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Lactic acid lactose

Since lactose is absorbed slowly, a portion usually reaches the ileum, where it is utilized by bacterial flora, with the production of lactic acid. Lactose inhibits putrefaction by promoting the growth of aciduric bacteria in the intestine. [Pg.330]

Isopropanol Lactic Acid Lactose Leucine Linoleic Acid Lysine... [Pg.329]

Hydrogen Peroxide Iron(II) Oxide Iron(III) Oxide Isoamyl Acetate Isopropyl Alcohol Lactic Acid Lactose... [Pg.900]

Ultrafiltration may be distinguished from other membrane operations by example When reverse osmosis is used to process whey, it passes only the water and some of the lactic acid (due to the solubihty of lactic acid in RO membranes). Nanofiltration used on whey will pass most of the sodium salts while retaining the calcium salts and most of the lactose. Microfiltration will pass everything except the particulates and the bacteria. [Pg.2038]

Addition of acetic or mineral acid to skimmed milk to reduce the pH value to 4.6, the isoelectric point, will cause the casein to precipitate. As calcium salts have a buffer action on the pH, somewhat more than the theoretical amount of acid must be used. Lactic acid produced in the process of milk souring by fermentation of the lactoses present by the bacterium Streptococcus lactis will lead to a similar precipitation. [Pg.855]

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]

Commercially available kits allow for the determination of compounds such as ethyl alcohol, glucose, lactic acid and lactose. [Pg.257]

The most abundant milk protein is casein, of which there are several different kinds, usually designated a-, (1-, and K-casein. The different caseins relate to small differences in their amino acid sequences. Casein micelles in milk have diameters less than 300 nm. Disruption of the casein micelles occurs during the preparation of cheese. Lactic acid increases the acidity of the milk until the micelles crosslink and a curd develops. The liquid portion, known as whey, containing water, lactose and some protein, is removed. Addition of the enzyme rennet (chymosin) speeds up the process by hydrolysing a specific peptide bond in K-casein. This opens up the casein and encourages further cross-linking. [Pg.391]

The same functions used in agriculture can be applied to processed foods. In baked goods, wheat gluten, various additives, starch damage, and water absorption are just some of the parameters measured [21-24]. Dairy products are also important and often analyzed by NIR. Moisture, fat, protein, lactose, lactic acid, and ash are common analytes in the dairy industry [25-28]. [Pg.178]

Another fermentation process is described by Fayolle et al.14 In this work, processes producing lactic acid bacteria were studied. Samples were extracted from the reactor and assayed by conventional methods and scanned in the IR. Equations were generated, using PLS, for lactose, galactose, lactic acid, and biomass. The SEP for each of these constituents was, respectively, 3.4, 1.5, 0.9, and 0.9 g/1. [Pg.387]

Fayolle et al. used a remote system to monitor on-line fermentations.15 Both the substrates (glucose, fructose, lactose, and galactose) and the metabolites (ethanol and lactic acid) were monitored. The equations used were built with PLS. The reference method was HPLC. For the alcohol fermentation, glucose, fructose, and ethanol had SEPs (in g/1) of 3.5, 4.5, and 3.8, respectively. For the lactic acid fermentation, the SEPs for lactose, galactose, and lactic acid were 4.1, 1.4, and 2.0, respectively. [Pg.388]

Oxalic acid is poisonous to humans, but its concentrations are generally too low in foods to be of concern, although rhubarb leaves are quite poisonous. Lactic acid is produced from the fermentation of lactose, which is the principal sugar found in milk. The taste and smell of sour milk is due to the production of lactic acid from bacterial fermentation. Lactic acid accumulates in our muscles during exercise and strenuous physical activity. It is responsible for the sore, aching feeling often associated with these activities. Benzoic acid is the simplest aromatic carboxylic acid. [Pg.211]

Enzyme in the bacteria changes lactose in milk into lactic acid. Lactic acid transforms milk proteins to produce thicker yoghurt. [Pg.52]

Thermoplasticity of lactose. Unless certain precautions are taken during the drying of whey or other solutions containing high concentrations of lactose, the hot, semi-dry powder may adhere to the metal surfaces of the dryer, forming deposits. This phenomenon is referred to as thermoplasticity. The principal factors influencing the temperature at which thermoplasticity occurs ( sticking temperature ) are the concentrations of lactic acid, amorphous lactose and moisture in the whey powder. [Pg.47]

See other pages where Lactic acid lactose is mentioned: [Pg.706]    [Pg.898]    [Pg.899]    [Pg.905]    [Pg.1247]    [Pg.1208]    [Pg.1253]    [Pg.1143]    [Pg.1001]    [Pg.1288]    [Pg.950]    [Pg.998]    [Pg.1206]    [Pg.706]    [Pg.898]    [Pg.899]    [Pg.905]    [Pg.1247]    [Pg.1208]    [Pg.1253]    [Pg.1143]    [Pg.1001]    [Pg.1288]    [Pg.950]    [Pg.998]    [Pg.1206]    [Pg.370]    [Pg.119]    [Pg.7]    [Pg.247]    [Pg.165]    [Pg.366]    [Pg.391]    [Pg.388]    [Pg.211]    [Pg.211]    [Pg.148]    [Pg.400]    [Pg.424]    [Pg.424]   
See also in sourсe #XX -- [ Pg.213 , Pg.307 ]



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