Disclosed are purified proteins, cell lysates, cell-free extracts, and protein extracts comprising 1-hexene monooxygenase (1-HMO) and methods of their use for delaying plant development.

The present disclosure relates to compositions for regulating lipokines and methods of use thereof.

The present invention provides host cells and methods for making mogrol glycosides, including Mogroside V (Mog. V), Mogroside VI (Mog. VI), Iso-Mogroside V (Isomog. V), and glycosylation products that are minor products in Siraitia grosvenorii. The invention provides engineered enzymes and engineered host cells for producing mogrol glycosylation products, such as Mog, V. Mog. VI, and Isomog. V, at high purity and/or yield. The present technology further provides methods of making products containing mogrol glycosides, such as Mog. V, Mog. VI, and Isomog. V, including food products, beverages, oral care products, sweeteners, and flavoring products.

Disclosed herein are methods of bioproduction of enantiomerically pure or enantiomerically enriched 2-phenylglycinol or a derivative thereof by multiple enzyme-catalyzed chemical transformations in a one-pot reaction system.

Described in this application are proteins and host cells involved in methods of producing mogrol precursors, mogrol, and/or mogrosides.

The present invention relates to the fields of life sciences, micro-organisms and degradation of polyolefin polymers. Specifically, the invention relates to an isolated specific enzyme or a fragment thereof, wherein said enzyme or fragment is capable of degrading a polyolefin, and to a micro-organism or a host cell comprising the enzyme or a fragment thereof. Also, the present invention relates to a polynucleotide encoding the enzyme or fragment thereof, and to an expression vector or plasmid comprising the polynucleotide of the present invention. And still, the present invention relates to use of the enzyme, fragment, micro-organism, host cell, polynucleotide, expression vector or plasmid of the present invention for degrading a polyolefin: to a method of degrading a polyolefin with the specific enzyme or a fragment thereof: and to a method of producing the enzyme or fragment thereof of the present invention.

Biofilms are provided which are capable of regulating their own thickness, reducing contamination and preventing biofouling. Constructs are introduced into bacteria that comprise nucleic acid molecules encoding an autoinducer synthase polypeptide, a transcriptional regulator and a biofilm dispersal protein. Nucleic acid molecules may also be introduced which encode a nitric oxide synthase, an epoxide hydrolase, or both. Biofilms of the bacteria may be used to reduce biofouling and contamination of a surface.

Biofilms are provided which are capable of regulating their own thickness, reducing contamination and preventing biofouling. Constructs are introduced into bacteria that comprise nucleic acid molecules encoding an autoinducer synthase polypeptide, a transcriptional regulator and a biofilm dispersal protein. Nucleic acid molecules may also be introduced which encode a nitric oxide synthase, an epoxide hydrolase, or both. Biofilms of the bacteria may be used to reduce biofouling and contamination of a surface.

A composition comprising an enzyme, a mycotoxin-binding agent and a microorganism capable of taking up a mycotoxin.

Biofilms are provided which are capable of regulating their own thickness, reducing contamination and preventing biofouling. Constructs are introduced into bacteria that comprise nucleic acid molecules encoding an autoinducer synthase polypeptide, a transcriptional regulator and a biofilm dispersal protein. Nucleic acid molecules may also be introduced which encode a nitric oxide synthase, an epoxide hydrolase, or both. Biofilms of the bacteria may be used to reduce biofouling and contamination of a surface.