Widespread hydroxylation of unstructured lysine-rich protein domains by JMJD6

Matthew E. Cockman; Yoichiro Sugimoto; Hamish B. PeggNorma MassonEidarus SalahAnthony TumberHelen R. FlynnJoanna M. KirkpatrickChristopher J. SchofieldPeter J. Ratcliffe

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Widespread hydroxylation of unstructured lysine-rich protein domains by JMJD6

机译：Widespread hydroxylation of unstructured lysine-rich protein domains by JMJD6

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The Jumonji domain-containing protein JMJD6 is a 2-oxoglutarate-dependent dioxygenase associated with a broad range of biological functions. Cellular studies have implicated the enzyme in chromatin biology, transcription, DNA repair, mRNA splicing, and cotranscriptional processing. Although not all studies agree, JMJD6 has been reported to catalyze both hydroxylation of lysine residues and demethylation of arginine residues. However, despite extensive study and indirect evidence for JMJD6 catalysis in many cellular processes, direct assignment of JMJD6 catalytic substrates has been limited. Examination of a reported site of proline hydroxylation within a lysine-rich region of the tandem bromodomain protein BRD4 led us to conclude that hydroxylation was in fact on lysine and catalyzed by JMJD6. This prompted a wider search for JMJD6- catalyzed protein modifications deploying mass spectrometric methods designed to improve the analysis of such lysine-rich regions. Using lysine derivatization with propionic anhydride to improve the analysis of tryptic peptides and nontryptic proteolysis, 7 we report 150 sites of JMJD6-catalyzed lysine hydroxylation on 48 protein substrates, including 19 sites of hydroxylation on BRD4. Most hydroxylations were within lysinerich regions that are predicted to be unstructured; in some, multiple modifications were observed on adjacent lysine residues. Almost all of the JMJD6 substrates defined in these studies have been associated with membraneless organelle formation. Given the reported roles of lysine-rich regions in subcellular partitioning by liquid-liquid phase separation, our findings raise the possibility that JMJD6 may play a role in regulating such processes in response to stresses, including hypoxia. ? 2022 National Academy of Sciences. All rights reserved.

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《Proceedings of the National Academy of Sciences of the United States of America.》 |2022年第32期|e2201483119-e2201483119|共1页
作者
Matthew E. Cockman; Yoichiro Sugimoto; Hamish B. PeggNorma MassonEidarus SalahAnthony TumberHelen R. FlynnJoanna M. KirkpatrickChristopher J. SchofieldPeter J. Ratcliffe;
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作者单位

Hypoxia Biology Laboratory, Francis Crick Institute, London, NW1 1AT, United Kingdom;

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收录信息美国《科学引文索引》(SCI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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正文语种英语
中图分类自然科学总论;
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2-oxoglutarate-dependent dioxygenase; hypoxia; JMJD6; lysine hydroxylation; lysine-rich domain;

Widespread hydroxylation of unstructured lysine-rich protein domains by JMJD6

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