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.
The diastereoselective synthesis of fluorinated δ-lactams has been achieved through an efficient five step process. The route can tolerate a range of functionalities, and provides a quick route for the generation of new fluorinated medicinal building blocks.
An efficient and selective approach for the synthesis of polyfunctionalised 3-fluoropyrroles has been developed starting from commercial aldehydes. The methodology is concise, efficient and allows for the modular and systematic assembly of polysubstituted 3-fluoropyrroles. This synthesis provides an alternative and highly convergent strategy for the generation of these chemically and biologically important units.
Induction of differentiation
is a promising therapeutic strategy
against acute myeloid leukemia. However, current differentiation therapies
are effective only to specific patient populations. To identify novel
differentiation agents with wider efficacy, we developed a phenotypic
high-throughput screen with a range of genetically diverse cell lines.
From the resulting hits, one chemical scaffold was optimized in terms
of activity and physicochemical properties to yield OXS007417, a proof-of-concept
tool compound, which was also able to decrease tumor volume in a murine in vivo xenograft model.
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