Mapping RNAPII CTD Phosphorylation Reveals That the Identity and Modification of Seventh Heptad Residues Direct Tyr1 Phosphorylation

The C-terminal domain (CTD) of the largest subunit in eukaryotic RNA polymerase II has a repetitive heptad sequence of Tyr1-Ser2-Pro3-Thr4-Ser5-Pro6-Ser7 which is responsible for recruiting transcriptional regulatory factors. The seventh heptad residues in mammals are less conserved and subject to v...

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Published in	ACS chemical biology Vol. 14; no. 10; pp. 2264 - 2275
Main Authors	Burkholder, Nathaniel T, Sipe, Sarah N, Escobar, Edwin E, Venkatramani, Mukeshkumar, Irani, Seema, Yang, Wanjie, Wu, Haoyi, Matthews, Wendy M, Brodbelt, Jennifer S, Zhang, Yan
Format	Journal Article
Language	English
Published	United States American Chemical Society 18.10.2019
Subjects	Amino Acid Motifs Binding Sites Escherichia coli - genetics Humans Phosphorylation Protein Domains Protein Processing, Post-Translational Proto-Oncogene Proteins c-abl - chemistry Proto-Oncogene Proteins c-abl - genetics Proto-Oncogene Proteins c-abl - metabolism RNA Polymerase II - chemistry RNA Polymerase II - metabolism Sequence Alignment Tyrosine - chemistry
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Abstract	The C-terminal domain (CTD) of the largest subunit in eukaryotic RNA polymerase II has a repetitive heptad sequence of Tyr1-Ser2-Pro3-Thr4-Ser5-Pro6-Ser7 which is responsible for recruiting transcriptional regulatory factors. The seventh heptad residues in mammals are less conserved and subject to various post-translational modifications, but the consequences of such variations are not well understood. In this study, we use ultraviolet photodissociation mass spectrometry, kinetic assays, and structural analyses to dissect how different residues or modifications at the seventh heptad position alter Tyr1 phosphorylation. We found that negatively charged residues in this position promote phosphorylation of adjacent Tyr1 sites, whereas positively charged residues discriminate against it. Modifications that alter the charges on seventh heptad residues such as arginine citrullination negate such distinctions. Such specificity can be explained by conserved, positively charged pockets near the active sites of ABL1 and its homologues. Our results reveal a novel mechanism for variations or modifications in the seventh heptad position directing subsequent phosphorylation of other CTD sites, which can contribute to the formation of various modification combinations that likely impact transcriptional regulation.
AbstractList	The C-terminal domain (CTD) of the largest subunit in eukaryotic RNA polymerase II has a repetitive heptad sequence of Tyr1-Ser2-Pro3-Thr4-Ser5-Pro6-Ser7 which is responsible for recruiting transcriptional regulatory factors. The seventh heptad residues in mammals are less conserved and subject to various post-translational modifications, but the consequences of such variations are not well understood. In this study, we use ultraviolet photodissociation mass spectrometry, kinetic assays, and structural analyses to dissect how different residues or modifications at the seventh heptad position alter Tyr1 phosphorylation. We found that negatively charged residues in this position promote phosphorylation of adjacent Tyr1 sites, whereas positively charged residues discriminate against it. Modifications that alter the charges on seventh heptad residues such as arginine citrullination negate such distinctions. Such specificity can be explained by conserved, positively charged pockets near the active sites of ABL1 and its homologues. Our results reveal a novel mechanism for variations or modifications in the seventh heptad position directing subsequent phosphorylation of other CTD sites, which can contribute to the formation of various modification combinations that likely impact transcriptional regulation. The C-terminal domain (CTD) of the largest subunit in eukaryotic RNA polymerase II has a repetitive heptad sequence of Tyr1-Ser2-Pro3-Thr4-Ser5-Pro6-Ser7 which is responsible for recruiting transcriptional regulatory factors. The seventh heptad residues in mammals are less conserved and subject to various post-translational modifications, but the consequences of such variations are not well understood. In this study, we use ultraviolet photodissociation mass spectrometry, kinetic assays, and structural analyses to dissect how different residues or modifications at the seventh heptad position alter Tyr1 phosphorylation. We found that negatively charged residues in this position promote phosphorylation of adjacent Tyr1 sites, whereas positively charged residues discriminate against it. Modifications that alter the charges on seventh heptad residues such as arginine citrullination negate such distinctions. Such specificity can be explained by conserved, positively charged pockets near the active sites of ABL1 and its homologues. Our results reveal a novel mechanism for variations or modifications in the seventh heptad position directing subsequent phosphorylation of other CTD sites, which can contribute to the formation of various modification combinations that likely impact transcriptional regulation.The C-terminal domain (CTD) of the largest subunit in eukaryotic RNA polymerase II has a repetitive heptad sequence of Tyr1-Ser2-Pro3-Thr4-Ser5-Pro6-Ser7 which is responsible for recruiting transcriptional regulatory factors. The seventh heptad residues in mammals are less conserved and subject to various post-translational modifications, but the consequences of such variations are not well understood. In this study, we use ultraviolet photodissociation mass spectrometry, kinetic assays, and structural analyses to dissect how different residues or modifications at the seventh heptad position alter Tyr1 phosphorylation. We found that negatively charged residues in this position promote phosphorylation of adjacent Tyr1 sites, whereas positively charged residues discriminate against it. Modifications that alter the charges on seventh heptad residues such as arginine citrullination negate such distinctions. Such specificity can be explained by conserved, positively charged pockets near the active sites of ABL1 and its homologues. Our results reveal a novel mechanism for variations or modifications in the seventh heptad position directing subsequent phosphorylation of other CTD sites, which can contribute to the formation of various modification combinations that likely impact transcriptional regulation.
ArticleNumber	acschembio.9b00610
Author	Matthews, Wendy M Brodbelt, Jennifer S Venkatramani, Mukeshkumar Irani, Seema Burkholder, Nathaniel T Escobar, Edwin E Wu, Haoyi Yang, Wanjie Zhang, Yan Sipe, Sarah N
AuthorAffiliation	Department of Chemistry Institute for Cellular and Molecular Biology Department of Molecular Biosciences
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Notes	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Author Contributions These authors contributed equally to this paper. Y.Z. and N.T.B. designed the study. N.T.B., S.I., and W.Y. conducted biochemical and kinetic experiments. S.S. and E.E.E. did the LC-UVPD-MS analyses. M.V. cloned the CTD variants. H.W. and W.M.M. prepared the protein samples for analysis. The manuscript was written by Y.Z. and N.T.B. with input from all contributing authors.
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Snippet	The C-terminal domain (CTD) of the largest subunit in eukaryotic RNA polymerase II has a repetitive heptad sequence of Tyr1-Ser2-Pro3-Thr4-Ser5-Pro6-Ser7 which...
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SubjectTerms	Amino Acid Motifs Binding Sites Escherichia coli - genetics Humans Phosphorylation Protein Domains Protein Processing, Post-Translational Proto-Oncogene Proteins c-abl - chemistry Proto-Oncogene Proteins c-abl - genetics Proto-Oncogene Proteins c-abl - metabolism RNA Polymerase II - chemistry RNA Polymerase II - metabolism Sequence Alignment Tyrosine - chemistry
Title	Mapping RNAPII CTD Phosphorylation Reveals That the Identity and Modification of Seventh Heptad Residues Direct Tyr1 Phosphorylation
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