The Min System and Nucleoid Occlusion Are Not Required for Identifying the Division Site in Bacillus subtilis but Ensure Its Efficient Utilization | PLOS Genetics
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Frontiers | How Do MinC-D Copolymers Act on Z-Ring Localization Regulation? A New Model of Bacillus subtilis Min System
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Figure 3 from Diverse Paths to Midcell: Assembly of the Bacterial Cell Division Machinery | Semantic Scholar
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Chrysophaentins are competitive inhibitors of FtsZ and inhibit Z-ring formation in live bacteria. | Semantic Scholar
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High throughput 3D super-resolution microscopy reveals Caulobacter crescentus in vivo Z-ring organization | PNAS
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Bacterial cell division: assembly, maintenance and disassembly of the Z ring | Nature Reviews Microbiology
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Frontiers | How Do MinC-D Copolymers Act on Z-Ring Localization Regulation? A New Model of Bacillus subtilis Min System
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Mechanism that regulates an efficient switch from cell elongation to cell division.::National Institute of Genetics
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