Abstract: A feed additive composition comprising a direct fed microbial (DFM), in combination with a xylanase (e.g. endo-1,4-?-d-xylanase) and a ?-glucanase (and optionally a further fibre degrading enzyme), wherein the DFM is selected from the group consisting of an enzyme producing strain; a C5 sugar-fermenting strain; a short-chain fatty acid-producing strain; a fibrolytic, endogenous microflora-promoting strain; or combinations thereof. The DFM may be selected from the group consisting of: Bacillus subtilis AGTP BS3BP5, Bacillus subtilis AGTP BS442, B. subtilis AGTP BS521, B. subtilis AGTP BS918, Bacillus subtilis AGTP BS1013, B. subtilis AGTP BS1069, B. subtilis AGTP 944, B. pumilus AGTP BS 1068 or B.
Type:
Application
Filed:
August 2, 2013
Publication date:
August 6, 2015
Applicant:
DUPONT NUTRITIONAL BIOSCIENCES APS
Inventors:
Mai Faurschou Isaksen, Marion Bernardeau, Luis Fernando Romero Millan, Elijah Gituanjah Kiarie, Susan Lund Arent, Piiivi Helena Nurminen, Sofia Forssten, Daniel Petri, Elizabeth Ann Galbraith
Abstract: The invention relates to an improved nanofiltration process for separating and recovering components, such as sugars and sugar alcohols from multicomponent mixtures. The process of the invention is characterized by collecting the nanofiltration retentate/permeate in several fractions with different purity, optional recycling of at least one of the collected nanofiltration retentate/permeate fractions to the nanofiltration and recovering the desired component from the nanofiltration permeate/retentate fractions by different methods. In one embodiment of the invention, the process comprises a combination of nanofiltration and chromatography.
Type:
Grant
Filed:
May 29, 2007
Date of Patent:
December 30, 2014
Assignee:
DuPont Nutritional Biosciences APS
Inventors:
Heikki Heikkila, Hannu Koivikko, Jari Lewandowski, Mika Manttari, Jari Mattila