Abstract: A novel strain of Lactococcus lactis subspecies cremori (“Ropy 352”) has been identified and isolated. Ropy 352 produces a previously unknown exopolysaccharide (EPS 352) that when expressed or added to milk, imparts highly desirable sensory characteristics to the milk, including making the milk very thick, with a very smooth mouth-feel, and slightly sweet with an obvious “chewable-bite”.

Abstract: A novel strain of Lactococcus lactis subspecies cremori (“Ropy 352”) has been identified and isolated. Ropy 352 produces a previously unknown exopolysaccharide (EPS 352) that when expressed in or added to milk, imparts highly desirable sensory characteristics to the milk, including making the milk very thick, with a very smooth mouth-feel, and slightly sweet with an obvious “chewable-bite”.

Abstract: A novel strain, Lactobacillus sp. AS-1A (ATCC No. 69890) is described for use in inhibiting bacteria in foods, particularly at refrigeration temperatures. Lactobacillus sp. AS-1A (ATCC No. 69890) is particularly effective in inhibiting bacteria present in raw milk and pasteurized milk.

Abstract: A novel strain, Lactobacillus sp. AS-1 (ATCC No. 55326) for use in inhibiting bacteria in foods, particularly at refrigeration temperatures. Lactobacillus sp. AS-1 (ATCC No. 55326) is particularly effective in inhibiting bacteria present in raw milk and pasteurized milk.

Abstract: A peptide, produced by propionibacteria, has a molecular weight of between 300 and 1200 daltons and is inhibitory to gram-negative bacteria. The peptide can be produced by purification of a propionibacteria metabolite mixture, by chemical synthesis, or by a host transformed with a recombinant vector, and is useful in preventing and treating bacterial infections.

Abstract: A metabolite material of propionibacteria is added to a food product to inhibit the growth of yeast. The metabolite material is produced by growing propionibacteria cells in a liquid growth medium to produce a mixture containing the metabolite material. The mixture can be concentrated and added to a food product as a concentrated liquid or powder. The metabolite material added to a food product may contain viable cells of propionibacteria.

Abstract: A metabolite material of propionibacteria, having a metabolite of molecular weight greater than 300, is added to a food product to inhibit the growth of gram negative psychotropic bacteria, yeast, mold, gram positive bacteria, or Listeria. The metabolite material may contain less than 0.02% propionic acid such that there is insufficient propionic acid per se to inhibit microbial growth. The metabolite material is produced by growing propionibacteria cells in a liquid growth medium to produce a mixture containing the metabolite material. The mixture can be concentrated and added to a food product as a concentrated liquid or powder. The metabolite material added to a food product may contain viable cells of propionibacteria.

Abstract: This invention relates to the preservation of high moisture animal feeds which utilize a fermentation (either natural or induced) to improve the quality of the animal food. More specifically, this invention utilizes dimethyl fumarate (DMF) in plant feeds in combination with fermentation microorganisms to produce an animal feed which is high in nutrient value and low in spoilage microorganisms.

Abstract: The invention comprises a novel starter medium for the commercial propagation of acid producing bacteria, such as those used in food fermentation processes. The compositions are unique in that they contain a highly effective buffering ingredient which is a sodium, potassium, or ammonium salt or double salt of a linear aliphatic dibasic acid having from three to seven carbon atoms. The salts are present in an amount sufficient to maintain the growth medium at pH levels of about 5.0 or above during the time in which the bacteria are multiplying in the culture medium. Disodium or diammonium succinate, glutarate, or adipate are materials which have been found to be particularly effective. These may be used in combination with nutrients such as whey, whey permeate, nonfat dried milk, yeast extract, and diammonium phosphate. The addition of trace quantities of certain metals promotes the growth and activity of the acid producing bacteria.

