Extension of the Binding Motif of the Sin3 Interacting Domain of the Mad Family Proteins

Overview

Journal Biochemistry

Specialty Biochemistry

Date 2004 Jan 7

PMID 14705930

Citations 15

Authors

Hugo van Ingen

Edwin Lasonder

Jacobus F A Jansen

Anita M Kaan

Christian A E M Spronk

Henk G Stunnenberg

Geerten W Vuister

Affiliations

Soon will be listed here.

Abstract

Sin3 forms the scaffold for a multiprotein corepressor complex that silences transcription via the action of histone deacetylases. Sin3 is recruited to the DNA by several DNA binding repressors, such as the helix-loop-helix proteins of the Mad family. Here, we elaborate on the Mad-Sin3 interaction based on a binding study, solution structure, and dynamics of the PAH2 domain of mSin3 in complex to an extended Sin3 interacting domain (SID) of 24 residues of Mad1. We show that SID residues Met7 and Glu23, outside the previously defined minimal binding motif, mediate additional hydrophobic and electrostatic interactions with PAH2. On the basis of these results we propose an extended consensus sequence describing the PAH2-SID interaction specifically for the Mad family, showing that residues outside the hydrophobic core of the SID interact with PAH2 and modulate binding affinity to appropriate levels.

Citing Articles

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Lettow J, Kliewe F, Aref R, Schuller H Curr Genet. 2023; 69(2-3):127-139.

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αα-Hub domains and intrinsically disordered proteins: A decisive combo.

Bugge K, Staby L, Salladini E, Falbe-Hansen R, Kragelund B, Skriver K J Biol Chem. 2020; 296:100226.

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Co-repressor, co-activator and general transcription factor: the many faces of the Sin3 histone deacetylase (HDAC) complex.

Adams G, Chandru A, Cowley S Biochem J. 2018; 475(24):3921-3932.

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Sin3A recruits Tet1 to the PAH1 domain via a highly conserved Sin3-Interaction Domain.

Chandru A, Bate N, Vuister G, Cowley S Sci Rep. 2018; 8(1):14689.

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Sin3a-Tet1 interaction activates gene transcription and is required for embryonic stem cell pluripotency.

Zhu F, Zhu Q, Ye D, Zhang Q, Yang Y, Guo X Nucleic Acids Res. 2018; 46(12):6026-6040.

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