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PDBsum entry 1hxr
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Metal binding protein
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PDB id
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1hxr
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Contents |
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* Residue conservation analysis
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References listed in PDB file
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Key reference
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Title
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A helical turn motif in mss4 is a critical determinant of rab binding and nucleotide release.
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Authors
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Z.Zhu,
J.J.Dumas,
S.E.Lietzke,
D.G.Lambright.
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Ref.
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Biochemistry, 2001,
40,
3027-3036.
[DOI no: ]
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PubMed id
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Abstract
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Monomeric Rab GTPases function as ubiquitous regulators of intracellular
membrane trafficking. Mss4, an evolutionarily conserved Rab accessory factor,
promotes nucleotide release from exocytic but not endocytic Rab GTPases. Here we
describe the results of a high-resolution crystallographic and mutational
analysis of Mss4. The 1.65 A crystal structure of Mss4 reveals a network of
direct and water-mediated interactions that stabilize a partially exposed
structural subdomain derived from four highly conserved but nonconsecutive
sequence elements. The conserved subdomain contains the invariant cysteine
residues required for Zn2+ binding as well as the residues implicated in the
interaction with Rab GTPases. A strictly conserved DPhiPhi motif, consisting of
an invariant aspartic acid residue (Asp 73) followed by two bulky hydrophobic
residues (Met 74 and Phe 75), encodes a prominently exposed 3(10) helical turn
in which the backbone is well-ordered but the side chains of the conserved
residues are highly exposed and do not engage in intramolecular interactions.
Substitution of any of these residues with alanine dramatically impairs
nucleotide release activity toward Rab3A, indicating that the DPhiPhi motif is a
critical element of the Rab interaction epitope. In particular, mutation of Phe
75 results in a defect as severe as that observed for mutation of Asp 96, which
is located near the zinc binding site at the opposite end of the conserved
subdomain. Despite severe defects, however, none of the mutant proteins is
catalytically dead. Taken together, the results suggest a concerted mechanism in
which distal elements of the conserved Rab interaction epitope cooperatively
facilitate nucleotide release.
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