Coran Watanabe
Affiliations: | Texas A & M University, College Station, TX, United States |
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Organic ChemistryGoogle:
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Sign in to add collaboratorSteven E. Ealick | collaborator | Cornell | |
David Horgen | collaborator | Hawaii Pacific University | |
Sheryl Tsai | collaborator | UC Irvine |
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Publications
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Li Y, Washburn LA, Watanabe CMH. (2023) Thioester Capture Strategy for the Identification of Nonribosomal Peptide and Polyketide Intermediates. Methods in Molecular Biology (Clifton, N.J.). 2670: 267-284 |
Perveen I, Johnson BA, Gowda V, et al. (2022) Catabolism of the Lipofuscin Cycloretinal by MsP1. Biochemistry |
Washburn LA, Nepal KK, Watanabe CMH. (2021) A Capture Strategy for the Identification of Thio-Templated Metabolites. Acs Chemical Biology |
Bradley NP, Washburn LA, Christov PP, et al. (2020) Escherichia coli YcaQ is a DNA glycosylase that unhooks DNA interstrand crosslinks. Nucleic Acids Research |
Washburn LA, Foley B, Martinez F, et al. (2019) Transketolase Activity in the Formation of the Azinomycin Azabicycle Moiety. Biochemistry |
Kelly GT, Washburn LA, Watanabe CMH. (2019) The Fate of Molecular Oxygen in Azinomycin Biosynthesis. The Journal of Organic Chemistry |
Gowda V, Foley B, Du J, et al. (2018) Biocatalysis with the milk protein β-lactoglobulin: promoting retroaldol cleavage of α,β-unsaturated aldehydes. Organic & Biomolecular Chemistry |
Gowda V, Foulke-Abel J, Agbo H, et al. (2017) Lipofuscin Formation Catalyzed by the Milk Protein Beta-Lactogloubulin: Lysine Residues in Cycloretinal Synthesis. Biochemistry |
Mori S, Nepal KK, Kelly GT, et al. (2017) Priming of Azabicycle Biosynthesis in the Azinomycin Class of Antitumor Agents. Biochemistry |
Mori S, Simkhada D, Zhang H, et al. (2016) Polyketide Ring Expansion Mediated by a Thioesterase, CEC Domain, in Azinomycin Biosynthesis: Characterization of AziB and AziG. Biochemistry |