Abstract: The present disclosure relates to methods of feeding animals by providing feed additives that modulate the gut microbiome to improve the health, nutrition, and growth performance. The present disclosure further relates to methods of modulating the microbial species present in the gastrointestinal tract of an animal. Such modulation includes, for example, modulating the level or function of microbial species.

Abstract: The present invention relates to storage-stable formulations of oligosaccharide preparations suitable for use in nutritional compositions such as animal feed.

Abstract: The present disclosure relates to methods of feeding animals by providing feed additives that modulate the gut microbiome to improve the health, nutrition, and growth performance. The present disclosure further relates to methods of modulating metabolites present in the gastrointestinal tract of an animal. Such modulation includes, for example, modulating the level said metabolites.

Abstract: The present disclosure relates oligosaccharide preparations suitable for use in nutritional compositions such as animal feed and methods of manufacturing the described oligosaccharide preparations. The present disclosure further relates to nutritional compositions that comprise the oligosaccharide preparations. The disclosed oligosaccharide preparations can be advantageous as an animal feed due to, at least in part, their prebiotic utility and the presence of anhydro-subunit containing oligosaccharides, which can be used to detect and/or determine the presence and content of the disclosed oligosaccharide preparations in the nutritional composition.

Abstract: The present disclosure relates to methods of feeding animals by providing feed additives that modulate the gut microbiome to improve the health, nutrition, and growth performance. The present disclosure further relates to methods of modulating metabolites present in the gastrointestinal tract of an animal. Such modulation includes, for example, modulating the level said metabolites.

Abstract: The present disclosure relates to methods of feeding animals by providing feed additives that modulate the gut microbiome to prevent or treat dysfunctions in a gastrointestinal barrier. The present disclosure further relates to methods of feeding animals by providing feed additives that modulate the gut microbiome to prevent or treat infections.

Abstract: The present disclosure relates oligosaccharide preparations suitable for use in nutritional compositions such as animal feed and methods of manufacturing the described oligosaccharide preparations. The present disclosure further relates to nutritional compositions that comprise the oligosaccharide preparations. The disclosed oligosaccharide preparations can be advantageous as an animal feed due to, at least in part, their prebiotic utility and the presence of anhydro-subunit containing oligosaccharides, which can be used to detect and/or determine the presence and content of the disclosed oligosaccharide preparations in the nutritional composition.

Abstract: The present disclosure relates to methods of feeding animals by providing feed additives that modulate the gut microbiome to improve the health, nutrition, and growth performance. The present disclosure further relates to methods of modulating the microbial species present in the gastrointestinal tract of an animal. Such modulation includes, for example, modulating the level or function of microbial species.

Abstract: The present disclosure relates to selective analytical methods for the detection and/or quantification of an oligosaccharide preparation in a nutritional composition such as an animal feed. Also disclosed are methods of manufacturing a nutritional composition comprising an oligosaccharide preparation, the presence or concentration of which can be selectively detected or determined.

Abstract: Aspects of the invention relate to methods for the production of difunctional alkanes in host cells. In particular, aspects of the invention describe components of genes associated with the difunctional alkane production from carbohydrate feedstocks in host cells. More specifically, aspects of the invention describe metabolic pathways for the production of adipic acid, aminocaproic acid, caprolactam, and hexamethylenediamine via 2-ketopimelic acid.

Abstract: Provided herein are methods for the production of difunctional alkanes in microorganisms. Also provided are enzymes and nucleic acids encoding such enzymes, associated with the difunctional alkane production from carbohydrates feedstocks in microorganisms. The invention also provides recombinant microorganisms and metabolic pathways for the production of difunctional alkanes.

Abstract: Provided herein are methods for the production of difunctional alkanes in microorganisms. Also provided are enzymes and nucleic acids encoding such enzymes, associated with the difunctional alkane production from carbohydrates feedstocks in microorganisms. The invention also provides recombinant microorganisms and metabolic pathways for the production of difunctional alkanes.

Abstract: Aspects of the invention relate to methods for the production of difunctional alkanes in host cells. In particular, aspects of the invention describe components of genes associated with the difunctional alkane production from carbohydrate feedstocks in host cells. More specifically, aspects of the invention describe metabolic pathways for the production of adipic acid, aminocaproic acid, caprolactam, and hexamethylenediamine via 2-ketopimelic acid.

Abstract: Provided herein are methods for the production of difunctional alkanes in microorganisms. Also provided are enzymes and nucleic acids encoding such enzymes, associated with the difunctional alkane production from carbohydrates feedstocks in microorganisms. The invention also provides recombinant microorganisms and metabolic pathways for the production of difunctional alkanes.

Abstract: Aspects of the invention relate to methods for the production of difunctional alkanes in host cells. In particular, aspects of the invention describe components of genes associated with the difunctional alkane production from carbohydrate feedstocks in host cells. More specifically, aspects of the invention describe metabolic pathways for the production of adipic acid, aminocaproic acid, caprolactam, and hexamethylenediamine via 2-ketopimelic acid.

Abstract: Aspects of the invention relate to methods for the production of difunctional alkanes in host cells. In particular, aspects of the invention describe components of genes associated with the difunctional alkane production from carbohydrate feedstocks in host cells. More specifically, aspects of the invention describe metabolic pathways for the production of adipic acid, aminocaproic acid, caprolactam, and hexamethylenediamine via 2-ketopimelic acid.

Abstract: Provided herein are methods for the production of difunctional alkanes in microorganisms. Also provided are enzymes and nucleic acids encoding such enzymes, associated with the difunctional alkane production from carbohydrates feedstocks in microorganisms. The invention also provides recombinant microorganisms and metabolic pathways for the production of difunctional alkanes.

Abstract: Provided herein are methods for the production of difunctional alkanes in microorganisms. Also provided are enzymes and nucleic acids encoding such enzymes, associated with the difunctional alkane production from carbohydrates feedstocks in microorganisms. The invention also provides recombinant microorganisms and metabolic pathways for the production of difunctional alkanes.

Abstract: Provided herein are methods for the production of difunctional alkanes in microorganisms. Also provided are enzymes and nucleic acids encoding such enzymes, associated with the difunctional alkane production from carbohydrates feedstocks in microorganisms. The invention also provides recombinant microorganisms and metabolic pathways for the production of difunctional alkanes.

Abstract: Provided herein are methods for the production of difunctional alkanes in microorganisms. Also provided are enzymes and nucleic acids encoding such enzymes, associated with the difunctional alkane production from carbohydrates feedstocks in microorganisms. The invention also provides recombinant microorganisms and metabolic pathways for the production of difunctional alkanes.