Published February 29, 2020
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Fig. 2 in A single residue determines substrate preference in benzylisoquinoline alkaloid N-methyltransferases
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Fig. 2. Analysis of key active site residues in BIA N-methyltransferases. (A) Primary sequence alignment of functionally validated BIA NMTs showing that residue 204 is conserved within BIA NMT subtypes (i.e. E in CNMTs and TNMTs, G in RNMTs, A in PavNMTs) whereas residues previously suggested to form a catalytic dyad (E207 and H208) are universally conserved. (B, C) Docking of RNMT substrate (S)-reticuline (cyan) into the active site of (B) CjCNMT (PDB 6GKV) and (C) PsRNMT (homology model) reveals a steric clash between the N-methyl group and residue E204 but not G204. S-Adenosylhomocysteine is shown in pink. Spheres represent Van der Waals radii and the distance between key atoms is given in angstroms.
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Published as part of Morris, Jeremy S., Yu, Lisa & Facchini, Peter J., 2020, A single residue determines substrate preference in benzylisoquinoline alkaloid N-methyltransferases, pp. 1-11 in Phytochemistry (112193) 170 on page 3, DOI: 10.1016/j.phytochem.2019.112193, http://zenodo.org/record/8292913
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- Journal article: 10.1016/j.phytochem.2019.112193 (DOI)
- Journal article: urn:lsid:plazi.org:pub:2643FF5C6716FF97FFEED003B757FFB0 (LSID)
- Journal article: https://zenodo.org/record/8292913 (URL)