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3OPW

Crystal Structure of the Rph1 catalytic core

Summary for 3OPW
Entry DOI10.2210/pdb3opw/pdb
Related3OPT
DescriptorDNA damage-responsive transcriptional repressor RPH1 (2 entities in total)
Functional Keywordsrph1, histone demethylase, catalytic core, oxidoreductase
Biological sourceSaccharomyces cerevisiae (yeast)
Cellular locationNucleus: P39956
Total number of polymer chains1
Total formula weight43613.61
Authors
Chang, Y.,Wu, J.,Tong, X.,Zhou, J.,Ding, J. (deposition date: 2010-09-02, release date: 2010-12-22, Last modification date: 2024-03-20)
Primary citationChang, Y.,Wu, J.,Tong, X.J.,Zhou, J.Q.,Ding, J.
Crystal structure of the catalytic core of Saccharomyces cerevesiae histone demethylase Rph1: insights into the substrate specificity and catalytic mechanism
Biochem.J., 433:295-302, 2011
Cited by
PubMed Abstract: Saccharomyces cerevesiae Rph1 is a histone demethylase orthologous to human JMJD2A (Jumonji-domain-containing protein 2A) that can specifically demethylate tri- and di-methylated Lys³⁶ of histone H3. c-Rph1, the catalytic core of Rph1, is responsible for the demethylase activity, which is essential for the transcription elongation of some actively transcribed genes. In the present work, we report the crystal structures of c-Rph1 in apo form and in complex with Ni²(+) and α-KG [2-oxoglutarate (α-ketoglutarate)]. The structure of c-Rph1 is composed of a JmjN (Jumonji N) domain, a long β-hairpin, a mixed structural motif and a JmjC domain. The α-KG cofactor forms hydrogen-bonding interactions with the side chains of conserved residues, and the Ni²(+) ion at the active site is chelated by conserved residues and the cofactor. Structural comparison of Rph1 with JMJD2A indicates that the substrate-binding cleft of Rph1 is formed with several structural elements of the JmjC domain, the long β-hairpin and the mixed structural motif; and the methylated Lys³⁶ of H3 is recognized by several conserved residues of the JmjC domain. In vitro biochemical results show that mutations of the key residues at the catalytic centre and in the substrate-binding cleft abolish the demethylase activity. In vivo growth phenotype analyses also demonstrate that these residues are essential for its functional roles in transcription elongation. Taken together, our structural and biological data provide insights into the molecular basis of the histone demethylase activity and the substrate specificity of Rph1.
PubMed: 21067515
DOI: 10.1042/BJ20101418
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (2.5 Å)
Structure validation

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