during distillation, producing an acrid odor. [Pg.392]

Yeast (qv) metabolize maltose and glucose sugars via the Embden-Meyerhof pathway to pymvate, and via acetaldehyde to ethanol. AH distiUers yeast strains can be expected to produce 6% (v/v) ethanol from a mash containing 11% (w/v) starch. Ethanol concentration up to 18% can be tolerated by some yeasts. Secondary products (congeners) arise during fermentation and are retained in the distiUation of whiskey. These include aldehydes, esters, and higher alcohols (fusel oHs). NaturaHy occurring lactic acid bacteria may simultaneously ferment within the mash and contribute to the whiskey flavor profile. [Pg.84]

Some of the most notable contributions were (a) the discovery of numerous strains of lactic acid bacteria including those listed in Table XI, (b) the elaboration of the mineral... [Pg.20]

Table XI. History of Discovery of Common Lactic Acid Bacteria (16)... Table XI. History of Discovery of Common Lactic Acid Bacteria (16)...
In more recent times chemically defined basal media have been elaborated, on which the growth of various lactic acid bacteria is luxuriant and acid production is near-optimal. The proportions of the nutrients in the basal media have been determined which induce maximum sensitivity of the organisms for the test substance and minimize the stimulatory or inhibitory action of other nutrilites introduced with the test sample. Assay conditions have been provided which permit the attainment of satisfactory precision and accuracy in the determination of amino acids. Experimental techniques have been provided which facilitate the microbiological determination of amino acids. On the whole, microbiological procedures now available for the determination of all the amino acids except hydroxy-proline are convenient, reasonably accurate, and applicable to the assay of purified proteins, food, blood, urine, plant products, and other types of biological materials. On the other hand, it is improbable that any microbiological procedure approaches perfection and it is to be expected that old methods will be improved and new ones proposed by the many investigators interested in this problem. [Pg.21]

Orla-Jensen, S., The Lactic Acid Bacteria," Copenhagen, 1919. [Pg.26]

Yeast and culture starter Lactobacillus bulgaricus Lactic acid bacteria Cheese and yoghurt production... [Pg.2]

The sugars in fruits such as grapes are feimented by yeasts to produce wines. In winemaking, lactic acid bacteria convert malic acid into lactic acid in malolactic fermentation in fruits with high acidity. Acetobacter and Gluconobacter oxidise ethanol in wine to acetic acid (vinegar). [Pg.7]

Lactose is mainly used as a fermentation substrate for lactic acid bacteria in dairy products, such as yogurt and cheese. These bacteria break down lactose into lactic acid, which solidifies the milk, and creates an acid environment that favors the benign lactic acid bacteria over those that are more harmful. [Pg.82]

Lactic acid bacteria were immobilized in Ca-alginate beads prepared from different concentration of Na-alginate (1.0%, 2.0%, 4.0%, 6.0% and 8.0% w/v) and their fermentation efficiencies were investigated in liquid pineapple waste containing 31.3 gL of glucose... [Pg.406]

A component of the ribotide reductase complex of enzymes, protein Ba, has been shown to contain two non-heme iron atoms per mole (77). This enzyme plays a vital, albeit indirect, role in the synthesis of DNA. Curiously, the lactic acid bacteria do not employ iron for the reduction of the 2 hydroxyl group of ribonucleotides. In these organisms this role has been assumed by the cobalt-containing vitamin Bi2 coenzyme (18). The mechanism of the reaction has been studied and has been shown to procede with retention of configuration (19). [Pg.150]

Certain strictly anaerobic bacteria and lactic acid bacteria apparently do not contain heme compounds. In the first named organisms this cannot be ascribed to a failure to perform the first step in porphyrin biosynthesis since Clostridia are notorious for production of the porphyrin-like nucleus (corrin) which occurs in vitamin B12 (7, 43). [Pg.153]

It is apparent from this cursory survey that, while lacking the charisma of DNA, iron has played a prominent role in the evolution and development of living forms. One of the few, perhaps the only, species which can challenge the dictum that life and iron are inseparable is the group collectively called the lactic acid bacteria. In 1947 MacLeod, and Snell (103) examined the mineral requirements of representative strains of these organisms. They reported ... [Pg.167]

Aattouri N., Bouras M., Tome D., Marcos A. and Lemonnier D. (2001). Oral ingestion of lactic acid bacteria by rats increases lymphocyte proliferation and interferon -production . Br JNutr, 87, 367-373. [Pg.257]

Mitsuoka T. (1992). The Lactic Acid Bacteria in Health and Disease, B.J.B. Wood (ed.). Elsevier Applied Sciences, London, 69-114. [Pg.260]

Breidt, F. and Fleming, H.P. (1997) Using lactic acid bacteria to improve the safety of minimally processed fruits and vegetables . Food Technology, 51, 44-. ... [Pg.449]

Vescovo, M., Torriani, S., Orsi, C., Macchiarolo, F. and Scolari, G. (1996) Application of antimicrobial-producing lactic acid bacteria to control pathogens in ready-to-use vegetables . Journal of Applied Bacteriology, 81, 113-119. [Pg.453]

See other pages where Lactic acid bacteria acids is mentioned: [Pg.249]    [Pg.296]    [Pg.284]    [Pg.343]    [Pg.13]    [Pg.25]    [Pg.300]    [Pg.103]    [Pg.20]    [Pg.22]    [Pg.119]    [Pg.168]    [Pg.9]    [Pg.470]    [Pg.482]    [Pg.223]    [Pg.252]    [Pg.167]    [Pg.5]    [Pg.43]    [Pg.182]    [Pg.243]    [Pg.246]    [Pg.247]    [Pg.247]    [Pg.249]    [Pg.250]    [Pg.253]    [Pg.260]    [Pg.445]   
See also in sourсe #XX -- [ Pg.5 , Pg.22 ]



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