Description |
1 online resource (247 pages) : illustrations, tables |
Contents |
880-01 Contributors; Current books of interest; Preface; 1: Whence Comes Social Diversity? Ecological and Evolutionary Analysis of the Myxobacteria; Introduction; A fundamental unanswered question: why be social?; Classification and phylogenetic analysis; Biogeography: patterns and their causes; Terrestrial biogeography of intraspecific variation; Socially mediated selection; 2: Genome Evolution and Content in the Myxobacteria; Myxobacteria genome sequencing history; Myxobacteria whole-genome comparisons: genome size |
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880-01/(S The early-functioning EBPs form a regulatory cascadeInputs and outputs of the EBP regulatory cascade; The Mrp and FruA modules; Regulation of C-signal-dependent genes; Regulation of the dev operon depends on C-signalling and three transcription factors; A plethora of potential late genes revealed by studying glycerol-induced sporulation; Evolution of the GRN; Conclusions; Questions and future directions; 7: Abundance and Complexity of Signalling Mechanisms in Myxobacteria; Introduction; Two-component systems; ECF σ factors; Eukaryotic-like Ser/Thr protein kinases and phosphatases |
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Myxobacteria whole-genome comparisons: genome organization and conserved syntenyMyxobacteria whole-genome comparisons: genetic content; Myxobacteria whole-genome comparisons: signal transduction; Myxobacteria whole-genome comparisons: the genetic programme for fruiting body formation; Future of myxobacteria genomics; 3: Myxococcus xanthus Vegetative and Developmental Cell Heterogeneity; Introduction; Phase variation; Cell clusters; Fruiting bodies; Peripheral rods; Programmed cell death/developmental autolysis; Concluding remarks |
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4: Cell Cycle Regulation in Myxococcus xanthus During Vegetative Growth and Development: Regulatory Links Between DNA Replication and Cell DivisionIntroduction; Organization of the Myxococcus xanthus chromosome; Chromosome replication and segregation in Myxococcus xanthus; Cell division in Myxococcus xanthus; The cell cycle and DNA synthesis during sporulation; DNA replication is required for fruiting body formation and myxospore formation; DNA replication and checkpoint control of development; Perspectives; 5: Social Interactions Mediated by Outer Membrane Exchange |
Summary |
Myxobacteria have fascinated generations of scientists since discovery over a century ago. These bacteria represent the epitome of complex prokaryotic behavior. Their predatory swarms move over solid surfaces, utilizing two distinct motility machineries: one driven by retractable pili and the other by a novel gliding machinery. Furthermore, under nutrient limitation, myxobacteria enter a developmental program featuring distinct cell fates and culminating in the formation of multicellular fruiting bodies filled with dormant spores. In this book, expert myxobiologists describe important recent a |
Bibliography |
Includes bibliographical references and index |
Notes |
Online resource; title from PDF title page (ebrary, viewed January 27, 2014) |
Subject |
Myxobacterales.
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Genomics.
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Molecular biology.
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Myxococcales -- genetics
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Myxococcales
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Genomics
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Molecular Biology
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molecular biology.
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SCIENCE -- Life Sciences -- Biology.
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SCIENCE -- Life Sciences -- Microbiology.
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Genomics
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Molecular biology
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Myxobacterales
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Form |
Electronic book
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Author |
Yang, Zhaomin
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Higgs, Penelope I
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ISBN |
9781908230966 |
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1908230967 |
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