• Technical Name
  • Enhancing carbon dioxide capture and photosynthesis efficiency with advanced new-generation bioenergy technology
  • Operator
  • National Yang Ming University
  • Booth
  • Online display only
  • Contact
  • 張傳雄
  • Email
  • cchang@ym.edu.tw
Technical Description Use our computer-aided whole genome analysis and design integrated system to design and assemble the gene regulation system of blue-green algae, allowing algae to release carbonic anhydrase enzyme and increase carbon dioxide adsorption, and efficiently achieve carbon reduction. Use computer-assisted analysis and design of dynamic metabolic networks that mimic the transgenic microalgae to predict the target genes that multiply the biomass and enhance the success rate of microalgae improvement.
Scientific Breakthrough Use our computer-aided whole genome analysis and design integrated system to design and assemble the gene regulation system of blue-green algae, allowing algae to increase CO2 adsorption, and efficiently achieve carbon reduction. Use analysis and design of dynamic metabolic networks that mimic the transgenic microalgae to identify the target genes that multiply the biomass and enhance the microalgae improvement.
Industrial Applicability Use our computer-aided whole genome analysis and design integrated system to design and assemble the gene regulation system of blue-green algae, allowing algae to increase CO2 adsorption, and efficiently achieve carbon reduction. Use analysis and design of dynamic metabolic networks that mimic the transgenic microalgae to identify the target genes that multiply the biomass and enhance the microalgae improvement.
本網站使用您的Cookie於優化網站。繼續瀏覽網站即表示您同意本公司隱私權政策,您可至隱私權政策了解詳細資訊。