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. 2000 Aug;182(15):4337-42.
doi: 10.1128/JB.182.15.4337-4342.2000.

Motility and chemotaxis of filamentous cells of Escherichia coli

N Maki  1 J E GestwickiE M LakeL L KiesslingJ Adler
Affiliations

Motility and chemotaxis of filamentous cells of Escherichia coli

N Maki et al. J Bacteriol. 2000 Aug.

Abstract

Filamentous cells of Escherichia coli can be produced by treatment with the antibiotic cephalexin, which blocks cell division but allows cell growth. To explore the effect of cell size on chemotactic activity, we studied the motility and chemotaxis of filamentous cells. The filaments, up to 50 times the length of normal E. coli organisms, were motile and had flagella along their entire lengths. Despite their increased size, the motility and chemotaxis of filaments were very similar to those properties of normal-sized cells. Unstimulated filaments of chemotactically normal bacteria ran and stopped repeatedly (while normal-sized bacteria run and tumble repeatedly). Filaments responded to attractants by prolonged running (like normal-sized bacteria) and to repellents by prolonged stopping (unlike normal-sized bacteria, which tumble), until adaptation restored unstimulated behavior (as occurs with normal-sized cells). Chemotaxis mutants that always ran when they were normal sized always ran when they were filament sized, and those mutants that always tumbled when they were normal sized always stopped when they were filament sized. Chemoreceptors in filaments were localized to regions both at the poles and at intervals along the filament. We suggest that the location of the chemoreceptors enables the chemotactic responses observed in filaments. The implications of this work with regard to the cytoplasmic diffusion of chemotaxis components in normal-sized and filamentous E. coli are discussed.

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Figures

FIG. 1
FIG. 1
Reversal of filament movement at 3 h after addition of cephalexin. At zero time to 4 s the filament swims to the right. Then after a brief stop (about 0.5 s), the filament swims to the left. At other times (not shown), the filament continues to swim in its original direction after a stop. Arrows point to the filament. Bar, 5 μm.
FIG. 2
FIG. 2
Electron micrograph of a filamentous cell of E. coli at 6 h after addition of cephalexin. The top panel shows a 25-μm-long filament, 10 to 15 times longer than a normal-sized E. coli organism. The inset shows untreated cells, which are about 2 μm long. The bottom panel shows four parts of the filament at a higher magnification, ×38,800; note that flagella are visible in the four parts (flagella are difficult to discern in the top panel because of the lower magnification). At this higher magnification, flagella can be seen equally distributed along the entire length of the filament. Flagella appear straight in such scanning electron micrographs, rather than curly as in transmission electron micrographs. The diameters of the flagella rule out the possibility that these are pili. Bar in top panel, 5 μm; bar in bottom panel, 0.5 μm.
FIG. 3
FIG. 3
Chemoreceptor localization in filamentous cells of E. coli. Bacteria were immunolabeled with fluorescent anti-MCP serum to identify the subcellular locations of chemoreceptors. (A) Untreated wild-type E. coli (AW405); (B) cephalexin-treated AW405 filaments; (C) untreated cheW mutant; (D) cephalexin-treated cheW filaments. Images are representative (>90%) of those from three independent experiments. Bars, 1 μm.
See this image and copyright information in PMC

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