Freddy Castillo-Alfonso scite author profile

The industrial production of plants promoter like auxins is gaining interest, in consequence it is important to un- derstand the metabolism of the microorganisms involved and the optimal conditions for their industrial production. In this study the metabolic model of Bacillus subtilis was used to estimate intracellular ﬂuxes and the robustness of the principal branching points of aerobic propionate metabolism for the 3-indoleacetic acid (IAA) production. The robustness analyzes of the metabolic network showed the enzymes that participate in the synthesis of erythrose 4-phosphate and glyceraldehyde 3-phosphate as possible limiting metabolites in the synthesis of IAA and might be a target for metabolic engineering strategies. The phenotype phase plane analysis allowed the identiﬁcation of the opti- mal rate growth conditions to produce the auxin (less than 0.1 h).

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Freddy Castillo-Alfonso

Modeling and Experimental Validation of Algorithms for Maximum Quantity of Protein to be Immobilized on Solid Supports by Electrostatic Adsorption in the Strategy of Rational Design of Immobilized Derivatives

Optimization of theoretical maximal quantity of cells to immobilize on solid supports in the rational design of immobilized derivatives strategy

The robustness analysis of propionate metabolism in Bacillus subtilis during 3-indolacetic acid production

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