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Research in our laboratory focuses on innovations in modern synthetic organic and organometallic chemistry to address fundamentally interesting questions of biological importance. It has recently been suggested that certain cancer treatments would benefit from targeting both the tumor itself and the resultant inflammation of the surrounding tissue. Inflammation in the tumor microenvironment has many tumor promoting effects that lead to proliferation and survival of malignant cells, angiogenesis and metastasis. The primary goal of our research program is to develop new synthetic methods based on transition metal catalysis to enable the synthesis of biologically active natural and unnatural products. The compounds prepared within this research program will be evaluated for their specific biological activities both by ourselves and in collaborations established within researchers at the University of Michigan and at the Broad Institute of Harvard and MIT.
The structurally complex motifs of our biologically active targets call for innovative synthetic solutions. In turn, students joining this research program will gain expertise not only in the field of complex target synthesis but also the development of creative synthetic methods. We will specifically target new synthetic transformations that enable us to rapidly access common synthetic intermediates en route to our biologically active natural and unnatural products.
The structurally complex motifs of our biologically active targets call for innovative synthetic solutions. In turn, students joining this research program will gain expertise not only in the field of complex target synthesis but also the development of creative synthetic methods. We will specifically target new synthetic transformations that enable us to rapidly access common synthetic intermediates en route to our biologically active natural and unnatural products.
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ACS CATALYSIS (2024)
ORGANOMETALLICSno. 6 (2023): 479-485
Synthesisno. 11 (2023): 1613-1615
SYNTHESIS-STUTTGARTno. 11 (2023): 1662-1670
crossref(2022)
ALDRICHIMICA ACTAno. 2 (2022): 27-36
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