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PDBsum entry 2gkd
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References listed in PDB file
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Key reference
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Title
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Structural insight into the self-Sacrifice mechanism of enediyne resistance.
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Authors
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S.Singh,
M.H.Hager,
C.Zhang,
B.R.Griffith,
M.S.Lee,
K.Hallenga,
J.L.Markley,
J.S.Thorson.
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Ref.
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Acs Chem Biol, 2006,
1,
451-460.
[DOI no: ]
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PubMed id
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Abstract
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The recent discovery of the first "self-sacrifice" mechanism for bacterial
resistance to the enediyne antitumor antibiotics, where enediyne-induced
proteolysis of the resistance protein CalC inactivates both the highly reactive
metabolite and the resistance protein, revealed yet another ingenious bacterial
mechanism for controlling reactive metabolites. As reported herein, the first 3D
structures of CalC and CalC in complex with calicheamicin (CLM) divulge CalC to
be a member of the steroidogenic acute regulatory protein (StAR)-related
transfer (START) domain superfamily. In contrast to previous studies of proteins
known to bind DNA-damaging natural products ( e.g ., bleomycins, mitomycins, and
nine-membered chromoprotein enediynes), this is the first demonstrated
involvement of a START domain fold. Consistent with the CalC self-sacrifice
mechanism, CLM in complex with CalC is positioned for direct hydrogen
abstraction from Gly113 to initiate the oxidative proteolysis-based resistance
mechanism. These structural studies also illuminate, for the first time, a small
DNA-binding region within CalC that may serve to localize CalC to the enediyne
target (DNA). Given the role of START domains in nuclear/cytosolic transport and
translocation, this structural study also may implicate START domains as
post-endocytotic intracellular chaperones for enediyne-based therapeutics such
as MyloTarg.
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