The present invention relates to a method for preparing a trehalose-rich yeast extract, said method comprising a step in which yeast cells are enzymatically disrupted by use of one or more proteases. The present invention further relates to a novel trehalose-rich yeast extract obtainable by the method of the invention. The novel trehalose-rich yeast extract comprises an amount of at least 15% (w/w) trehalose, based on dry matter. The invention also relates to the use of the novel trehalose-rich yeast extract as an additive in a cosmetic, pharmaceutical, food or beverage product.

Methods of forming an ingredient for human consumption are provided herein. The methods may include isolating one or more soluble polysaccharides from a biomass, generating one or more oligosaccharides from the biomass, and combining the one or more isolated soluble polysaccharides with the generated oligosaccharides to form the ingredient. Methods of pretreating a biomass are also provided. The methods may include administering a physical pretreatment to a biomass, administering a gentle pretreatment to the physically pretreated biomass, and administering a strong pretreatment to the gently pretreated biomass. Ingredients for human consumption are also provided.

Methods of forming an ingredient for human consumption are provided herein. The methods may include isolating one or more soluble polysaccharides from a biomass, generating one or more oligosaccharides from the biomass, and combining the one or more isolated soluble polysaccharides with the generated oligosaccharides to form the ingredient. Methods of pretreating a biomass are also provided. The methods may include administering a physical pretreatment to a biomass, administering a gentle pretreatment to the physically pretreated biomass, and administering a strong pretreatment to the gently pretreated biomass. Ingredients for human consumption are also provided.

The present invention is in the field of a method for production of biomedical compounds by enrichment cultures of microorganisms, and a product obtainable by said methods. The microorganisms are grown in a batch reactor, a continuous reactor, a semi-continuous reactor, such as a Nereda® reactor.

The present invention is in the field of a method for production of biomedical compounds by enrichment cultures of microorganisms, and a product obtainable by said methods. The microorganisms are grown in a batch reactor, a continuous reactor, a semi-continuous reactor, such as a Nereda® reactor.

Embodiments of the disclosure provide for unique lipooligosaccharide/lipid A-based mimetics for use as adjuvants. Methods of generating lipooligosaccharide/lipid A-based mimetics are provided that utilize recombinantly engineered bacteria to produce the mimetics, including, for example, addition of one or more particular enzymes such as acyltransferases, deacylases, phosphatases, or glycosyltransferases.

Embodiments of the disclosure provide for unique lipooligosaccharide/lipid A-based mimetics for use as adjuvants. Methods of generating lipooligosaccharide/lipid A-based mimetics are provided that utilize recombinantly engineered bacteria to produce the mimetics, including, for example, addition of one or more particular enzymes such as acyltransferases, deacylases, phosphatases, or glycosyltransferases.

The present invention is related to a trehalose phosphorylase comprising an amino acid sequence, wherein the amino acid sequence of the trehalose phosphorylase is at least 80% identical to and/or at least 80% homologous to an amino acid sequence of SEQ ID NO: 1, wherein the amino acid sequence of the trehalose phosphorylase comprises an amino acid substitution at one or more amino acid positions, wherein the one or more amino acid positions is/are selected from the group consisting of amino acid positions of SEQ ID NO: 1712, 383, 10, 114, 118, 192, 197, 220, 225, 304, 306, 318, 323, 339, 349, 357, 459, 476, 481, 484, 487, 488, 506, 511, 526, 530, 532, 533, 537, 550, 556, 564, 590, 649, 667, 703 and 705.

The present invention is related to a trehalose phosphorylase comprising an amino acid sequence, wherein the amino acid sequence of the trehalose phosphorylase is at least 80% identical to and/or at least 80% homologous to an amino acid sequence of SEQ ID NO: 1, wherein the amino acid sequence of the trehalose phosphorylase comprises an amino acid substitution at one or more amino acid positions, wherein the one or more amino acid positions is/are selected from the group consisting of amino acid positions of SEQ ID NO: 1712, 383, 10, 114, 118, 192, 197, 220, 225, 304, 306, 318, 323, 339, 349, 357, 459, 476, 481, 484, 487, 488, 506, 511, 526, 530, 532, 533, 537, 550, 556, 564, 590, 649, 667, 703 and 705.

The present invention relates to processes of producing a fermentation product from starch containing material comprising (a) forming a slurry comprising the starch-containing material and water; (b) converting the starch-containing material into dextrins with an alpha-amylase; (c) saccharifying the dextrins using a carbohydrate source generating enzyme to form sugars; (d) fermenting sugars using a fermenting organism; (e) recovering the fermentation product to form whole stillage; (f) separating the whole stillage into a liquid fraction thin stillage and solid fraction wet cake; (g) hydrolyzing the thin stillage; (h) recycle a portion of the hydrolyzed thin stillage to steps (a); wherein the thin stillage in step (g) is hydrolyzed using a glucoamylase and/or polygalacturonase.