| 摘要 |
A method for the biosynthesis of bioactive polymers in which the first step is to prepare the Candida Utilis yeast in a fermenter, where the culture of the strain is performed under sequential additions of tensors, with variations in the concentrations and selection of successful live cells in the first metabolic step of the growth; the tensors induce a modified response in the surviving cultured strain, said response protecting the yeasts from the lethal effects caused by the high concentrations of said tensor, i.e., they turn resistant to the tensor. The tension involves two steps, an inhibition and a selection step, where finally results in phospohorylated bioactive polymeric compounds applied in healing processes in people that underwent a surgery, in diabetic prevention and treatment, herpes, hepatitis C. The process uses Candida Utilis which is subjected to biosynthesis, the genetic structure thereof being modified by sequential steps of different tensors, varying the concentrat ions thereof so that the planned protein is produced by the microorganism and the standard reserve strain is obtained, the present invention including a novel tensor which provides a higher number of amino acids, sixteen in total, eight of which being essential, compared to the reduced number obtained by the state-of-the-art technique.
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