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741 results on '"Strahl, Brian D."'

3. TNRC18 engages H3K9me3 to mediate silencing of endogenous retrotransposons

Author

Zhao, Shuai, Lu, Jiuwei, Pan, Bo, Fan, Huitao, Byrum, Stephanie D., Xu, Chenxi, Kim, Arum, Guo, Yiran, Kanchi, Krishna L., Gong, Weida, Sun, Tongyu, Storey, Aaron J., Burkholder, Nathaniel T., Mackintosh, Samuel G., Kuhlers, Peyton C., Edmondson, Ricky D., Strahl, Brian D., Diao, Yarui, Tackett, Alan J., Raab, Jesse R., Cai, Ling, Song, Jikui, and Wang, Gang Greg

Published
2023
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8. DNMT1 reads heterochromatic H4K20me3 to reinforce LINE-1 DNA methylation.

Author

Ren, Wendan, Fan, Huitao, Grimm, Sara A, Kim, Jae Jin, Li, Linhui, Guo, Yiran, Petell, Christopher James, Tan, Xiao-Feng, Zhang, Zhi-Min, Coan, John P, Yin, Jiekai, Kim, Dae In, Gao, Linfeng, Cai, Ling, Khudaverdyan, Nelli, Çetin, Burak, Patel, Dinshaw J, Wang, Yinsheng, Cui, Qiang, Strahl, Brian D, Gozani, Or, Miller, Kyle M, O'Leary, Seán E, Wade, Paul A, Wang, Gang Greg, and Song, Jikui

Subjects
Cell Line, Heterochromatin, Animals, Mice, Genomic Instability, Histones, Crystallography, X-Ray, DNA Methylation, Long Interspersed Nucleotide Elements, Genome, DNA (Cytosine-5-)-Methyltransferase 1
Abstract

DNA methylation and trimethylated histone H4 Lysine 20 (H4K20me3) constitute two important heterochromatin-enriched marks that frequently cooperate in silencing repetitive elements of the mammalian genome. However, it remains elusive how these two chromatin modifications crosstalk. Here, we report that DNA methyltransferase 1 (DNMT1) specifically 'recognizes' H4K20me3 via its first bromo-adjacent-homology domain (DNMT1BAH1). Engagement of DNMT1BAH1-H4K20me3 ensures heterochromatin targeting of DNMT1 and DNA methylation at LINE-1 retrotransposons, and cooperates with the previously reported readout of histone H3 tail modifications (i.e., H3K9me3 and H3 ubiquitylation) by the RFTS domain to allosterically regulate DNMT1's activity. Interplay between RFTS and BAH1 domains of DNMT1 profoundly impacts DNA methylation at both global and focal levels and genomic resistance to radiation-induced damage. Together, our study establishes a direct link between H4K20me3 and DNA methylation, providing a mechanism in which multivalent recognition of repressive histone modifications by DNMT1 ensures appropriate DNA methylation patterning and genomic stability.

Published
2021

9. Genetic interaction mapping informs integrative structure determination of protein complexes

Author

Braberg, Hannes, Echeverria, Ignacia, Bohn, Stefan, Cimermancic, Peter, Shiver, Anthony, Alexander, Richard, Xu, Jiewei, Shales, Michael, Dronamraju, Raghuvar, Jiang, Shuangying, Dwivedi, Gajendradhar, Bogdanoff, Derek, Chaung, Kaitlin K, Hüttenhain, Ruth, Wang, Shuyi, Mavor, David, Pellarin, Riccardo, Schneidman, Dina, Bader, Joel S, Fraser, James S, Morris, John, Haber, James E, Strahl, Brian D, Gross, Carol A, Dai, Junbiao, Boeke, Jef D, Sali, Andrej, and Krogan, Nevan J

Subjects
Biochemistry and Cell Biology, Bioinformatics and Computational Biology, Biological Sciences, Genetics, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Histones, Multiprotein Complexes, Mutation, Protein Conformation, Protein Interaction Mapping, Protein Interaction Maps, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, General Science & Technology
Abstract

