Coupled Unfolding and Dimerization by the PAH2 Domain of the Mammalian Sin3A Corepressor

Yongbo Zhang; Zhipeng Zhang; Borries Demeler; Ishwar Radhakrishnan

doi:10.1016/j.jmb.2006.04.069

Coupled Unfolding and Dimerization by the PAH2 Domain of the Mammalian Sin3A Corepressor

Yongbo Zhang, Zhipeng Zhang, Borries Demeler, Ishwar Radhakrishnan^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

Coregulator recruitment by sequence-specific DNA binding transcription factors constitutes an important step in many eukaryotic transcription regulatory pathways. The Sin3 corepressor is an evolutionarily conserved protein and a key component of a large histone deacetylase-associated corepressor complex. The Sin3 corepressor contains four imperfect repeats of a domain called PAH (paired amphipathic helix) that serve as docking sites for a variety of sequence-specific DNA binding factors and coregulators. At least two closely related Sin3 proteins designated Sin3A and Sin3B have been described in higher organisms and although functional differences between these paralogs are only beginning to be appreciated, differences at the structural level are poorly understood. Here we analyze the conformational properties of the apo form of the mammalian Sin3A (mSin3A) PAH2 domain. At low micromolar concentrations, the domain is predominantly monomeric and folded in a conformation similar to those found in complexes with the Mad1 and HBP1 repressors. Unexpectedly, at higher concentrations, the domain dimerizes with concomitant population of a partially unfolded conformer. These findings are in contrast to those reported for the mSin3B PAH2 domain and may have implications for the manner in which these paralogous domains interact with their targets.

Original language	English (US)
Pages (from-to)	7-14
Number of pages	8
Journal	Journal of Molecular Biology
Volume	360
Issue number	1
DOIs	https://doi.org/10.1016/j.jmb.2006.04.069
State	Published - Jun 30 2006

Funding

We thank Jonathan Widom for useful discussions relating to coupled equilibria, and Richard Kang and Joanne Mai for their early contributions towards the development of this work. This work was supported by a grant from the NIH (GM 64715) to I.R. The development of the UltraScan software was supported by the NSF through a grant (DBI-9974819) to B.D. I.R. is a Scholar of the Leukemia and Lymphoma Society. Z.Z. was supported in part by a summer research scholarship from Northwestern University. Access to instrumentation in the Keck Biophysics Facility and the WCAS Structural Biology NMR Facility at Northwestern is gratefully acknowledged.

Keywords

PAH2 domain
Sin3 corepressor
protein dimerization
protein structure
protein unfolding

ASJC Scopus subject areas

Structural Biology
Molecular Biology

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10.1016/j.jmb.2006.04.069

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title = "Coupled Unfolding and Dimerization by the PAH2 Domain of the Mammalian Sin3A Corepressor",

abstract = "Coregulator recruitment by sequence-specific DNA binding transcription factors constitutes an important step in many eukaryotic transcription regulatory pathways. The Sin3 corepressor is an evolutionarily conserved protein and a key component of a large histone deacetylase-associated corepressor complex. The Sin3 corepressor contains four imperfect repeats of a domain called PAH (paired amphipathic helix) that serve as docking sites for a variety of sequence-specific DNA binding factors and coregulators. At least two closely related Sin3 proteins designated Sin3A and Sin3B have been described in higher organisms and although functional differences between these paralogs are only beginning to be appreciated, differences at the structural level are poorly understood. Here we analyze the conformational properties of the apo form of the mammalian Sin3A (mSin3A) PAH2 domain. At low micromolar concentrations, the domain is predominantly monomeric and folded in a conformation similar to those found in complexes with the Mad1 and HBP1 repressors. Unexpectedly, at higher concentrations, the domain dimerizes with concomitant population of a partially unfolded conformer. These findings are in contrast to those reported for the mSin3B PAH2 domain and may have implications for the manner in which these paralogous domains interact with their targets.",

