Abstract: Whole cell based biostimulant compositions and methods for improving agricultural productivity the compositions including: a microbial consortium having gammaproteobacterial methanotroph. As a result of these methanotrophs, the biostimulant composition enables plant performance improvement, utilization of methane, and facilitates improved nitrogen fixation in plants. The composition also helps in reducing the need of external chemical fertilizers for plant growth, development, performance and/or survival.

Abstract: The present disclosure is related to a process comprising steps of fermentation, separation and purification that can be carried out in a centralized facility with large scale fermentation or in a decentralized facility with smaller scales of fermentation to make value added products from substrate not limiting to gaseous substrates effectively. The fermentation involves fermentative production of a marketable product using reactors or fermentors which are optimized for influential parameters such as gaseous substrate, gas hold up, mass transfer coefficient, etc. The separation step involves an effective way of separating desired product from fermentation broth by employing filtration, precipitation or adsorption techniques thereby enabling easy transportation of the product in case of a decentralized facility. The final stage of the process, either in centralized or decentralized facility, includes the elution of retained product and further purification of the same using downstream processing techniques.

Abstract: The present disclosure provides for production of succinic acid from organic waste or biogas or methane using recombinant methanotrophic bacterium. In one embodiment, the recombinant methanotrophic bacterium includes exogenous nucleic acid(s) or gene(s) encoding for specified enzymes. In a further embodiment, succinic acid producing capacity of the recombinant methanotrophic bacterium is increased above the basal level by overexpression or/and downregulation of selected gene(s). In another embodiment, a process of producing succinic acid using the recombinant methanotrophic bacterium is disclosed. The present invention successfully solves the problems in converting organic waste to a useful chemical thereby providing an environment-friendly and commercially viable solution for waste management.

Abstract: The present disclosure provides for production of lactic acid from organic waste or biogas or methane using recombinant methanotrophic bacteria. In one embodiment, the recombinant methanotrophic bacterium includes a heterologous nucleic acid encoding for lactate dehydrogenase (ldh) enzyme. In a further embodiment, the capacity of the recombinant methanotrophic bacterium for producing lactic acid over basal level is increased by overexpression or/and down-regulation or deletion of specified genes. In another embodiment, a process for producing lactic acid from organic waste using the recombinant methanotrophic bacterium is disclosed. The present disclosure provides a cradle to cradle environment-friendly and commercially viable solution for managing organic waste.

Abstract: The present disclosure provides for production of succinic acid from organic waste or biogas or methane using recombinant methanotrophic bacterium. In one embodiment, the recombinant methanotrophic bacterium includes exogenous nucleic acid(s) or gene(s) encoding for specified enzymes. In a further embodiment, succinic acid producing capacity of the recombinant methanotrophic bacterium is increased above the basal level by overexpression or/and downregulation of selected gene(s). In another embodiment, a process of producing succinic acid using the recombinant methanotrophic bacterium is disclosed. The present invention successfully solves the problems in converting organic waste to a useful chemical thereby providing an environment-friendly and commercially viable solution for waste management.

Abstract: The present disclosure provides for production of lactic acid from organic waste or biogas or methane using recombinant methanotrophic bacteria. In one embodiment, the recombinant methanotrophic bacterium includes a heterologous nucleic acid encoding for lactate dehydrogenase (Idh) enzyme. In a further embodiment, the capacity of the recombinant methanotrophic bacterium for producing lactic acid over basal level is increased by overexpression or/and down-regulation or deletion of specified genes. In another embodiment, a process for producing lactic acid from organic waste using the recombinant methanotrophic bacterium is disclosed. The present disclosure provides a cradle to cradle environment-friendly and commercially viable solution for managing organic waste.