A method for screening substances for their ability to reduce malodours from emanations from an animal, said method comprising determining the effect of said substances on the C-S lyase activity of bacteria that emit volatile sulphuric compounds (VSCs), by contacting a test substance with a sample comprising said bacteria or a supernatant obtainable from a culture of said bacteria in the presence of a substrate for a C-S lyase, detecting the levels of thiol production from said bacteria, and comparing the results with those obtained from similar bacteria in the absence of said substance.

A method for screening substances for their ability to reduce malodours from emanations from an animal, said method comprising determining the effect of said substances on the C-S lyase activity of bacteria that emit volatile sulphuric compounds (VSCs), by contacting a test substance with a sample comprising said bacteria or a supernatant obtainable from a culture of said bacteria in the presence of a substrate for a C-S lyase, detecting the levels of thiol production from said bacteria, and comparing the results with those obtained from similar bacteria in the absence of said substance.

The subject technology generally relates to biosynthesis of styrene. Certain embodiments of the subject technology is based, in part, on the recognition that phenylalanine can be converted to styrene by a two-step pathway of deamination and de-carboxylation, with trans-cinnamic acid (tCA) as the intermediate. Two types of enzymes are directly involved in this process, phenylalanine ammonia lyase (PAL), which converts phenylalanine to tCA, and cinnamic acid decarboxylase, which coverts tCA to styrene. Host cells expressing these two types of enzymes can be cultured in bioreactor to produce styrene from renewable substrates such as glucose.

The subject technology generally relates to biosynthesis of styrene. Certain embodiments of the subject technology is based, in part, on the recognition that phenylalanine can be converted to styrene by a two-step pathway of deamination and de-carboxylation, with trans-cinnamic acid (tCA) as the intermediate. Two types of enzymes are directly involved in this process, phenylalanine ammonia lyase (PAL), which converts phenylalanine to tCA, and cinnamic acid decarboxylase, which coverts tCA to styrene. Host cells expressing these two types of enzymes can be cultured in bioreactor to produce styrene from renewable substrates such as glucose.

The patent application relates to isolated polypeptides that specifically cleave non-glycosidic ether bonds between lignins or derivatives thereof and saccharides, and to cDNAs encoding the polypeptides. The patent application also relates to nucleic acid constructs, expression vectors and host cells comprising the cDNAs, as well as methods of producing and using the isolated polypeptides for treating pulp and biomass to increase soluble saccharide yield and enrich lignin fractions.

The patent application relates to isolated polypeptides that specifically cleave non-glycosidic ether bonds between lignins or derivatives thereof and saccharides, and to cDNAs encoding the polypeptides. The patent application also relates to nucleic acid constructs, expression vectors and host cells comprising the cDNAs, as well as methods of producing and using the isolated polypeptides for treating pulp and biomass to increase soluble saccharide yield and enrich lignin fractions.

Methods and composition related to the engineering of a novel protein with methionine-γ-lyase enzyme activity are described. For example, in certain aspects there may be disclosed a modified cystathionine-γ-lyase (CGL) comprising one or more amino acid substitutions and capable of degrading methionine. Furthermore, certain aspects of the invention provide compositions and methods for the treatment of cancer with methionine depletion using the disclosed proteins or nucleic acids.

Methods and composition related to the engineering of a novel protein with methionine-γ-lyase enzyme activity are described. For example, in certain aspects there may be disclosed a modified cystathionine-γ-lyase (CGL) comprising one or more amino acid substitutions and capable of degrading methionine. Furthermore, certain aspects of the invention provide compositions and methods for the treatment of cancer with methionine depletion using the disclosed proteins or nucleic acids.

A method for detecting an analyte is described in which the simultaneously binding of two fusion proteins (i.e., a sandwich assay in solution) is used, bringing two halves of a split enzyme together to produce product, which is detected via a FRET-based biosensor. The method may incorporate an autocatalytic feedback loop that responds to enzymatic product by producing more product to provide ultrasensitive, bistable detection of analyte that is tunable over several orders of magnitude. This system is broadly applicable for protein and small molecule detection.

A method for detecting an analyte is described in which the simultaneously binding of two fusion proteins (i.e., a sandwich assay in solution) is used, bringing two halves of a split enzyme together to produce product, which is detected via a FRET-based biosensor. The method may incorporate an autocatalytic feedback loop that responds to enzymatic product by producing more product to provide ultrasensitive, bistable detection of analyte that is tunable over several orders of magnitude. This system is broadly applicable for protein and small molecule detection.