Abstract: Genetically modified LeuCD? enzyme complexes, processes for preparing a C7-C11 2-ketoacid utilizing genetically modified LeuCD? enzyme complexes, and microbial organisms including modified LeuCD enzyme complexes are described. The instantly-disclosed genetically modified LeuCD? enzyme complexes, processes for preparing a C7-C11 2-ketoacid, and microbial organisms including modified LeuCD? enzyme complexes can be particularly useful for producing C6-C10 aldehydes, alkanes, alcohols, and carboxylic acids, both in vivo and in vitro.

Abstract: Genetically modified isopropylmalate synthases, processes for preparing a C7-C11 2-ketoacids utilizing genetically modified isopropylmalate synthases, and microbial organisms including genetically modified isopropylmalate synthases are described. The genetically modified isopropylmalate synthases, processes for preparing a C7-C11 2-ketoacids, and microbial organisms including genetically modified isopropylmalate synthases can be particularly useful for producing corresponding Cn_1 aldehydes, alcohols, carboxylic acids, and Cn_2 alkanes both in vivo and in vitro.

Abstract: Genetically modified LeuCD? enzyme complexes, processes for preparing a C7-C11 2-ketoacid utilizing genetically modified LeuCD? enzyme complexes, and microbial organisms including modified LeuCD enzyme complexes are described. The instantly-disclosed genetically modified LeuCD? enzyme complexes, processes for preparing a C7-C11 2-ketoacid, and microbial organisms including modified LeuCD? enzyme complexes can be particularly useful for producing C6-C10 aldehydes, alkanes, alcohols, and carboxylic acids, both in vivo and in vitro.

Abstract: Genetically modified isopropylmalate synthases, processes for preparing a C7-C11 2-ketoacids utilizing genetically modified isopropylmalate synthases, and microbial organisms including genetically modified isopropylmalate synthases are described. The genetically modified isopropylmalate synthases, processes for preparing a C7-C11 2-ketoacids, and microbial organisms including genetically modified isopropylmalate synthases can be particularly useful for producing corresponding Cn_1 aldehydes, alcohols, carboxylic acids, and Cn_2 alkanes both in vivo and in vitro.