Hydrolytic zinc metallopeptides using a computational multi-state design approach
HF Carvalho, RJF Branco, FAS Leite… - Catalysis Science & …, 2019 - pubs.rsc.org
Hydrolytic zinc enzymes are common targets for protein design. The versatility of the zinc
chemistry can be combined with the usage of small protein scaffolds for biocatalytic …
chemistry can be combined with the usage of small protein scaffolds for biocatalytic …
Hydrolytic Zinc Metallopeptides Using a Computational Multi-State Design Approach
H Carvalho, RJF Branco, F Leite… - Catalysis Science & …, 2019 - amu.hal.science
Hydrolytic zinc enzymes are common targets for protein design. The versatility of the zinc
chemistry can be combined with the usage of small protein scaffolds for biocatalytic …
chemistry can be combined with the usage of small protein scaffolds for biocatalytic …
Hydrolytic Zinc Metallopeptides Using a Computational Multi-State Design Approach
H Carvalho, RJF Branco, F Leite… - Catalysis Science & …, 2019 - hal.science
Hydrolytic zinc enzymes are common targets for protein design. The versatility of the zinc
chemistry can be combined with the usage of small protein scaffolds for biocatalytic …
chemistry can be combined with the usage of small protein scaffolds for biocatalytic …
[PDF][PDF] Hydrolytic Zinc Metallopeptides Using a Computational Multi-State Design Approach
HF Carvalho, RJF Branco, F Leite, M Matzapetakis - hal.science
Hydrolytic zinc enzymes are common targets for protein design. The versatility of the zinc
chemistry can be combined with the usage of small protein scaffolds for biocatalytic …
chemistry can be combined with the usage of small protein scaffolds for biocatalytic …