Blar i forfatter Artikler, rapporter og annet (Norges fiskerihøgskole) "Chan, Dennis Tin Chat"

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    • Innovating carbon-capture biotechnologies through ecosystem-inspired solutions 

      Schweitzer, Hannah; Aalto, Nerea Johanna; Busch, Wolfgang; Chan, Dennis Tin Chat; Chiesa, Matteo; Elvevoll, Edel O.; Gerlach, Robin; Krause, Kirsten; Mocaer, Karel; Moran, James J.; Noel, Joseph P.; Patil, Shalaka Kiran; Schwab, Yannick; Wijffels, Rene Hubertus; Wulff, Angela; Øvreås, Lise; Bernstein, Hans Christopher (Journal article; Tidsskriftartikkel; Peer reviewed, 2021-01-22)
      Rising atmospheric carbon concentrations affect global health, the economy, and overall quality of life. We are fast approaching climate tipping points that must be addressed, not only by reducing emissions but also through new innovation and action toward carbon capture for sequestration and utilization (CCSU). In this perspective, we delineate next-generation biotechnologies for CCSU supported by ...

    • Innovating carbon-capture biotechnologies through ecosystem-inspired solutions 

      Schweitzer, Hannah; Aalto, Nerea Johanna; Busch, Wolfgang; Chan, Dennis Tin Chat; Chiesa, Matteo; Elvevoll, Edel O.; Gerlach, Robin; Krause, Kirsten; Mocaer, Karel; Moran, James J.; Noel, Joseph P.; Patil, Shalaka Kiran; Schwab, Yannick; Wijffels, Rene Hubertus; Wulff, Angela; Øvreås, Lise; Bernstein, Hans Christopher (Journal article; Tidsskriftartikkel; Peer reviewed, 2021-01-22)
      Rising atmospheric carbon concentrations affect global health, the economy, and overall quality of life. We are fast approaching climate tipping points that must be addressed, not only by reducing emissions but also through new innovation and action toward carbon capture for sequestration and utilization (CCSU). In this perspective, we delineate next-generation biotechnologies for CCSU supported by ...

    • Revealing the Host-Dependent Nature of an Engineered Genetic Inverter in Concordance with Physiology 

      Chan, Dennis Tin Chat; Bernstein, Hans Christopher; Baldwin, Geoff S. (Journal article; Tidsskriftartikkel; Peer reviewed, 2023-08-16)
      Broad-host-range synthetic biology is an emerging frontier that aims to expand our current engineerable domain of microbial hosts for biodesign applications. As more novel species are brought to “model status,” synthetic biologists are discovering that identically engineered genetic circuits can exhibit different performances depending on the organism it operates within, an observation referred ...