Abstract: The present invention is related to a recombinant microorganism for improved methionine production comprising modifications to produce methionine from glucose as main carbon source by fermentation, and modifications to improve glucose import, wherein the glucose import is improved by modifying the expression of at least one gene selected from ptsG, sgrT sgrS and dgsA. The invention is also related to a method for the fermentative production of methionine or methionine derivatives comprising the steps of: culturing the recombinant microorganism as described above in an appropriate culture medium comprising a fermentable source of carbon containing glucose and a source of sulphur, and recovering methionine or methionine derivatives from the culture medium.

Abstract: The present invention is related to a method for the fermentative production of hydroxymethionine, comprising the steps of: culturing a recombinant microorganism modified to produce methionine in an appropriate culture medium comprising a source of carbon, a source of sulfur and a source of nitrogen, recovering hydroxymethionine from the culture medium. In a specific embodiment, the recombinant microorganism is cultivated under conditions of nitrogen limitation. The invention is also related to the biologically-produced hydroxymethionine and its uses.

Abstract: The present invention is related to a method for the fermentative production of glycolic acid, its derivatives or precursors, comprising the culture of an Escherichia coli strain in an appropriate culture medium comprising a carbon source, and the recovery of glycolic acid in the medium, wherein said E. coli strain is modified to improve the conversion of orotate into orotidine 5?-P. The invention is also related to the modified E. coli strain, showing an improved conversion of orotate into orotidine 5?-P, and optionally that was furthermore modified for an improved glycolic acid production.

Abstract: The present invention is related to a microorganism for the production of methionine, wherein said microorganism is modified to enhance the transhydrogenase activity of PntAB. In a preferred aspect of the invention, the activity of the transhydrogenase UdhA is attenuated in said microorganisms. The invention also related to a method for producing methionine by fermentation.

Abstract: The present invention relates to use of inducible promoters in the production of glycolic acid by fermentation. The present invention concerns a method for the production of glycolic acid in a fermentative process comprising the following steps: culturing a modified microorganism in an appropriate culture medium comprising a source of carbon, modulating in said microorganism the expression of a target gene with an external stimulus, and recovering glycolic acid from the culture medium, wherein in said modified microorganism, the expression of at least one gene involved in glycolic acid production is under the control of a heterologous inducible promoter whose activity is modulated with said external stimulus. The invention also concerned the modified microorganism used in the method of glycolic acid production.

Abstract: The present invention relates to an improved method for the bioconversion of a fermentable carbon source to glycolic acid by a recombinant microorganism bearing new genetic modifications such as ?ldhA, ?mgsA, ?arcA, and ?lldP, ?glcA, ?yjcG and combination of them allowing a production with higher yield, titer and productivity.

Abstract: The present invention relates to a process of fermentation for producing glycolic acid under specific pH conditions with an increase of the pH during fermentation. The invention relates more particularly to a method for producing glycolic acid by fermentation, which comprises culturing a microorganism having glycolic acid producing ability in an appropriate culture medium with a carbon source, and under specific pH conditions with an increase of the pH during fermentation, and recovery of glycolic acid from the culture medium.

Abstract: The present invention relates to a method for producing and preparing polyglycolate (PGA) from genetically engineered organisms. More specifically, the invention relates to a method comprising two steps; 1) culturing, in a medium containing glycolic acid or not, the microorganism expressing at least one gene encoding an enzyme(s) that converts glycolate into glycolyl-CoA, and a gene encoding polyhydroxyalkanoate (PHA) synthase which uses glycolyl-CoA as a substrate, 2) recovering the polyglycolate polymer.