Determining structures of protein complexes is crucial for understanding cellular functions. Here, we describe an integrative structure determination approach that relies on in vivo measurements of genetic interactions. We construct phenotypic profiles for point mutations crossed against gene deletions or exposed to environmental perturbations, followed by converting similarities between two profiles into an upper bound on the distance between the mutated residues. We determine the structure of the yeast histone H3-H4 complex based on ~500,000 genetic interactions of 350 mutants. We then apply the method to subunits Rpb1-Rpb2 of yeast RNA polymerase II and subunits RpoB-RpoC of bacterial RNA polymerase. The accuracy is comparable to that based on chemical cross-links; using restraints from both genetic interactions and cross-links further improves model accuracy and precision. The approach provides an efficient means to augment integrative structure determination with in vivo observations.

Published
2020

10. BAHCC1 binds H3K27me3 via a conserved BAH module to mediate gene silencing and oncogenesis

Author

Fan, Huitao, Lu, Jiuwei, Guo, Yiran, Li, Dongxu, Zhang, Zhi-Min, Tsai, Yi-Hsuan, Pi, Wen-Chieh, Ahn, Jeong Hyun, Gong, Weida, Xiang, Yu, Allison, David F, Geng, Huimin, He, Shenghui, Diao, Yarui, Chen, Wei-Yi, Strahl, Brian D, Cai, Ling, Song, Jikui, and Wang, Gang Greg

Subjects
Biochemistry and Cell Biology, Genetics, Biological Sciences, Human Genome, Rare Diseases, Pediatric Cancer, Hematology, Cancer, Pediatric, 2.1 Biological and endogenous factors, Generic health relevance, Animals, Carcinogenesis, Cell Differentiation, Cell Line, Tumor, Chromatin Immunoprecipitation, Gene Expression Regulation, Gene Silencing, HEK293 Cells, HeLa Cells, Histone Code, Histones, Humans, Jurkat Cells, Leukemia, Methylation, Mice, Mice, Transgenic, Neoplasm Transplantation, Protein Processing, Post-Translational, Proteins, Transplantation, Heterologous, Hela Cells, Medical and Health Sciences, Developmental Biology, Agricultural biotechnology, Bioinformatics and computational biology
Abstract

Trimethylated histone H3 lysine 27 (H3K27me3) regulates gene repression, cell-fate determination and differentiation. We report that a conserved bromo-adjacent homology (BAH) module of BAHCC1 (BAHCC1BAH) 'recognizes' H3K27me3 specifically and enforces silencing of H3K27me3-demarcated genes in mammalian cells. Biochemical, structural and integrated chromatin immunoprecipitation-sequencing-based analyses demonstrate that direct readout of H3K27me3 by BAHCC1 is achieved through a hydrophobic trimethyl-L-lysine-binding 'cage' formed by BAHCC1BAH, mediating colocalization of BAHCC1 and H3K27me3-marked genes. BAHCC1 is highly expressed in human acute leukemia and interacts with transcriptional corepressors. In leukemia, depletion of BAHCC1, or disruption of the BAHCC1BAH-H3K27me3 interaction, causes derepression of H3K27me3-targeted genes that are involved in tumor suppression and cell differentiation, leading to suppression of oncogenesis. In mice, introduction of a germline mutation at Bahcc1 to disrupt its H3K27me3 engagement causes partial postnatal lethality, supporting a role in development. This study identifies an H3K27me3-directed transduction pathway in mammals that relies on a conserved BAH 'reader'.

Published
2020

11. Direct readout of heterochromatic H3K9me3 regulates DNMT1-mediated maintenance DNA methylation

Author

Ren, Wendan, Fan, Huitao, Grimm, Sara A, Guo, Yiran, Kim, Jae Jin, Yin, Jiekai, Li, Linhui, Petell, Christopher J, Tan, Xiao-Feng, Zhang, Zhi-Min, Coan, John P, Gao, Linfeng, Cai, Ling, Detrick, Brittany, Çetin, Burak, Cui, Qiang, Strahl, Brian D, Gozani, Or, Wang, Yinsheng, Miller, Kyle M, O'Leary, Seán E, Wade, Paul A, Patel, Dinshaw J, Wang, Gang Greg, and Song, Jikui

