The present disclosure relates to recombinant yeast host cells having (i) a first genetic modification for reducing the production of one or more native enzymes that function to produce glycerol or regulating glycerol synthesis and/or allowing the production of an heterologous glucoamylase and (ii) a second genetic modification for reducing the production of one or more native enzymes that function to produce trehalose or regulating trehalose synthesis and/or allowing the expression of an heterologous trehalase. The recombinant yeast host cells can be used to limit the production of (yeast-produced) trehalose (particularly extracellular trehalose) during fermentation and, in some embodiments, can increase the production of a fermentation product (such as, for example, ethanol).

The present disclosure relates to a method referred to herein as the split trehalase assay biosensor (also referred to herein as STIGA) is based on the use of engineered E. coli trehalase to detect analytes such as antibodies in a sample. The trehalase is engineered in a way such that the enzyme is split into two inactive fragments (N-terminal fragment H and C-terminal fragment A) with antigens fused to both fragments. When bivalent antibodies react specifically with the fused antigens, two inactive trehalase fragments are brought in close proximity to restore the activity of trehalase. The restored trehalase will hydrolyze trehalose into two glucose molecules which can be measured using existing glucose detection methods such as glucometer, Benedict's reagent, or ACCU-CHEK AVIVA glucose test strips.

Described are methods for generating a reporter molecule in response to a target analyte in a cell-free system. A synthetic biological circuit is used to modify the level of the reporter molecule in response to the presence of the target analyte. The reporter molecule may be glucose or another molecule readily detected using a device such as glucose monitor or other portable sensor. Also provided are kits comprising a cell-free system with a synthetic biological circuit that generates or consumes a reporter molecule in response to a target analyte.

Provided is a process to produce a yeast-derived product as well as a yeast autolysate or yeast extract comprising at least 1% w/w reducing sugar based on the total dry matter weight of the yeast extract or yeast autolysate. Also provided is a process to produce a reaction flavour. The yeast extract or yeast autolysate is very suitable for the production of a reaction flavour.

The present invention relates to polypeptides having trehalase activity. The invention also relates to nucleic acid constructs, vectors, and host cells comprising the polynucleotides as well as methods of producing and using a trehalase of the invention, in particular a process of producing a fermentation product, such as ethanol.

Compositions and methods to treat biofilms are disclosed based on the discovery of the role of the disaccharide trehalose in microbial biofilm development. In various embodiments to treat body-borne biofilms systemically and locally, the method includes administering trehalase, the enzyme which degrades trehalose, in combination with other saccharidases for an exposition time sufficient to adequately degrade the biofilm gel matrix at the site of the biofilm. The method also includes administering a combination of other enzymes such as proteolytic, fibrinolytic, and lipolytic enzymes to break down proteins and lipids present in the biofilm, and administering antimicrobials for the specific type(s) of infectious pathogen(s) underlying the biofilm. Additionally, methods are disclosed to address degradation of biofilms on medical device surfaces and biofilms present in industrial settings.

The present disclosure relates to recombinant yeast host cells having (i) a first genetic modification for reducing the production of one or more native enzymes that function to produce glycerol or regulating glycerol synthesis and/or allowing the production of an heterologous glucoamylase and (ii) a second genetic modification for reducing the production of one or more native enzymes that function to produce trehalose or regulating trehalose synthesis and/or allowing the expression of an heterologous trehalase. The recombinant yeast host cells can be used to limit the production of (yeast-produced) trehalose (particularly extracellular trehalose) during fermentation and, in some embodiments, can increase the production of a fermentation product (such as, for example, ethanol).

The present invention relates to polypeptides having trehalase activity. The invention also relates to nucleic acid constructs, vectors, and host cells comprising the polynucleotides as well as methods of producing and using a trehalase of the invention, in particular a process of producing a fermentation product, such as ethanol.

The present invention relates to polypeptides having trehalase activity, particularly derived from Talaromyces. The invention also relates to nucleic acid constructs, vectors, and host cells comprising the polynucleotides as well as methods of producing and using the polypeptides for the production of ethanol.

Compositions and methods to treat biofilms are disclosed based on the discovery of the role of the disaccharide trehalose in microbial biofilm development. In various embodiments to treat body-borne biofilms systemically and locally, the method includes administering trehalase, the enzyme which degrades trehalose, in combination with other saccharidases for an exposition time sufficient to adequately degrade the biofilm gel matrix at the site of the biofilm. The method also includes administering a combination of other enzymes such as proteolytic, fibrinolytic, and lipolytic enzymes to break down proteins and lipids present in the biofilm, and administering antimicrobials for the specific type(s) of infectious pathogen(s) underlying the biofilm. Additionally, methods are disclosed to address degradation of biofilms on medical device surfaces and biofilms present in industrial settings.