The invention relates to cleaning compositions comprising a fructan degrading enzyme and at least one cleaning component, and use of such compositions for cleaning of an item such as a textile or a surface.

Disclosed are recombinant endoxylanases that are expressed and exported in high levels in bacteria, in particular Bacillus subtilis. The recombinant endoxylanases are based on an endoxylanase selected from Trichoderma reesei or Bacillus pumilus modified with a signal peptide from B. subtilis alpha amylase (AmyE), B. subtilis levanase (SacC), or B. subtilis YwmC. Accordingly, also disclosed are plasmids for transforming bacteria to express and export such recombinant endoxylanases and the resulting recombinant bacterial strains. The disclosure also encompasses compositions for simultaneously degrading and assimilate cellobiose and xylan comprising a recombinant bacteria engineered to produce xylose from hydrolyzing the agricultural biomass and a xylose assimilator and methods of producing value-added products, for example succinate, from agricultural biomass using such compositions.

The present invention relates to an oral care composition comprising a fructanase, use of said composition as medicaments, use of said composition in treatment of oral disease, methods of treatment comprising administering said composition to a human or animal subject, methods of removing biofilm comprising contacting the biofilm with said composition, kits of parts comprising said composition, and fructanases.

The present invention is related to an enzyme that allows efficient removal of fructan from grain and vegetable raw material. The enzyme according to the invention produces grain and vegetable material having a fructan content significantly lower compared to that of the starting material.

The present invention is related to an enzyme that allows efficient removal of fructan from grain and vegetable raw material. The enzyme according to the invention produces grain and vegetable material having a fructan content significantly lower compared to that of the starting material.

The present invention is related to an enzyme that allows efficient removal of fructan from grain and vegetable raw material. The enzyme according to the invention produces grain and vegetable material having a fructan content significantly lower compared to that of the starting material.

The present invention is related to an enzyme that allows efficient removal of fructan from grain and vegetable raw material. The enzyme according to the invention produces grain and vegetable material having a fructan content significantly lower compared to that of the starting material.

Disclosed are recombinant endoxylanases that are expressed and exported in high levels in bacteria, in particular Bacillus subtilis. The recombinant endoxylanases are based on an endoxylanase selected from Trichoderma resei or Bacillus pumilus modified with a signal peptide from B. subtilis alpha amylase (AmyE), B. subtilis levanase (SacC), or B. subtilis YwmC. Accordingly, also disclosed are plasmids for transforming bacteria to express and export such recombinant endoxylanases and the resulting recombinant bacterial strains. The disclosure also encompasses compositions for simultaneously degrading and assimilate cellobiose and xylan comprising a recombinant bacteria engineered to produce xylose from hydrolyzing the agricultural biomass and a xylose assimilator and methods of producing value-added products, for example succinate, from agricultural biomass using such compositions.

The present invention relates to a recombinant microorganism for producing 2,3-butanediol, in which, in a microorganism having the 2,3-butanediol biosynthetic pathway, at least one selected from a group consisting of a pathway for converting glutamic acid into polyglutamic acid, a pathway for converting sucrose into levan, a pathway for converting pyruvate into lactate, and a pathway for converting glycerophosphate into glycerol is inhibited. The present invention also relates to a method for producing 2,3-butanediol by using the recombinant microorganism for producing 2,3-butanediol.

The present invention relates to a composition comprising one or more fructanases and one or more Lactobacillus strains to provide relief from or prevent fructan and/or fructose induced abdominal discomfort; digest fructan and/or fructose or improve digestion of fructan and/or fructose; and/or provide digestive comfort after digestion of fructan and/or fructose on consumption of products containing fructan and/or fructose to a subject. The present invention also relates a Lactobacillus strain or a fructanse for providing relief from fructan and/or fructose induced abdominal discomfort to a subject, wherein the Lactobacillus strain in presence of one or more fructanases results in at least 20-50% reduction of gas pressure development, when tested against the fecal fermentation of the fiber alone across different donors.