Significance Natural products provide the inspiration for most drugs, and marine natural products, in particular, are emerging as promising new therapeutics with new targets or mechanisms of action. Pharmacological targeting of tubulin dynamics has been a validated strategy for cancer therapy for decades, yielding structurally diverse natural products and derivatives, including paclitaxel, vincristine, maytansine, and eribulin, targeting six known and different binding sites. We discovered a chemical scaffold from marine cyanobacteria that targets a seventh tubulin binding site. We report the entire spectrum of the discovered chemical and biological novelties, including the isolation, structure determination, and chemical synthesis of the natural product, and the investigation of its mechanism of action, target identification, and binding mode elucidation at the atomic level.