This document describes biochemical pathways for producing 2,3-dehydroadipyl-CoA methyl ester from precursors such as 2-oxoglutarate using one or more of a fatty acid O-methyltransferase, a thioesterase, a CoA-transferase and a CoA ligase, as well as recombinant hosts expressing one or more of such enzymes. 2,3-dehydroadipyl-CoA methyl ester can be enzymatically converted to adipyl-CoA using a trans-2-enoyl-CoA reductase, and a methylesterase, which in turn can be enzymatically converted to adipic acid, 6-aminohexanoate, 6-hydroxyhexanoate, caprolactam, hexamethylenediamine, or 1,6-hexanediol.

The disclosure relates to variant carboxylic acid reductase (CAR) enzymes for the improved production of fatty alcohols in recombinant host cells.

The present disclosure relates to bioengineering approaches for producing biofuel and, in particular, to the use of a C.sub.1 metabolizing microorganism reactor system for converting C.sub.1 substrates, such as methane or methanol, into biomass and subsequently into biofuels, bioplastics, or the like.

The present invention relates to a microbial cell for producing at least one acyl amino acid, wherein the cell is genetically modified to comprise; a first genetic mutation that enables the cell to produce at least one acyl amino acid and; a second genetic mutation that enables the cell to decrease glutamate breakdown relative to the wild type cell.

The present disclosure provides compositions and methods for biologically producing fatty acid derivatives, such as fatty alcohols, from recombinant C.sub.1 metabolizing microorganisms that utilize C.sub.1 substrates such as methane or natural gas as a feedstock.

This document describes biochemical pathways for producing 2(E)-heptenedioyl-CoA methyl ester from precursors such as 2-oxo-glutarate, acetyl-CoA, or succinyl-CoA using one or more of a fatty acid O-methyltransferase, a thioesterase, a CoA-transferase, a CoA ligase, as well as recombinant hosts expressing one or more of such enzymes. 2(E)-heptenedioyl-CoA methyl ester can be enzymatically converted to pimeloyl-CoA using a trans-2-enoyl-CoA reductase, and a methylesterase. Pimeloyl-CoA can be enzymatically converted to pimelic acid, 7-aminoheptanoate, 7-hydroxyheptanoate, heptamethylenediamine, or 1,7-heptanediol.

Provided herein are proteins capable of providing a mildew resistant phenotype, or mildew resistance, to plants belonging to the Kalanchoe genus. Also provided herein are nucleic acid sequences, or cDNA sequences, and genes encoding the present proteins. Further provided herein are methods using the proteins, nucleic acid sequences and genes for selecting mildew resistant Kalanchoe plants, such as Oidium kalanchoeae resistant Kalanchoe plants, and to generate mildew resistant Kalanchoe plants, such as Oidium kalanchoeae resistant Kalanchoe plants, comprising the present proteins, mRNA forms of the present cDNAs or the present genes.

Disclosed are methods for regulating biosynthesis of at least one of pimelic acid, 7-aminoheptanoic acid, 7-hydroxyheptanoic acid, heptamethylenediamine, 7-aminohelptanol and 1,7-heptanediol (C7 building blocks) using a pathway having a pimeloyl-ACP intermediate, the method including the step of downregulating the activity of BioF. Also disclosed are recombinant hosts by fermentation in which the above methods are performed. Further disclosed are recombinant hosts for producing pimeloyl-ACP, the recombinant host including a deletion of a bioF gene.

This document describes biochemical pathways for producing a difunctional product having an odd number of carbon atoms in vitro or in a recombinant host, or salts or derivatives thereof, by forming two terminal functional groups selected from carboxyl, amine, formyl, and hydroxyl groups in an aliphatic carbon chain backbone having an odd number of carbon atoms synthesized from (i) acetyl-CoA and propanedioyl-CoA via one or more cycles of methyl ester shielded carbon chain elongation or (ii) propanedioyl-[acp] via one or more cycles of methyl ester shielded carbon chain elongation. The biochemical pathways and metabolic engineering and cultivation strategies described herein rely on enzymes or homologs accepting methyl ester shielded aliphatic carbon chain backbones and maintaining the methyl ester shield for at least one further enzymatic step following one or more cycles of methyl ester shielded carbon chain elongation.

Occidiofungin is a cyclic nonribosomally synthesized antifungal peptide with submicromolar activity. This invention is directed to compositions enriched for particular occidiofungin diastereomers/conformers, methods of making compositions enriched for particular diastereomers/conformers and microorganisms suitable for producing enriched compositions of particular diastereomers/conformers. Methods of treating fungal infections or plants infected by fungi are also provided.