Genes required for both gliding motility and development in Myxococcus xanthus |
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Authors: | Spencer D MacNeil Aram Mouzeyan Patricia L Hartzell |
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Institution: | Department of Microbiology and Molecular Genetics, University of California, Los Angeles, 405 Hilgard Avenue, Los Angeles, California 90024-1489, USA. |
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Abstract: | Myxococous xanthus cells can glide both as individual cells, dependent on A dventurous motility (A motility), and as groups of cells, dependent upon S ocial motility (S motility), Tn5-lac mutagenesis was used to generate 16 new A- and nine new S- mutations. In contrast with previous results, we find that subsets of A- mutants are defective in fruiting body morphogenesis and/or myxospore differentiation. All S- mutants are defective in fruiting body morphogenesis, consistent with previous results. Whereas some S- mutants produce a wild-type complement of spores, others are defective in the differentiation of myxospores. Therefore, a subset of the A genes and all of the S genes are critical for fruiting body morphogenesis. Subsets of both A and S genes are essential for sporulation. Three S::Tn5–lac insertions result in surprising phenotypes. Colonies of two S- mutants glide on ‘swim’ (0.35% agar) plates to form fractal patterns. These S- mutants are the first examples of a bacterium in which mutations result in fractal patterns of colonial spreading. An otherwise wild-type strain with one S- insertion resembles the frz- sglA1- mutants upon development, suggesting that this S- gene defines a new chemotaxis component in M. xanthus. |
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