Mol Cell. 2003 Sep;12(3):651-61.

A tweezers-like motion of the ATP-binding cassette dimer in an ABC transport cycle.

Chen J, Lu G, Lin J, Davidson AL, Quiocho FA.

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Department of Biological Sciences, Purdue University, West Lafayette, IN 47907, USA . chenjue@bilbo.bio.purdue.edu

Abstract

The ATPase components of ATP binding cassette (ABC) transporters power the transporters by binding and hydrolyzing ATP. Major conformational changes of an ATPase are revealed by crystal structures of MalK, the ATPase subunit of the maltose transporter from Escherichia coli, in three different dimeric configurations. While other nucleotide binding domains or subunits display low affinity for each other in the absence of the transmembrane segments, the MalK dimer is stabilized through interactions of the additional C-terminal domains. In the two nucleotide-free structures, the N-terminal nucleotide binding domains are separated to differing degrees, and the dimer is maintained through contacts of the C-terminal regulatory domains. In the ATP-bound form, the nucleotide binding domains make contact and two ATPs lie buried along the dimer interface. The two nucleotide binding domains of the dimer open and close like a pair of tweezers, suggesting a regulatory mechanism for ATPase activity that may be tightly coupled to translocation.

PMID:: 14527411; [PubMed - indexed for MEDLINE]

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Structures reported by this article

The Atpase Component Of E. Coli Maltose Transporter (Malk) In The Nucleotide-Free Form

PDB: 1Q1E

Source: Escherichia coli K-12

Method: X-Ray Diffraction

Resolution: 2.9 Å

See all 3 structures...

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