Some aspects provide engineered microbes for glycolate production. Methods for microbe engineering and culturing are also provided herein. Such engineered microbes exhibit greatly enhanced capabilities for glycolate production.

Recombinant Zymomonas mobilis for producing ethylene glycol, method and uses thereof are provided. The recombinant Zymomonas mobilis carries and expresses genes related to a synthesis pathway of xylonic acid and genes related to a synthesis pathway of ethylene glycol.

Recombinant Zymomonas mobilis for producing ethylene glycol, method and uses thereof are provided. The recombinant Zymomonas mobilis carries and expresses genes related to a synthesis pathway of xylonic acid and genes related to a synthesis pathway of ethylene glycol.

The present application relates to recombinant microorganisms useful in the biosynthesis of monoethylene glycol (MEG) and one or more three-carbon compounds such as acetone, isopropanol or propene. The MEG and one or more three-carbon compounds described herein are useful as starting material for production of other compounds or as end products for industrial and household use. The application further relates to recombinant microorganisms co-expressing a C2 branch pathway and a C3 branch pathway for the production of MEG and one or more three-carbon compounds. Also provided are methods of producing MEG and one or more three-carbon compounds using the recombinant microorganisms, as well as compositions comprising the recombinant microorganisms and/or optionally the products MEG and one or more three-carbon compounds.

The invention relates to recombinant cells and their use in the production of ethylene glycol.

The present application relates to recombinant microorganisms useful in the biosynthesis of monoethylene glycol (MEG) and one or more three-carbon compounds such as acetone, isopropanol or propene. The MEG and one or more three-carbon compounds described herein are useful as starting material for production of other compounds or as end products for industrial and household use. The application further relates to recombinant microorganisms co-expressing a C2 branch pathway and a C3 branch pathway for the production of MEG and one or more three-carbon compounds. Also provided are methods of producing MEG and one or more three-carbon compounds using the recombinant microorganisms, as well as compositions comprising the recombinant microorganisms and/or optionally the products MEG and one or more three-carbon compounds.

Some aspects provide engineered microbes for glycolate production. Methods for microbe engineering and culturing are also provided herein. Such engineered microbes exhibit greatly enhanced capabilities for glycolate production.

A method for converting a carbon source into ethylene glycol includes: providing a plasmid, in which the plasmid includes gene sequences of SEQ ID NO: 1, SEQ ID NO: 2, SEQ ID NO: 3, SEQ ID NO: 4, SEQ ID NO: 5, and SEQ ID NO: 6; implanting the plasmid into cyanobacteria through an electroporation treatment, so that modified cyanobacteria are obtained; and providing the carbon source to the modified cyanobacteria, so that the modified cyanobacteria convert the carbon source into the ethylene glycol.