Pioneering Methanotrophic Bioconversion
Innovative Methanotrophic Strain 5GB1C-RO1
At KAIGEN, we’ve developed the 5GB1C-RO1 methanotrophic strain, engineered using advanced CRISPR technology to enhance methane capture and conversion. This unique strain is designed to efficiently assimilate methane, achieving up to 25% higher uptake than conventional strains.
NanoGEIOS technologies and research has succesfully targeted key metabolic pathways, they optimized methane oxidation and carbon fixation.
What makes 5GB1C-RO1 Bacteria Unique for the methane removal
How our engineered strain key advantage compared to other solutions for methane and co2 removal :
High Methane Assimilation: Engineered to boost enzyme activity by up to 3-fold, allowing for faster methane processing.
Precision-Engineered with CRISPR: Includes three target modifications that enhance the strain's bioconversion capacity and stability.
Sustainable Outputs: Converts methane into biofeed, biofuels, and other valuable products, contributing to a circular economy.
CRISPR Technology
Engineered Strain for Methane Bioconversion
Transforming methane into sustainable bioproducts with advanced technology for a greener future.
CRISPR-Cas9 Methane Capture
Utilizing CRISPR-Cas9 technology, our genetically enhanced methanotrophic strain 5GB1C-RO1 is engineered for superior methane assimilation, ensuring high-efficiency bioconversion.
Advanced Inverse Bioreactors
Our cutting-edge inverse bioreactor maximizes the performance of the CRISPR-engineered strain, achieving up to 85% methane-to-bioproduct conversion efficiency under optimized conditions.
The CRISPR-modified strain produces biofuels, biofeed, and eco-friendly materials like bioplastics and surfactants, driving sustainability and reducing harmful emissions.
Sustainable Bioproducts
Next-Gen Methane Capture with CRISPR Technology
Converting methane into valuable bioproducts using cutting-edge CRISPR engineering and highly efficient bioconversion systems. Our technology paves the way for sustainable solutions that reduce emissions while creating clean energy and materials for a greener future