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PDBsum entry 2feb
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References listed in PDB file
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Key reference
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Title
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Nuclear magnetic resonance (nmr) solution structure, Dynamics, And binding properties of the kringle IV type 8 module of apolipoprotein(a).
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Authors
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S.Chitayat,
V.Kanelis,
M.L.Koschinsky,
S.P.Smith.
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Ref.
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Biochemistry, 2007,
46,
1732-1742.
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PubMed id
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Abstract
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The plasma lipoprotein lipoprotein(a) [Lp(a)] comprises a low-density
lipoprotein (LDL)-like particle covalently attached to the glycoprotein
apolipoprotein(a) [apo(a)]. Apo(a) consists of multiple tandem repeating kringle
modules, similar to plasminogen kringle IV (designated KIV1-KIV10), followed by
modules homologous to the kringle V module and protease domain of plasminogen.
The apo(a) KIV modules have been classified on the basis of their binding
affinity for lysine and lysine analogues. The strong lysine-binding apo(a) KIV10
module mediates lysine-dependent interactions with fibrin and cell-surface
receptors. Weak lysine-binding apo(a) KIV7 and KIV8 modules display a 2-3-fold
difference in lysine affinity and play a direct role in the noncovalent step in
Lp(a) assembly through binding to unique lysine-containing sequences in
apolipoproteinB-100 (apoB-100). The present study describes the nuclear magnetic
resonance solution structure of apo(a) KIV8 and its solution dynamics
properties, the first for an apo(a) kringle module, and compares the effects of
epsilon-aminocaproic acid (epsilon-ACA) binding on the backbone and side-chain
conformation of KIV7 and KIV8 on a per residue basis. Apo(a) KIV8 adopts a
well-ordered structure that shares the general tri-loop kringle topology with
apo(a) KIV6, KIV7, and KIV10. Mapping of epsilon-ACA-induced chemical-shift
changes on KIV7 and KIV8 indicate that the same residues are affected, despite a
2-3-fold difference in epsilon-ACA affinity. A unique loop conformation within
KIV8, involving hydrophobic interactions with Tyr40, affects the positioning of
Arg35 relative to the lysine-binding site (LBS). A difference in the orientation
of the aromatic side chains comprising the hydrophobic center of the LBS in KIV8
decreases the size of the hydrophobic cleft compared to other apo(a) KIV
modules. An exposed hydrophobic patch contiguous with the LBS in KIV8 and not
conserved in other weak lysine-binding apo(a) kringle modules may modulate
specificity for regions within apoB-100. An additional ligand recognition site
comprises a structured arginine-glycine-aspartate motif at the N terminus of the
KIV8 module, which may mediate Lp(a)/apo(a)-integrin interactions.
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