Pilot Study to Quantify Palladium Impurities in Lead-like
Compounds Following Commonly Used Purification Techniques |
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| Authors: | Maria Chatzopoulou,Katrina S. Madden,Liam J. Bromhead,Christopher Greaves,Thomas J. Cogswell,Solange Da Silva Pinto,Sé bastien
R. G. Galan,Irene Georgiou,Matthew S. Kennedy,Alice Kennett,Geraint Apps,Angela J. Russell,Graham M. Wynne |
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| Affiliation: | †Department of Chemistry, Chemistry Research Laboratory, University of Oxford, Oxford OX1 3TA, United Kingdom;‡Department of Pharmacology, University of Oxford, Mansfield Road, Oxford OX1 3PQ, United Kingdom;§CEMAS, Imperial House, Oaklands Business Centre, Oaklands Park, Wokingham, Berkshire RG41 2FD, United Kingdom;∥OxStem Limited, Midland House, West Way, Botley, Oxford OX2 0PH, United Kingdom |
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| Abstract: | ![]()
Palladium-catalyzed reactions are among the most commonly used procedures in organic synthesis. The products have a range of uses, including as intermediates in total synthesis and as screening compounds for drug discovery or agrochemical projects. Despite the known and potentially deleterious effects of low-level metal impurities in biological assays, the quantification of metal remaining in reaction products to verify the effective removal of the transition element is rarely reported. Using palladium as an exemplar, we describe a pilot study that for the first time quantifies residual metal levels in reaction products following increasingly rigorous purification protocols. Our results demonstrate that significant levels of residual palladium can remain in isolated reaction products following chromatographic purification, and only by using a subsequent metal scavenging step are they reliably reduced to a low level. Finally, we provide a set of simple guidelines that should minimize the potential for issues associated with residual palladium in reaction products. |
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| Keywords: | Palladium trace impurities lead optimization screening assay interference purification metal scavenging |
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