Name: the crystal structure of engineered cytochrome c peroxidase from saccharomyces cerevisiae with a his175me-his proximal ligand substitution Date: 2020-01-29 00:00:00 UTC
Description: the crystal structure of engineered cytochrome c peroxidase from saccharomyces cerevisiae with a...
DOI: 10.2210/pdb6h8/pdb
Location: https://www.rcsb.org/structure/6h08
Article: Rewiring the “Push-Pull” Catalytic Machinery of a Heme Enzyme Using an Expanded Genetic Code
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Name: structure of pentaerythritol tetranitrate reductase and complexed with 2-cyclohexenone Date: 2017-02-01 00:00:00 UTC
Description: Related Article: Discovery, Characterisation, Engineering and Applications of Ene Reductases for...
DOI:
Location: https://www.rcsb.org/structure/1gvq
Article: Discovery, Characterization, Engineering, and Applications of Ene-Reductases for Industrial Biocatalysis
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Name: nb5289sup1.pdf Date: 2020-11-20 00:00:00 UTC
Description: Supplementary data for DLSR: a solution to the parallax artefact in X-ray diffraction computed t...
DOI:
Location: https://journals.iucr.org/j/issues/2020/06/00/nb5289/nb5289sup1.pdf
Article: DLSR: a solution to the parallax artefact in X-ray diffraction computed tomography data
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Name: crystal structure of fmn-binding protein (np_142786.1) from pyrococcus horikoshii with bound 1-cyclohex-2-enone Date: 2020-12-09 00:00:00 UTC
Description: Related Article: Discovery, Characterisation, Engineering and Applications of Ene Reductases for...
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Location: https://www.rcsb.org/structure/3zog
Article: Discovery, Characterization, Engineering, and Applications of Ene-Reductases for Industrial Biocatalysis
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Name: The crystal structure of engineered cytochrome c peroxidase from Saccharomyces cerevisiae with a Trp51 to S-Trp51 modification Date: 2021-06-16 00:00:00 UTC
Description: The crystal structure of engineered cytochrome c peroxidase from Saccharomyces cerevisiae with a...
DOI: 10.2210/pdb6y1t/pdb
Location: https://www.rcsb.org/structure/6Y1T
Article: A Noncanonical Tryptophan Analogue Reveals an Active Site Hydrogen Bond Controlling Ferryl Reactivity in a Heme Peroxidase
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Name: The crystal structure of engineered cytochrome c peroxidase from Saccharomyces cerevisiae with Trp51 to S-Trp51 and Trp191Phe modifications Date: 2021-06-16 00:00:00 UTC
Description: The crystal structure of engineered cytochrome c peroxidase from Saccharomyces cerevisiae with T...
DOI: 10.2210/pdb6y2y/pdb
Location: https://www.rcsb.org/structure/6Y2Y
Article: A Noncanonical Tryptophan Analogue Reveals an Active Site Hydrogen Bond Controlling Ferryl Reactivity in a Heme Peroxidase
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Name: The application of QENS to investigate the methanol-to-gasoline reaction over ZSM-5 Date: 2016-10-04 00:00:00 UTC
Description: This proposal requests 6 days of OSIRIS time to conduct QENS measurements on commercial zeolite ...
DOI: 10.5286/isis.e.82353034
Location: https://data.isis.stfc.ac.uk/doi/INVESTIGATION/82353034
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Name: The application of INS to investigate the methanol-to-gasoline reaction over ZSM-5 Date: 2016-04-14 00:00:00 UTC
Description: As part of a UK Catalysis Hub initiative in Catalyst Design involving a team of academic and ind...
DOI: 10.5286/isis.e.79110599
Location: https://data.isis.stfc.ac.uk/doi/INVESTIGATION/79110599/
Article: Application of Inelastic Neutron Scattering to the Methanol-to-Gasoline Reaction Over a ZSM-5 Catalyst
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Name: The application of INS to investigate the methanol-to-gasoline reaction over ZSM-5 Date: 2016-09-16 00:00:00 UTC
Description: We propose to use MERLIN to measure INS from commercial zeolite catalyst samples extracted from ...
DOI: 10.5286/isis.e.82355314
Location: https://data.isis.stfc.ac.uk/doi/INVESTIGATION/82355314/
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Name: Table S6: Absolute errors, mean absolute errors and standard deviations of reaction energies (in kcal mol−1) of reaction 1–20. The absolute errors are given relative to the CCSD(T)/aug-cc-pVTZ results Date: 2020-05-20 00:00:00 UTC
Description: Related Article: Sirirak, Jitnapa, Lawan, Narin, Van der Kamp, Marc W., Harvey, Jeremy N., Mulho...
DOI: 10.7717/peerj-pchem.8/supp-7
Location: http://dx.doi.org/10.7717/peerj-pchem.8/supp-7
Article: Benchmarking quantum mechanical methods for calculating reaction energies of reactions catalyzed by enzymes
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