Subjects
Genetics, Human Genome, Stem Cell Research, Generic health relevance, DNA (Cytosine-5-)-Methyltransferase 1, DNA Methylation, Heterochromatin, Histones, Humans, Lysine, Methylation, Protein Processing, Post-Translational, DNA methylation, H3K9me3, DNMT1, allosteric regulation
Abstract

In mammals, repressive histone modifications such as trimethylation of histone H3 Lys9 (H3K9me3), frequently coexist with DNA methylation, producing a more stable and silenced chromatin state. However, it remains elusive how these epigenetic modifications crosstalk. Here, through structural and biochemical characterizations, we identified the replication foci targeting sequence (RFTS) domain of maintenance DNA methyltransferase DNMT1, a module known to bind the ubiquitylated H3 (H3Ub), as a specific reader for H3K9me3/H3Ub, with the recognition mode distinct from the typical trimethyl-lysine reader. Disruption of the interaction between RFTS and the H3K9me3Ub affects the localization of DNMT1 in stem cells and profoundly impairs the global DNA methylation and genomic stability. Together, this study reveals a previously unappreciated pathway through which H3K9me3 directly reinforces DNMT1-mediated maintenance DNA methylation.

Published
2020

12. Histone H3 proline 16 hydroxylation regulates mammalian gene expression

Author

Liu, Xijuan, Wang, Jun, Boyer, Joshua A., Gong, Weida, Zhao, Shuai, Xie, Ling, Wu, Qiong, Zhang, Cheng, Jain, Kanishk, Guo, Yiran, Rodriguez, Javier, Li, Mingjie, Uryu, Hidetaka, Liao, Chengheng, Hu, Lianxin, Zhou, Jin, Shi, Xiaobing, Tsai, Yi-Hsuan, Yan, Qin, Luo, Weibo, Chen, Xian, Strahl, Brian D., von Kriegsheim, Alex, Zhang, Qi, Wang, Gang Greg, Baldwin, Albert S., and Zhang, Qing

Published
2022
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15. The histone methyltransferase SETD2 regulates HIV expression and latency

Author

Bussey-Sutton, Cameron R., primary, Ward, Airlie, additional, Fox, Joshua A., additional, Turner, Anne-Marie W., additional, Peterson, Jackson J., additional, Emery, Ann, additional, Longoria, Arturo R., additional, Gomez-Martinez, Ismael, additional, Jones, Corbin, additional, Hepperla, Austin, additional, Margolis, David M., additional, Strahl, Brian D., additional, and Browne, Edward P., additional

Published
2024
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16. Binding to medium and long chain fatty acyls is a common property of HEAT and ARM repeat modules.

Author

Li, Tie-Mei, Coan, John P, Krajewski, Krzysztof, Zhang, Lichao, Elias, Joshua E, Strahl, Brian D, Gozani, Or, and Chua, Katrin F

Abstract

Covalent post-translational modification (PTM) of proteins with acyl groups of various carbon chain-lengths regulates diverse biological processes ranging from chromatin dynamics to subcellular localization. While the YEATS domain has been found to be a prominent reader of acetylation and other short acyl modifications, whether additional acyl-lysine reader domains exist, particularly for longer carbon chains, is unclear. Here, we employed a quantitative proteomic approach using various modified peptide baits to identify reader proteins of various acyl modifications. We discovered that proteins harboring HEAT and ARM repeats bind to lysine myristoylated peptides. Recombinant HEAT and ARM repeats bind to myristoylated peptides independent of the peptide sequence or the position of the myristoyl group. Indeed, HEAT and ARM repeats bind directly to medium- and long-chain free fatty acids (MCFA and LCFA). Lipidomic experiments suggest that MCFAs and LCFAs interact with HEAT and ARM repeat proteins in mammalian cells. Finally, treatment of cells with exogenous MCFAs and inhibitors of MCFA-CoA synthases increase the transactivation activity of the ARM repeat protein β-catenin. Taken together, our results suggest an unappreciated role for fatty acids in the regulation of proteins harboring HEAT or ARM repeats.

