Robbie Ge
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View article: Linker‐mediated domain separation enhances cold adaptation in cellulases
Linker‐mediated domain separation enhances cold adaptation in cellulases Open
Cold‐adapted cellulases have the potential to reduce energy demands in industrial processes by enabling efficient cellulose saccharification at lower temperatures. However, the structural basis of cold adaptation in bidomain cellulases rem…
View article: Enhancing Cold Adaptation of Bidomain Amylases by High‐Throughput Computational Engineering
Enhancing Cold Adaptation of Bidomain Amylases by High‐Throughput Computational Engineering Open
Cold‐adapted bidomain enzymes have the potential to foster industrial sustainability by reducing energy consumption and greenhouse gas emissions. Despite their allure, these benefits are unattainable, as the molecular basis of cold adaptat…
View article: Linker-Mediated Domain Separation Enhances Cold Adaptation in Cellulases
Linker-Mediated Domain Separation Enhances Cold Adaptation in Cellulases Open
Cold-adapted cellulases are crucial for reducing energy demands in industrial processes by enabling efficient cellulose saccharification at lower temperatures. However, the structural basis of cold adaptation in bidomain cellulases remains…
View article: Enhance Cold Adaptation of Bidomain Amylases via High-throughput Computational Engineering
Enhance Cold Adaptation of Bidomain Amylases via High-throughput Computational Engineering Open
Cold-adapted bidomain enzymes are vital for transforming modern industries by decreasing energy consumption, delivering economic benefits, and fostering sustainability through reduced greenhouse gas emissions. Yet, the design strategies gu…