Extracellular Complementation and the Identification of Additional Genes Involved in Aerial Mycelium Formation in Streptomyces coelicolor

Extracellular Complementation and the Identification of Additional Genes Involved in Aerial Mycelium Formation in Streptomyces coelicolor

Justin R. Nodwell^a, Melody Yang^a, David Kuo^a, and Richard Losick^a
^a Department of Molecular and Cellular Biology, Harvard University, Cambridge, Massachusetts 02138

Corresponding author: Richard Losick, Department of Molecular and Cellular Biology, Harvard University, 16 Divinity Ave., Cambridge, MA 02138.

Communicating editor: F. WINSTON

Morphogenesis in the bacterium Streptomyces coelicolor involvesthe formation of a lawn of hair-like aerial hyphae on the colonysurface that stands up in the air and differentiates into chainsof spores. bld mutants are defective in the formation of thisaerial mycelium and grow as smooth, hairless colonies. Whencertain pairs of bld mutants are grown close to one anotheron rich sporulation medium, they exhibit extracellular complementationsuch that one mutant restores aerial mycelium formation to theother. The extracellular complementation relationships of mostof the previously isolated bld mutants placed them in a hierarchyof extracellular complementation groups. We have screened forfurther bld mutants with precautions intended to maximize thediscovery of additional genes. Most of the 50 newly isolatedmutant strains occupy one of three of the previously describedpositions in the hierarchy, behaving like bldK, bldC, or bldDmutants. We show that the mutations in some of the strains thatbehave like bldK are bldK alleles but that others fall in acluster at a position on the chromosome distinct from that ofany known bld gene. We name this locus bldL. By introducingcloned genes into the strains that exhibit bldC or bldD-likeextracellular complementation phenotypes, we show that mostof these strains are likely to contain mutations in genes otherthan bldC or bldD. These results indicate that the genetic controlof aerial mycelium formation is more complex than previouslyrecognized and support the idea that a high proportion of bldgenes are directly or indirectly involved in the productionof substances that are exchanged between cells during morphologicaldifferentiation.

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