Abstract: An improved powdered bacterial growth medium composition adapted to be admixed with water is described. The powdered growth medium includes an alkaline earth metal cation in a compound A admixed with a compound B containing an anion which reacts with the alkaline earth metal cation in compound A in an aqueous growth medium to form an essentially water insoluble salt or base, including the alkaline earth metal cation and the anion, which is acid neutralizing. The water insoluble salt is thus formed in situ in the aqueous growth medium when compounds A and B are added to the aqueous solution. Also described is an improved method for growing acid producing bacteria in an aqueous growth medium by forming the insoluble salt or base. The resulting growth medium is particularly adapted for neutralizing acids generated during growth of lactic acid producing bacteria which are grown for use in various food fermentations.

Abstract: Strains of Leuconostoc oenos capable of carrying out malolactic fermentation in wines at relatively low temperatures and in wines having relatively high acidity.

Abstract: An improved method which differentiates or separates heterogeneous populations of fast and slow acid producing strains of bacteria by growth of the strains under closely controlled unique conditions so as to allow the selection of a colony of one or the other strains is described. Preferably a gelled, solid growth medium containing in admixture: (1) milk protein, a milk protein derivative, or a milk protein substitute; (2) an acid pH sensitive color change indicator; and, (3) a buffering agent is used. The colonies have a contrasting color within and around them because of the effect of the acid produced by the bacteria on the indicator. The growth of the bacteria is under anaerobic or near anaerobic conditions in order to achieve certainty in the colony selection for fast or slow acid production. The bacteria can also be mixed with phage which inhibit or kill the members of a heterogeneous or homogeneous population of bacteria on the medium and grown to produce phage resistant colonies.

Abstract: A method for growing acid producing bacteria in the presence of an essentially water insoluble or a temporarily water insolubilized and thus initially solid form of a neutralizing agent in a growth medium is described. The water insoluble or insolubilized neutralizing agent is a base, basic salt or mixture thereof adapted to provide a controlled reaction with the acid produced by the bacteria without substantially raising the pH of the growth medium. Preferably the neutralizing agent is in a water insoluble form. Bulk starter compositions for growing the bacteria including the insoluble or the insolubilized neutralizing agent are also described. Further, bacterial compositions with enhanced storability and viability because of the insoluble or the insolubilized neutralizing agent are described. The method and bulk starter compositions are particularly adapted to growing lactic acid producing bacteria which are then used in making food and beverage products for animals and humans.

Abstract: A method for growing acid producing bacteria in the presence of an essentially water insoluble or a temporarily water insolubilized and thus initially solid form of a neutralizing agent in a growth medium is described. The water insoluble or insolubilized neutralizing agent is a base, basic salt or mixture thereof adapted to provide a controlled reaction with the acid produced by the bacteria without substantially raising the pH of the growth medium. Preferably the neutralizing agent is in a water insoluble form. Bulk starter compositions for growing the bacteria including the insoluble or the insolubilized neutralizing agent are also described. Further, bacterial compositions with enchanced storability and viability because of the insoluble or the insolubilized neutralizing agent are described. The method and bulk starter compositions are particularly adapted to growing lactic acid producing bacteria which are then used in making food and beverage products for animals and humans.

Abstract: Storage stable, lyophilized, acid producing bacteria, such as lactic acid bacteria, are prepared by lyophilizing the bacteria in the presence of at least 5% by weight of the bacteria of a basic organic or inorganic buffering agent, preferably an alkali metal salt of glycerophosphate, to provide lyophilized bacteria containing less than 5% by weight water, and sealing the lyophilized bacteria in a container while in a vacuum or surrounded by a gaseous atmosphere substantially free of oxygen, preferably argon which is essentially free of oxygen.

Abstract: A method for growing acid producing bacteria in the presence of an essentially water insoluble or a temporarily water insolubilized and thus initially solid form of a neutralizing agent in a growth medium is described. The water insoluble or insolubilized neutralizing agent is a base, basic salt or mixture thereof adapted to provide a controlled reaction with the acid produced by the bacteria without substantially raising the pH of the growth medium. Preferably the neutralizing agent is in a water insoluble form. Bulk starter compositions for growing the bacteria including the insoluble or the insolubilized neutralizing agent are also described. Further, bacterial compositions with enchanced storability and viability because of the insoluble or the insolubilized neutralizing agent are described. The method and bulk starter compositions are particularly adapted to growing lactic acid producing bacteria which are then used in making food and beverage products for animals and humans.