Patent ID: 8977530
Filing Date: 2015-03-10
Classification: G16B

Abstract:
1. A method for identifying genes for enhancing the production of a target useful substance, the method comprising the steps of: (a) providing a metabolic network model specific to the production of the target useful substance in said host microorganism, wherein the target useful substance is selected from the group consisting of lycopene, shikimate, and indigo; (b) calculating a maximum value of metabolic flux associated with production of the target useful substance by the host microorganism in the provided metabolic network model, comprising executing the following algorithm to determine said maximum value: wherein: S ij is the reaction coefficient matrix of the provided metabolic network model, and v j is metabolic flux; (c) calculating an optimum value of metabolic flux associated with production of the target useful substance by the host microorganism in the provided metabolic network model when the growth of the microorganism is maximum, comprising executing the following algorithm to determine said optimum value: wherein: S ij is the reaction coefficient matrix of the provided metabolic network model, and v j is metabolic flux; (d) executing a flux scanning based on enforced objective flux (FSEOF) algorithm on a suitably programmed computer, for the maximum value of metabolic flux associated with production of the target useful substance by the host microorganism in the provided metabolic network model, as calculated in step (b), and the optimum value of metabolic flux associated with production of the target useful substance by the host microorganism in the provided metabolic network model, as calculated in step (c), wherein the FSEOF algorithm selects metabolic fluxes whose absolute value increases in a range between the optimum value calculated in step (c) and the maximum value calculated in step (b), and wherein the FSEOF algorithm is represented as follows: wherein S ij is the reaction coefficient matrix of the provided metabolic network model, v j is metabolic flux, v opt is the optimum value of metabolic flux, |v j | max is the absolute maximum value of metabolic flux, calculated by the FSEOF algorithm, f p,j is production-associated metabolic flux, f p,max is the maximum value corresponding to the theoretical maximum yield of production-associated metabolic flux, f p,opt is the optimum value of production-associated metabolic flux of the target useful substance, Y is a set including the characteristic factor of the FSEOF algorithm, and y k is the characteristic factor of the FSEOF algorithm in the set Y; (e) identifying genes that are involved in the metabolic fluxes that have been selected by the FSEOF algorithm in step (d); (f) selecting an optimal set of genes for enhancing the production of the target useful substance which are involved in metabolic fluxes showing a monotonous increase from the genes identified in step (e); and (g) preparing the target useful substance, comprising culturing an organism that has been improved by said optimal set of genes for production of said target useful substance.