Simocyclinone D8 (1, SD8) has attracted attention due to its highly complex hybrid structure and the unusual way it inhibits bacterial DNA gyrase by preventing DNA binding to the enzyme. Although a hypothesis explaining simocyclinone biosynthesis has been previously proposed, little was proven in vivo due to the genetic inaccessibility of the producer strain. Herein, we report discovery of three new D-type simocyclinones (D9, D10, and D11) produced by Kitasatospora sp. and Streptomyces sp. NRRL B-24484, as well as the identification and annotation of their biosynthetic gene clusters. Unexpectedly, the arrangement of the newly discovered biosynthetic gene clusters is starkly different from the previously published one, despite the nearly identical structures of D8 and D9 simocyclinones. The gene inactivation and expression studies have disproven the role of a modular polyketide synthase (PKS) system in the assembly of the linear dicarboxylic acid. Instead, the new stand-alone ketosynthase genes were shown to be involved in the biosynthesis of the tetraene chain. Additionally, we identified the gene responsible for the conversion of simocyclinone D9 (2, SD9) into D8.