Published
2019

18. Taf2 mediates DNA binding of Taf14

Author

Klein, Brianna J., Feigerle, Jordan T., Zhang, Jibo, Ebmeier, Christopher C., Fan, Lixin, Singh, Rohit K., Wang, Wesley W., Schmitt, Lauren R., Lee, Thomas, Hansen, Kirk C., Liu, Wenshe R., Wang, Yun-Xing, Strahl, Brian D., Anthony Weil, P., and Kutateladze, Tatiana G.

Published
2022
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22. An Allosteric Interaction Links USP7 to Deubiquitination and Chromatin Targeting of UHRF1

Author

Zhang, Zhi-Min, Rothbart, Scott B, Allison, David F, Cai, Qian, Harrison, Joseph S, Li, Lin, Wang, Yinsheng, Strahl, Brian D, Wang, Gang Greg, and Song, Jikui

Subjects
Genetics, Allosteric Regulation, Allosteric Site, Amino Acid Sequence, CCAAT-Enhancer-Binding Proteins, Chromatin, HEK293 Cells, Humans, Molecular Sequence Data, Protein Binding, Protein Transport, Ubiquitin Thiolesterase, Ubiquitin-Protein Ligases, Ubiquitin-Specific Peptidase 7, Ubiquitination, Biochemistry and Cell Biology, Medical Physiology
Abstract

The protein stability and chromatin functions of UHRF1 (ubiquitin-like, containing PHD and RING finger domains, 1) are regulated in a cell-cycle-dependent manner. We report a structural characterization of the complex between UHRF1 and the deubiquitinase USP7. The first two UBL domains of USP7 bind to the polybasic region (PBR) of UHRF1, and this interaction is required for the USP7-mediated deubiquitination of UHRF1. Importantly, we find that the USP7-binding site of the UHRF1 PBR overlaps with the region engaging in an intramolecular interaction with the N-terminal tandem Tudor domain (TTD). We show that the USP7-UHRF1 interaction perturbs the TTD-PBR interaction of UHRF1, thereby shifting the conformation of UHRF1 from a TTD-"occluded" state to a state open for multivalent histone binding. Consistently, introduction of a USP7-interaction-defective mutation to UHRF1 significantly reduces its chromatin association. Together, these results link USP7 interaction to the dynamic deubiquitination and chromatin association of UHRF1.

Published
2015

23. Identification of a BET Family Bromodomain/Casein Kinase II/TAF-Containing Complex as a Regulator of Mitotic Condensin Function

Author

Kim, Hyun-Soo, Mukhopadhyay, Rituparna, Rothbart, Scott B, Silva, Andrea C, Vanoosthuyse, Vincent, Radovani, Ernest, Kislinger, Thomas, Roguev, Assen, Ryan, Colm J, Xu, Jiewei, Jahari, Harlizawati, Hardwick, Kevin G, Greenblatt, Jack F, Krogan, Nevan J, Fillingham, Jeffrey S, Strahl, Brian D, Bouhassira, Eric E, Edelmann, Winfried, and Keogh, Michael-Christopher

Subjects
Biochemistry and Cell Biology, Biological Sciences, Genetics, Human Genome, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Acetylation, Adenosine Triphosphatases, Casein Kinase II, Centromere, Chromatin, DNA-Binding Proteins, Histone Acetyltransferases, Histones, Mitosis, Multiprotein Complexes, Nuclear Proteins, RNA-Binding Proteins, Yeasts, Medical Physiology, Biological sciences
Abstract

Condensin is a central regulator of mitotic genome structure with mutants showing poorly condensed chromosomes and profound segregation defects. Here, we identify NCT, a complex comprising the Nrc1 BET-family tandem bromodomain protein (SPAC631.02), casein kinase II (CKII), and several TAFs, as a regulator of condensin function. We show that NCT and condensin bind similar genomic regions but only briefly colocalize during the periods of chromosome condensation and decondensation. This pattern of NCT binding at the core centromere, the region of maximal condensin enrichment, tracks the abundance of acetylated histone H4, as regulated by the Hat1-Mis16 acetyltransferase complex and recognized by the first Nrc1 bromodomain. Strikingly, mutants in NCT or Hat1-Mis16 restore the formation of segregation-competent chromosomes in cells containing defective condensin. These results are consistent with a model where NCT targets CKII to chromatin in a cell-cycle-directed manner in order to modulate the activity of condensin during chromosome condensation and decondensation.

