TY - JOUR
T1 - ZapA and ZapB form an FtsZ-independent structure at midcell
AU - Buss, Jackson A.
AU - Peters, Nick T.
AU - Xiao, Jie
AU - Bernhardt, Thomas G.
N1 - Funding Information:
The authors would like to thank all members of the Bernhardt, Rudner, and Xiao labs for advice and helpful discussions. This work was supported by the National Institutes of Health (R01 AI083365 to TGB, and RO1 GM086447 to JX), a National Science Foundation EAGER award (MCB-1019000 to JX), and a Hamilton Smith Innovative Research Award to JX.
Publisher Copyright:
© 2017 John Wiley & Sons Ltd
PY - 2017/5
Y1 - 2017/5
N2 - Cell division in Escherichia coli begins with the polymerization of FtsZ into a ring-like structure, the Z-ring, at midcell. All other division proteins are thought to require the Z-ring for recruitment to the future division site. Here, it is reported that the Z-ring associated proteins ZapA and ZapB form FtsZ-independent structures at midcell. Upon Z-ring disruption by the FtsZ polymerization antagonist SulA, ZapA remained at midcell as a cloud-like accumulation. Using ZapA(N60Y), a variant defective for interaction with FtsZ, it was established that these ZapA structures form without a connection to the Z-ring. Furthermore, midcell accumulations of GFP-ZapA(N60Y) often preceded Z-rings at midcell and required ZapB to assemble, suggesting that ZapB polymers form the foundation of these structures. In the absence of MatP, a DNA-binding protein that links ZapB to the chromosomal terminus region, cloud-like ZapA structures still formed but failed to track with the chromosome terminus and did not consistently precede FtsZ at midcell. Taken together, the results suggest that FtsZ-independent structures of ZapA–ZapB provide additional positional cues for Z-ring formation and may help coordinate its assembly with chromosome replication and segregation.
AB - Cell division in Escherichia coli begins with the polymerization of FtsZ into a ring-like structure, the Z-ring, at midcell. All other division proteins are thought to require the Z-ring for recruitment to the future division site. Here, it is reported that the Z-ring associated proteins ZapA and ZapB form FtsZ-independent structures at midcell. Upon Z-ring disruption by the FtsZ polymerization antagonist SulA, ZapA remained at midcell as a cloud-like accumulation. Using ZapA(N60Y), a variant defective for interaction with FtsZ, it was established that these ZapA structures form without a connection to the Z-ring. Furthermore, midcell accumulations of GFP-ZapA(N60Y) often preceded Z-rings at midcell and required ZapB to assemble, suggesting that ZapB polymers form the foundation of these structures. In the absence of MatP, a DNA-binding protein that links ZapB to the chromosomal terminus region, cloud-like ZapA structures still formed but failed to track with the chromosome terminus and did not consistently precede FtsZ at midcell. Taken together, the results suggest that FtsZ-independent structures of ZapA–ZapB provide additional positional cues for Z-ring formation and may help coordinate its assembly with chromosome replication and segregation.
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U2 - 10.1111/mmi.13655
DO - 10.1111/mmi.13655
M3 - Article
C2 - 28249098
AN - SCOPUS:85016563416
SN - 0950-382X
VL - 104
SP - 652
EP - 663
JO - Molecular Microbiology
JF - Molecular Microbiology
IS - 4
ER -