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PDBsum entry 1g3n
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Cell cycle, signaling protein
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PDB id
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1g3n
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Contents |
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293 a.a.
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155 a.a.
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233 a.a.
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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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Structural basis of inhibition of cdk-Cyclin complexes by ink4 inhibitors.
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Authors
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P.D.Jeffrey,
L.Tong,
N.P.Pavletich.
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Ref.
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Genes Dev, 2000,
14,
3115-3125.
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PubMed id
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Abstract
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The cyclin-dependent kinases 4 and 6 (Cdk4/6) that drive progression through the
G(1) phase of the cell cycle play a central role in the control of cell
proliferation, and CDK deregulation is a frequent event in cancer. Cdk4/6 are
regulated by the D-type cyclins, which bind to CDKs and activate the kinase, and
by the INK4 family of inhibitors. INK4 proteins can bind both monomeric CDK,
preventing its association with a cyclin, and also the CDK-cyclin complex,
forming an inactive ternary complex. In vivo, binary INK4-Cdk4/6 complexes are
more abundant than ternary INK4-Cdk4/6-cyclinD complexes, and it has been
suggested that INK4 binding may lead to the eventual dissociation of the cyclin.
Here we present the 2.9-A crystal structure of the inactive ternary complex
between Cdk6, the INK4 inhibitor p18(INK4c), and a D-type viral cyclin. The
structure reveals that p18(INK4c) inhibits the CDK-cyclin complex by distorting
the ATP binding site and misaligning catalytic residues. p18(INK4c) also
distorts the cyclin-binding site, with the cyclin remaining bound at an
interface that is substantially reduced in size. These observations support the
model that INK4 binding weakens the cyclin's affinity for the CDK. This
structure also provides insights into the specificity of the D-type cyclins for
Cdk4/6.
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