Yu Min Zhou scite author profile

Yu Min Zhou

3Publications

73Citation Statements Received

119Citation Statements Given

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114

Affiliations

Australian National University, Australian Research Council, Inner Mongolia University

Publications

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Directed Evolution of an Improved Rubisco; In Vitro Analyses to Decipher Fact from Fiction

Zhou

Whitney

2019

IJMS

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Inaccuracies in biochemically characterizing the amount and CO2-fixing properties of the photosynthetic enzyme Ribulose-1,5-bisphosphate (RuBP) carboxylase/oxygenase continue to hamper an accurate evaluation of Rubisco mutants selected by directed evolution. Here, we outline an analytical pipeline for accurately quantifying Rubisco content and kinetics that averts the misinterpretation of directed evolution outcomes. Our study utilizes a new T7-promoter regulated Rubisco Dependent Escherichia coli (RDE3) screen to successfully select for the first Rhodobacter sphaeroides Rubisco (RsRubisco) mutant with improved CO2-fixing properties. The RsRubisco contains four amino acid substitutions in the large subunit (RbcL) and an improved carboxylation rate (kcatC, up 27%), carboxylation efficiency (kcatC/Km for CO2, increased 17%), unchanged CO2/O2 specificity and a 40% lower holoenzyme biogenesis capacity. Biochemical analysis of RsRubisco chimers coding one to three of the altered amino acids showed Lys-83-Gln and Arg-252-Leu substitutions (plant RbcL numbering) together, but not independently, impaired holoenzyme (L8S8) assembly. An N-terminal Val-11-Ile substitution did not affect RsRubisco catalysis or assembly, while a Tyr-345-Phe mutation alone conferred the improved kinetics without an effect on RsRubisco production. This study confirms the feasibility of improving Rubisco by directed evolution using an analytical pipeline that can identify false positives and reliably discriminate carboxylation enhancing amino acids changes from those influencing Rubisco biogenesis (solubility).

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Grafting Rhodobacter sphaeroides with red algae Rubisco to accelerate catalysis and plant growth

et al. 2023

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Informational parameters of nucleic acid and molecular evolution

Luo

Tsai

Zhou

1988

Journal of Theoretical Biology

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Yu Min Zhou

Directed Evolution of an Improved Rubisco; In Vitro Analyses to Decipher Fact from Fiction

Grafting Rhodobacter sphaeroides with red algae Rubisco to accelerate catalysis and plant growth

Informational parameters of nucleic acid and molecular evolution

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