Provided is a transformed cell improved in C4 dicarboxylic acid productivity. A transformed cell containing a foreign polynucleotide encoding a polypeptide consisting of an amino acid sequence represented by SEQ ID NO: 2, an amino acid sequence represented by SEQ ID NO: 22 or an amino acid sequence having an identity of at least 80% with any of the sequences.

This document relates to molecular complexes having acid alpha glucosidase activity and at least one modification that results in enhanced ability of the molecular complex to be transported to the interior of a mammalian cell.

Recombinant microbial cells comprising an engineered LCDA production pathway that comprises at least one up-regulated long-chain acyl-CoA synthetase (ACoS) are disclosed. These recombinant microbial cells are capable of producing one or more long-chain dicarboxylic acid (LCDA) products from a long-chain fatty acid-comprising substrate. Methods of using recombinant microbial cells to produce LCDAs are also disclosed.

Disclosed herein are methods of making multifunctional microbial cellulases. The engineered multifunctional microbial cellulases disclosed herein exhibit improved activity over native cellulases.

The present invention relates to isolated polypeptides having protease activity, and polynucleotides encoding the polypeptides. The invention further relates to the use of such polypeptides in detergent and/or in cleaning processes. The invention also relates to nucleic acid constructs, vectors, and host cells comprising the polynucleotides as well as methods of producing the polypeptides.

The present invention generally relates to processes for the enzymatic production of a phosphinothricin product or precursor thereof from a nitrile-containing substrate.

The present invention provides an isolated fungal cell that is capable of producing one or more biomass-degrading enzymes and that exhibits increased or decreased expression or copy number of a polynucleotide encoding a PtaB-like protein. Also provided is a fermentation processes for producing one or more biomass-degrading enzymes comprising a fungal cells exhibiting increased or decreased expression or copy number of a polynucleotide encoding a PtaB-like protein. The biomass-degrading enzymes produced by the isolate fungal cell and fermentation processes of the present invention may be used in a process to produce soluble sugars from biomass.

The present invention refers to lambda integrases comprising at least one amino acid mutation at positions 43, 319 and 336 of the lambda integrase as set forth in SEQ ID NO: 1. The invention further refers to nucleic acid molecules comprising the nucleotide sequence encoding the mutant lambda integrase and to host cells containing these nucleic acid molecules. The invention also refers to methods of recombining a nucleic acid of interest into a target nucleic acid in the presence of the mutant lambda integrase and sequence specific recombination kits.

Enzymes for producing non-straight-chain fatty acids, microorganisms comprising the enzymes, and in vivo and in vitro uses of the enzymes. Provided are enzymes capable of producing various non-straight-chain fatty acids, including branched-chain fatty acids, cyclic fatty acids, and furan-containing fatty acids. The enzymes include RSP2144, RSP1091, and RSP1090 from Rhodobacter sphaeroides and homologs thereof. The enzymes can be purified to produce non-straight-chain fatty acids in vitro or expressed in microorganisms to produce non-straight-chain fatty acids in vivo. The microorganisms can be fine-tuned to produce a specific type of non-straight-chain fatty acid by expressing, overexpressing, or deleting the enzymes in various combinations.

The present invention relates to a recombinant microorganism capable of producing putrescine, in which the microorganism is modified to have enhanced NCgl2522 activity, thereby producing putrescine in a high yield, and a method for producing putrescine using the microorganism.