Jan Gorges scite author profile

Soil-living microbes are an important resource for the discovery of new natural products featuring great structural diversity that are reflective of the underlying biosynthetic pathways as well as incorporating a wide range of intriguing small-molecule building blocks. We report here the full structural elucidation, total synthesis, and biosynthesis of chloromyxamides, a new class of tetrapeptides that display an unprecedented 6-chloromethyl-5-methoxypipecolic acid (CMPA) substructure. Chemical synthesis-including an approach to access the CMPA unit-was pursued to confirm the structure of the chloromyxamides and enabled determination of the absolute configuration in the CMPA ring. A model for the nonribosomal assembly of chloromyxamides was devised on the basis of the combined evaluation of the biosynthetic gene cluster sequence and the feeding of stable isotope-labeled precursors. This provided insight into the formation of the various chloromyxamide derivatives and the biogenesis of the CMPA unit.

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Co-delivery of pretubulysin and siEG5 to EGFR overexpressing carcinoma cells

Truebenbach

Zhang

Wang

et al. 2019

International Journal of Pharmaceutics

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Jan Gorges

Folate receptor-directed orthogonal click-functionalization of siRNA lipopolyplexes for tumor cell killing in vivo

Discovery of the First Small-Molecule Csra–Rna Interaction Inhibitors Using Biophysical Screening Technologies

Matteson Homologation-Based Total Synthesis of Lagunamide A

Structure, Total Synthesis, and Biosynthesis of Chloromyxamides: Myxobacterial Tetrapeptides Featuring an Uncommon 6‐Chloromethyl‐5‐methoxypipecolic Acid Building Block

Co-delivery of pretubulysin and siEG5 to EGFR overexpressing carcinoma cells

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