Project description:Boosting biomethanation using magnetite nanoparticles

Project description:16s biohydrogen production bacteria

Project description:Microbial communities for biohydrogen production

Project description:Amorphous magnesium-substituted calcium phosphate (AMCP) nanoparticles form constitutively in large numbers in the gastrointestinal tract. Collective evidence indicates that they trap luminal macromolecules, such as bacterial and dietary protein antigen, delivering this cargo to mucosal antigen presenting cells. Here using a precise synthetic mimetic of the AMCP nanomineral, we studied whether trapping of macromolecules by AMCP modulates signalling of the macromolecule itself. Based upon whole genome transcriptomic analyses and using peptidoglycan as a macromolecule, we showed that neither AMCP nanomineral itself regulated any gene, nor did it modify any gene regulation by peptidoglycan. We conclude that synthetic AMCP nanomineral can deliver macromolecular cargo intracellularly without affecting gene transcription.

Project description:Continuous Biohydrogen Production from Sugarcane Molasses

Project description:Fermentative biohydrogen production from complex substrates

Project description:We have previously reported that phosphoenolpyruvate carboxykinase(Pck) overexpression under glycolytic conditions enables Escherichia coli to harbor a high intracellular ATP pool resulting in enhanced recombinant protein synthesis and biohydrogen production. To understand possible reasons of the high ATP haboring cell, we carried out transcriptome and metabolic flux analysis.

Project description:Calcium and Magnesium responses in Brassica rapa

Project description:Biohydrogen production in acidic fermentation of glucose

Project description:dark fermentation for biohydrogen production in batch system