Metagenomic mining and structure-function studies of a hyper-thermostable cellobiohydrolase from hot spring sediment
2022
Migiwa Takeda | Seiki Baba | Jiro Okuma | Yoshitsugu Hirose | Asuka Nishimura | Masaki Takata | Kohei Oda | Daisuke Shibata | Takashi Kumasaka | Yasuhiro Kondo
Bacteria from hot springs are known for highly thermostable enzymes, which may have industrial potential. Here, a unique thermostable cellobiohydrolase is reported that can breakdown cellulose at temperature up to 95 degrees Celsius.
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