keywords = "PAH2 domain, Sin3 corepressor, protein dimerization, protein structure, protein unfolding",

author = "Yongbo Zhang and Zhipeng Zhang and Borries Demeler and Ishwar Radhakrishnan",

note = "Funding Information: We thank Jonathan Widom for useful discussions relating to coupled equilibria, and Richard Kang and Joanne Mai for their early contributions towards the development of this work. This work was supported by a grant from the NIH (GM 64715) to I.R. The development of the UltraScan software was supported by the NSF through a grant (DBI-9974819) to B.D. I.R. is a Scholar of the Leukemia and Lymphoma Society. Z.Z. was supported in part by a summer research scholarship from Northwestern University. Access to instrumentation in the Keck Biophysics Facility and the WCAS Structural Biology NMR Facility at Northwestern is gratefully acknowledged. ",

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AU - Demeler, Borries

AU - Radhakrishnan, Ishwar

N1 - Funding Information: We thank Jonathan Widom for useful discussions relating to coupled equilibria, and Richard Kang and Joanne Mai for their early contributions towards the development of this work. This work was supported by a grant from the NIH (GM 64715) to I.R. The development of the UltraScan software was supported by the NSF through a grant (DBI-9974819) to B.D. I.R. is a Scholar of the Leukemia and Lymphoma Society. Z.Z. was supported in part by a summer research scholarship from Northwestern University. Access to instrumentation in the Keck Biophysics Facility and the WCAS Structural Biology NMR Facility at Northwestern is gratefully acknowledged.

PY - 2006/6/30

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N2 - Coregulator recruitment by sequence-specific DNA binding transcription factors constitutes an important step in many eukaryotic transcription regulatory pathways. The Sin3 corepressor is an evolutionarily conserved protein and a key component of a large histone deacetylase-associated corepressor complex. The Sin3 corepressor contains four imperfect repeats of a domain called PAH (paired amphipathic helix) that serve as docking sites for a variety of sequence-specific DNA binding factors and coregulators. At least two closely related Sin3 proteins designated Sin3A and Sin3B have been described in higher organisms and although functional differences between these paralogs are only beginning to be appreciated, differences at the structural level are poorly understood. Here we analyze the conformational properties of the apo form of the mammalian Sin3A (mSin3A) PAH2 domain. At low micromolar concentrations, the domain is predominantly monomeric and folded in a conformation similar to those found in complexes with the Mad1 and HBP1 repressors. Unexpectedly, at higher concentrations, the domain dimerizes with concomitant population of a partially unfolded conformer. These findings are in contrast to those reported for the mSin3B PAH2 domain and may have implications for the manner in which these paralogous domains interact with their targets.

AB - Coregulator recruitment by sequence-specific DNA binding transcription factors constitutes an important step in many eukaryotic transcription regulatory pathways. The Sin3 corepressor is an evolutionarily conserved protein and a key component of a large histone deacetylase-associated corepressor complex. The Sin3 corepressor contains four imperfect repeats of a domain called PAH (paired amphipathic helix) that serve as docking sites for a variety of sequence-specific DNA binding factors and coregulators. At least two closely related Sin3 proteins designated Sin3A and Sin3B have been described in higher organisms and although functional differences between these paralogs are only beginning to be appreciated, differences at the structural level are poorly understood. Here we analyze the conformational properties of the apo form of the mammalian Sin3A (mSin3A) PAH2 domain. At low micromolar concentrations, the domain is predominantly monomeric and folded in a conformation similar to those found in complexes with the Mad1 and HBP1 repressors. Unexpectedly, at higher concentrations, the domain dimerizes with concomitant population of a partially unfolded conformer. These findings are in contrast to those reported for the mSin3B PAH2 domain and may have implications for the manner in which these paralogous domains interact with their targets.

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Coupled Unfolding and Dimerization by the PAH2 Domain of the Mammalian Sin3A Corepressor

Abstract

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