2018
DOI: 10.1038/s41598-018-21432-8
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Specific Recognition of Arginine Methylated Histone Tails by JMJD5 and JMJD7

Abstract: We have reported that JMJD5 and JMJD7 (JMJD5/7) are responsible for the clipping of arginine methylated histone tails to generate “tailless nucleosomes”, which could release the pausing RNA polymerase II (Pol II) into productive transcription elongation. JMJD5/7 function as endopeptidases that cleave histone tails specifically adjacent to methylated arginine residues and continue to degrade N-terminal residues of histones via their aminopeptidase activity. Here, we report structural and biochemical studies on … Show more

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Cited by 25 publications
(43 citation statements)
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“…Interestingly, the protease activities of JMJD5 on lysine residues was independently reported by another group, 80 which was also observed by our group and was deemed as nonspecific 10 . The deep and narrowed substrate binding pocket may suggest that JMJD5 can only accommodate substrates that contain 2 to 3 residues at the N‐termini within histone tails, 11 thus preventing proper engagement of any potential site within long peptides. Interestingly, another later report, which shows hydroxylase activities of JMJD5 on an arginine within a cytosol ribosomal protein S6, 81 was in accordance with our discovery of specific recognition on arginine by the Tudor‐like binding pocket, 11 though disputed enzymatic activities.…”
Section: Jmjd5 and Jmjd7 Cleave Arginine Methylate Histone Tails To Gsupporting
confidence: 77%
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“…Interestingly, the protease activities of JMJD5 on lysine residues was independently reported by another group, 80 which was also observed by our group and was deemed as nonspecific 10 . The deep and narrowed substrate binding pocket may suggest that JMJD5 can only accommodate substrates that contain 2 to 3 residues at the N‐termini within histone tails, 11 thus preventing proper engagement of any potential site within long peptides. Interestingly, another later report, which shows hydroxylase activities of JMJD5 on an arginine within a cytosol ribosomal protein S6, 81 was in accordance with our discovery of specific recognition on arginine by the Tudor‐like binding pocket, 11 though disputed enzymatic activities.…”
Section: Jmjd5 and Jmjd7 Cleave Arginine Methylate Histone Tails To Gsupporting
confidence: 77%
“…Most interestingly, H3, H4, and their arginine methylated isoforms are greatly increased in cell lines with deficiency of either JMJD5 or JMJD7 in vivo 10 . Structural characterization reveals that there is a unique structural feature within the catalytic core of JMJD5 to accommodate the methylated sidechains of arginine, which is highly similar to that of methyl‐arginine recognizing Tudor domain 11 . Unique structural features within the Tudor domain‐like pocket differentiates methylated arginines from methylated lysine 11 .…”
Section: Jmjd5 and Jmjd7 Cleave Arginine Methylate Histone Tails To Gmentioning
confidence: 99%
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