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The MRG domain of human MRG15 uses a shallow hydrophobic pocket to interact with the N‐terminal region of PAM14
MRG15 is a transcription factor expressed in a variety of human tissues, and its orthologs have been found in many other eukaryotes which constitute the MRG protein family. It plays a vital role in embryonic development and cell proliferation, and is involved in cellular senescence. The C‐terminal p...
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Published in: | Protein science 2006-10, Vol.15 (10), p.2423-2434 |
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Main Authors: | , , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | MRG15 is a transcription factor expressed in a variety of human tissues, and its orthologs have been found in many other eukaryotes which constitute the MRG protein family. It plays a vital role in embryonic development and cell proliferation, and is involved in cellular senescence. The C‐terminal part of MRG15 forms a conserved MRG domain which is involved in interactions with the tumor suppressor protein retinoblastoma and a nucleoprotein PAM14 during transcriptional regulation. We report here the characterization of the interaction between the MRG domain of human MRG15 and PAM14 using both yeast two‐hybrid and in vitro binding assays based on the crystal structure of the MRG domain. The MRG domain is predominantly hydrophobic, and consists of mainly α‐helices that are arranged in a three‐layer sandwich topology. The hydrophobic core is stabilized by interactions among a number of conserved hydrophobic residues. The molecular surface is largely hydrophobic, but contains a few hydrophilic patches. Structure‐based site‐directed mutagenesis studies identified key residues involved in the binding of PAM14. Structural and biochemical data together demonstrate that the PAM14 binding site is consisted of residues Ile160, Leu168, Val169, Trp172, Tyr235, Val268, and Arg269 of MRG15, which form a shallow hydrophobic pocket to interact with the N‐terminal 50 residues of PAM14 through primarily hydrophobic interactions. These results provide the molecular basis for the interaction between the MRG domain and PAM14, and reveal insights into the potential biological function of MRG15 in transcription regulation and chromatin remodeling. |
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ISSN: | 0961-8368 1469-896X |
DOI: | 10.1110/ps.062397806 |