Xiazhen Li scite author profile

Engineered biosynthetic pathways have the potential to produce high-value molecules from inexpensive feedstocks, but a key limitation is engineering enzymes with high activity and specificity for new reactions. Here, we developed a method for combining structure-based computational protein design with library-based enzyme screening, in which inter-residue correlations favored by the design are encoded into a defined-sequence library. We validated this approach by engineering a glucose 6-oxidase enzyme for use in a proposed pathway to convert D-glucose into D-glucaric acid. The most active variant, identified after only one round of diversification and screening of only 10,000 wells, is approximately 400-fold more active on glucose than is the wild-type enzyme. We anticipate that this strategy will be broadly applicable to the discovery of new enzymes for engineered biological pathways.

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Dowel–bearing behavior of bamboo scrimber for bolted–type joint

Mou

Yuan

et al. 2023

Industrial Crops and Products

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Effects of moisture content and load orientation on dowel-bearing behavior of bamboo scrimber

Mou

Ren

et al. 2020

Construction and Building Materials

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Function analysis of a semi-dwarf sdg in rice with near isogenic lines*

Liang

et al. 2004

Progress in Natural Science

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Effect of elevated temperature on physical and mechanical properties of engineered bamboo composites

Mou

et al. 2022

Industrial Crops and Products

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Xiazhen Li

Engineering Enzyme Specificity Using Computational Design of a Defined-Sequence Library

Dowel–bearing behavior of bamboo scrimber for bolted–type joint

Effects of moisture content and load orientation on dowel-bearing behavior of bamboo scrimber

Function analysis of a semi-dwarf sdg in rice with near isogenic lines*

Effect of elevated temperature on physical and mechanical properties of engineered bamboo composites

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