Present invention relates to new strains of Bacillus paralicheniformis with improved ability to form biofilm and colonize the rhizosphere when compared to their parental strains from where they are derived.

A recombinant microorganism for producing 2,3-butanediol consisting of selecting at least three groups from uridine diphosphate glucose phosphate uroglycan transferase gene (galU), acetyl alcohol dehydrogenase gene (acoA), acetyl phosphate transferase gene (pta), adenosine glucosylphosphate transferase gene (glgC), lactose dehydrogenase gene (ldhA), and phosphodiesterase gene (pdeC) which were modified.

The present disclosure relates to various different types of variants in E. coli coding and noncoding regions leading to enhanced lysine production for, e.g., supplements and nutraceuticals.

The present disclosure relates to various different types of variants in E. coli coding and noncoding regions leading to enhanced lysine production for, e.g., supplements and nutraceuticals.

The present disclosure relates to various different types of variants in E. coli coding and noncoding regions leading to enhanced lysine production for, e.g., supplements and nutraceuticals.

The present disclosure relates to various different types of variants in E. coli coding and noncoding regions leading to enhanced lysine production for, e.g., supplements and nutraceuticals.

Present invention relates to new strains of Bacillus paralicheniformis with improved ability to form biofilm and colonize the rhizosphere when compared to their parental strains from where they are derived.