2003
DOI: 10.1074/jbc.m305230200
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Essential Cell Division Protein FtsZ Assembles into One Monomer-thick Ribbons under Conditions Resembling the Crowded Intracellular Environment

Abstract: Experimental conditions that simulate the crowded bacterial cytoplasmic environment have been used to study the assembly of the essential cell division protein FtsZ from Escherichia coli. In solutions containing a suitable concentration of physiological osmolytes, macromolecular crowding promotes the GTP-dependent assembly of FtsZ into dynamic two-dimensional polymers that disassemble upon GTP depletion. Atomic force microscopy reveals that these FtsZ polymers adopt the shape of ribbons that are one subunit th… Show more

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Cited by 173 publications
(246 citation statements)
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“…Observations of thin FtsZ fibrils compatible with either a single-or double-stranded structure have been reported (4,6). Thicker multistranded filaments were observed more frequently after increasing protein concentration or lowering the pH (8,(12)(13)(14), suggesting that these conditions favor lateral contacts between FtsZ filaments that are important for assembly.…”
mentioning
confidence: 85%
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“…Observations of thin FtsZ fibrils compatible with either a single-or double-stranded structure have been reported (4,6). Thicker multistranded filaments were observed more frequently after increasing protein concentration or lowering the pH (8,(12)(13)(14), suggesting that these conditions favor lateral contacts between FtsZ filaments that are important for assembly.…”
mentioning
confidence: 85%
“…These observations suggest that the basic FtsZ polymer structure must be a multistranded filament, because cooperative assembly of linear polymers requires that two or more strands interact both laterally and longitudinally to form a helical or a two-dimensional͞three-dimensional array (23)(24)(25), as in the case of F-actin and microtubules (26). However, EM and scanning transmission microscopy images of the FtsZ preparations under the same solution conditions indicate that the protein is present partially or predominantly as single-stranded filaments (6,9,11). These observations leave open the question on how a single-stranded filament can assemble in a cooperative manner (2, 9, 11).…”
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confidence: 99%
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“…This bundling can be induced by several factors, such as Ca 2+ (REF. 21), macromolecular crowding 22 and the binding of partner proteins such as ZipA 23 (see FIG. 3).…”
Section: Structure and Assembly Of Ftszmentioning
confidence: 99%