Abstract: A protein scaffold includes a plurality of EutM subunits and a multi-enzyme cascade. The multi-enzyme cascade includes a first enzyme attached to the first EutM subunit and a second enzyme attached to the second EutM subunit. The scaffold may be formed by a method that generally includes incubating a plurality of EutM subunits under conditions allowing the EutM subunits to self-assemble into a protein scaffold, attaching a first enzyme of a multi-enzyme cascade to a first EutM subunit, and attaching a second enzyme of the multi-enzyme cascade to a second EutM subunit. The scaffold may be self-assembled in vivo or in vitro. Each enzyme may be, independently of any other enzyme, attached to its EutM subunit in vivo or in vitro. Each enzyme may be, independently of any other enzyme, attached to its EutM subunit before or after the scaffold is assembled.

Abstract: A protein scaffold includes a plurality of EutM subunits and a multi-enzyme cascade. The multi-enzyme cascade includes a first enzyme attached to the first EutM subunit and a second enzyme attached to the second EutM subunit. The scaffold may be formed by a method that generally includes incubating a plurality of EutM subunits under conditions allowing the EutM subunits to self-assemble into a protein scaffold, attaching a first enzyme of a multi-enzyme cascade to a first EutM subunit, and attaching a second enzyme of the multi-enzyme cascade to a second EutM subunit. The scaffold may be self-assembled in vivo or in vitro. Each enzyme may be, independently of any other enzyme, attached to its EutM subunit in vivo or in vitro. Each enzyme may be, independently of any other enzyme, attached to its EutM subunit before or after the scaffold is assembled.

Abstract: The present invention provides isolated polynucleotides and isolated polypeptides. The polypeptides of the present invention have isoprenoid wax ester synthase activity or isoprenoid acyl CoA-synthetase activity. The present invention also includes methods of using the polynucleotides and polypeptides of the present invention. For instance, the methods include producing biodiesel and producing wax esters.

Abstract: The invention provides methods and materials related to producing flavonoids as well as other organic compounds. For example, the invention provides isolated nucleic acids, polypeptides, host cells, and methods and materials for producing flavonoids and other organic compounds.

Abstract: This document provides methods and materials related to the production of carotenoids. For example, microorganisms containing one or more exogenous nucleic acids and producing detectable amounts of carotenoids are provided.

Abstract: The present invention provides isolated polynucleotides and isolated polypeptides. The polypeptides of the present invention have isoprenoid wax ester synthase activity or isoprenoid acyl CoA-synthetase activity. The present invention also includes methods of using the polynucleotides and polypeptides of the present invention. For instance, the methods include producing biodiesel and producing wax esters.

Abstract: The invention relates to biotechnologically expressible, enzymically active recombinant porcine liver esterases, to a biotechnological method for the preparation thereof and to the use thereof in organic synthesis. The monomeric subunits of recombinant porcine liver esterase are truncated at their C-terminal end, compared with naturally occurring porcine liver esterase subunits. Moreover, it has proved to be an additional advantage to truncate the N-terminal end as well.

Abstract: The invention relates to a process for the biotransformation of carotenoids using enzymes having cytochrome P450 monooxygenase activity; in particular monooxygenases from thermophilic bacteria, in particular of the genus Thermus sp.

Abstract: The invention provides methods and materials related to producing flavonoids as well as other organic compounds. For example, the invention provides isolated nucleic acids, polypeptides, host cells, and methods and materials for producing flavonoids and other organic compounds.

Abstract: Methods and materials for producing porphyrins are described. In particular, microorganisms that contain one or more exogenous nucleic acids are described that produce porphyrins in high yield.

Abstract: The invention relates to biotechnologically expressible, enzymically active recombinant porcine liver esterases, to a biotechnological method for the preparation thereof and to the use thereof in organic synthesis. The monomeric subunits of recombinant porcine liver esterase are truncated at their C-terminal end, compared with naturally occurring porcine liver esterase subunits. Moreover, it has proved to be an additional advantage to truncate the N-terminal end as well.

Abstract: The invention relates to a process for the oxidation of substituted trimethylcyclohexenyl compounds in the presence of microorganisms of the order Actinomycetales and to the use of microorganisms in oxidation reactions.

Abstract: The present invention relates to engineering new biosynthetic pathways into microorganisms, in particular biosynthetic carotenoid pathways. New and improved catalytic functions of metabolic pathways are created by, for example, site-specific mutation or gene shuffling techniques, to provide for efficient biosynthesis of carotenoids. By applying the described directed evolution techniques, almost any carotenoid could be produced, in a host cell, from one or a few sets of genes. In addition, the described techniques are useful for creating gene or protein libraries for new and uncharacterized carotenoids.