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3UZJ

Designed protein KE59 R13 3/11H with benzotriazole

Summary for 3UZJ
Entry DOI10.2210/pdb3uzj/pdb
Related3UXA 3UXD 3UY7 3UY8 3UYC 3UZ5
DescriptorKemp eliminase KE59 R13 3/11H, 1H-benzotriazole, PHOSPHATE ION, ... (4 entities in total)
Functional Keywordsstructural genomics, israel structural proteomics center, ispc, beta barrel, lyase-lyase inhibitor complex, lyase/lyase inhibitor
Biological sourceEscherichia coli
Total number of polymer chains2
Total formula weight58033.38
Authors
Khersonsky, O.,Kiss, G.,Roethlisberger, D.,Dym, O.,Albeck, S.,Houk, K.N.,Baker, D.,Tawfik, D.S.,Israel Structural Proteomics Center (ISPC) (deposition date: 2011-12-07, release date: 2012-06-06, Last modification date: 2023-09-13)
Primary citationKhersonsky, O.,Kiss, G.,Rothlisberger, D.,Dym, O.,Albeck, S.,Houk, K.N.,Baker, D.,Tawfik, D.S.
Bridging the gaps in design methodologies by evolutionary optimization of the stability and proficiency of designed Kemp eliminase KE59.
Proc.Natl.Acad.Sci.USA, 109:10358-10363, 2012
Cited by
PubMed Abstract: Computational design is a test of our understanding of enzyme catalysis and a means of engineering novel, tailor-made enzymes. While the de novo computational design of catalytically efficient enzymes remains a challenge, designed enzymes may comprise unique starting points for further optimization by directed evolution. Directed evolution of two computationally designed Kemp eliminases, KE07 and KE70, led to low to moderately efficient enzymes (k(cat)/K(m) values of ≤ 5 10(4) M(-1)s(-1)). Here we describe the optimization of a third design, KE59. Although KE59 was the most catalytically efficient Kemp eliminase from this design series (by k(cat)/K(m), and by catalyzing the elimination of nonactivated benzisoxazoles), its impaired stability prevented its evolutionary optimization. To boost KE59's evolvability, stabilizing consensus mutations were included in the libraries throughout the directed evolution process. The libraries were also screened with less activated substrates. Sixteen rounds of mutation and selection led to > 2,000-fold increase in catalytic efficiency, mainly via higher k(cat) values. The best KE59 variants exhibited k(cat)/K(m) values up to 0.6 10(6) M(-1)s(-1), and k(cat)/k(uncat) values of ≤ 10(7) almost regardless of substrate reactivity. Biochemical, structural, and molecular dynamics (MD) simulation studies provided insights regarding the optimization of KE59. Overall, the directed evolution of three different designed Kemp eliminases, KE07, KE70, and KE59, demonstrates that computational designs are highly evolvable and can be optimized to high catalytic efficiencies.
PubMed: 22685214
DOI: 10.1073/pnas.1121063109
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (1.69 Å)
Structure validation

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