Two oligonucleotide probes derived from conserved motifs in peptide synthetases were hybridized with a cosmid library of Planobispora rosea genomic DNA. Detailed characterization of the physical organization of the positive cosmids indicated the existence of at least eight unlinked contigs containing multiple fragments that hybridized to both probes. Partial sequences of PCR products from the positive cosmids confirmed the existence of peptide synthetase genes. The combined results of hybridizations and physical mapping indicate that, in all likelihood, the isolated P. rosea contigs encode over 40 putative peptide synthetase modules. Similar results were obtained on screening a cosmid library of Actinoplanes teichomyceticus DNA. Furthermore, Southern hybridizations with several actinomycete strains, belonging to different genera, indicate that most strains contain multiple hybridizing bands well in excess of the number expected from the structure of the oligopeptides produced by these strains. Even strains not reported to produce oligopeptides gave clear positive signals when examined with the probes. These results strongly suggest that actinomycetes devote a notable fraction of their genomes to the non-ribosomal synthesis of peptides, and that most strains have the genetic potential to produce more oligopeptides than are currently described.