Gene construct encoding mutant Thioesterase, mutant Thioesterase encoded thereby, transformed host cell containing the gene construct, and method of using them to produce medium-chain fatty acids

What is claimed is: 1. An unnatural, mutated protein comprising an amino acid sequence that is at least 85% identical to SEQ ID NO:1 and comprises one or more substitutions with respect to SEQ ID NO:1, wherein the protein has at least one of enhanced thioesterase activity and enhanced thioesterase specificity in catalyzing the hydrolysis of a medium-chain acyl-acyl carrier protein substrate or a medium-chain acyl-CoA substrate to yield a free fatty acid or a free fatty acid derivative compared to an unaltered protein of SEQ ID NO:1, wherein the one or more substitutions comprise one or more of: a lysine at a position aligning to R108 of SEQ ID NO:1; a tyrosine at a position aligning to F139 of SEQ ID NO:1; a valine at a position aligning to 142 of SEQ ID NO:1; a glycine at a position aligning to A111 of SEQ ID NO:1; a serine at a position aligning to P138 of SEQ ID NO:1; an isoleucine at a position aligning to M170 of SEQ ID NO:1; a serine at a position aligning to T35 of SEQ ID NO:1; and an aspartate as a position aligning to E142 of SEQ ID NO:1. 2. The protein of claim 1 , wherein the one or more substitutions comprise the lysine at the position aligning to R108 of SEQ ID NO:1. 3. The protein of claim 1 , wherein the one or more substitutions comprise the tyrosine at the position aligning to F139 of SEQ ID NO:1. 4. The protein of claim 3 , wherein the one or more substitutions further comprise: a phenylalanine at a position aligning to V38 of SEQ ID NO:1; and a cysteine at a position aligning to Y145 of SEQ ID NO:1. 5. The protein of claim 1 , wherein the one or more substitutions comprise one or more of: the valine at the position aligning to 142 of SEQ ID NO:1; the glycine at the position aligning to A111 of SEQ ID NO:1; and the serine at the position aligning to P138 of SEQ ID NO:1. 6. The protein of claim 1 , wherein the one or more substitutions comprise: the valine at the position aligning to 142 of SEQ ID NO:1; the glycine at the position aligning to A111 of SEQ ID NO:1; and the serine at the position aligning to P138 of SEQ ID NO:1. 7. The protein of claim 6 , wherein the one or more substitutions further comprise: an alanine at a position aligning to G75 of SEQ ID NO:1; and an arginine at a position aligning to Q106 of SEQ ID NO:1. 8. A gene construct encoding the protein of claim 1 . 9. The gene construct of claim 8 , comprising a nucleotide regulatory sequence operationally connected to nucleotides encoding the protein, wherein the regulatory sequence is dimensioned and configured to drive expression of the protein in a host cell transformed to contain the gene construct. 10. A host cell transformed to contain and express a gene construct encoding the protein of claim 1 . 11. The host cell of claim 10 , which is selected from the group consisting of a transformed microbe, a transformed eukaryote, a transformed prokaryote, and a transformed plant cell. 12. The protein of claim 1 , wherein the one or more substitutions comprise the isoleucine at the position aligning to M170 of SEQ ID NO:1. 13. The protein of claim 12 , wherein the one or more substitutions further comprise a proline at the position aligning to S47 of SEQ ID NO:1. 14. The protein of claim 1 , wherein the one or more substitutions comprise one or more of: the serine at the position aligning to T35 of SEQ ID NO:1; and the aspartate at the position aligning to E142 of SEQ ID NO:1. 15. The protein of claim 1 , wherein the one or more substitutions comprise: the serine at the position aligning to T35 of SEQ ID NO:1; and the aspartate at the position aligning to E142 of SEQ ID NO:1.