Published
2014

25. SETD2 maintains nuclear lamina stability to safeguard the genome

Author

Khan, Abid, primary, Metts, James McGuire, additional, Collins, Lucas C, additional, Mills, C. Allie, additional, Li, Kelin, additional, Brademeyer, Amanda L, additional, Bowman, Brittany M, additional, Major, M. Ben, additional, Aubé, Jeffrey, additional, Herring, Laura E, additional, Davis, Ian J, additional, and Strahl, Brian D., additional

Published
2023
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26. SETD2 safeguards the genome against isochromosome formation

Author

Mason, Frank M., primary, Kounlavong, Emily S., additional, Tebeje, Anteneh T., additional, Dahiya, Rashmi, additional, Guess, Tiffany, additional, Khan, Abid, additional, Vlach, Logan, additional, Norris, Stephen R., additional, Lovejoy, Courtney A., additional, Dere, Ruhee, additional, Strahl, Brian D., additional, Ohi, Ryoma, additional, Ly, Peter, additional, Walker, Cheryl Lyn, additional, and Rathmell, W. Kimryn, additional

Published
2023
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27. Combined noncanonical NF-[kappa]B agonism and targeted BET bromodomain inhibition reverse HIV latency ex vivo

Author

Falcinelli, Shane D., Peterson, Jackson J., Turner, Anne-Marie W., Irlbeck, David, Read, Jenna, Raines, Samuel L.M., James, Katherine S., Sutton, Cameron, Sanchez, Anthony, Emery, Ann, Sampey, Gavin, Ferris, Robert, Allard, Brigitte, Ghofrani, Simon, Kirchherr, Jennifer L., Baker, Caroline, Kuruc, JoAnn D., Gay, Cynthia L., James, Lindsey I., Wu, Guoxin, Zuck, Paul, Rioja, Inmaculada, Furze, Rebecca C., Prinjha, Rab K., Howell, Bonnie J., Swanstrom, Ronald, Browne, Edward P., Strahl, Brian D., Dunham, Richard M., Archin, Nancie M., and Margolis, David M.

Subjects
Agonists (Biochemistry) -- Research, Immunological research, Virus latency -- Research, Antiviral agents -- Research, Molecular targeted therapy -- Methods, Transcription factors -- Health aspects, HIV infection -- Care and treatment, Health care industry
Abstract

Latency reveRsaI strategies for HIV cure using inhibitor of apoptosis protein (IAP) antagonists (IAPi) induce unprecedented levels of latent reservoir expression without immunotoxicity during suppressive antiretroviral therapy (ART). However, full targeting of the reservoir may require combinatorial approaches. A Jurkat latency model screen for IAPi combination partners demonstrated synergistic latency reveRsaI with bromodomain (BD) and extraterminal domain protein inhibitors (BETi). Mechanistic investigations using CRISPR-CAS9 and single-cell RNA-Seq informed comprehensive ex vivo evaluations of IAPi plus pan-BET, bD-selective BET, or selective BET isoform targeting in [CD4.sup.+] T cells from ART-suppressed donors. IAPi+BETi treatment resulted in striking induction of cell-associated HIV gag RNA, but lesser induction of fully elongated and tat-rev RNA compared with T cell activation-positive controls. IAPi+BETi resulted in HIV protein induction in bulk cultures of [CD4.sup.+] T cells using an ultrasensitive p24 assay, but did not result in enhanced viral outgrowth frequency using a standard quantitative viral outgrowth assay. This study defines HIV transcriptional elongation and splicing as important barriers to latent HIV protein expression following latency reveRsaI, delineates the roles of BET proteins and their BDs in HIV latency, and provides a rationale for exploration of IAPi+BETi in animal models of HIV latency., Introduction HIV cure remains elusive because of latent but replication-competent HIV DNA within host [CD4.sup.+] T cells during long-term suppressive antiretroviral therapy (ART) (1, 2). HIV latency is maintained by [...]

Published
2022
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30. The histone and non-histone methyllysine reader activities of the UHRF1 tandem Tudor domain are dispensable for the propagation of aberrant DNA methylation patterning in cancer cells

Author

Vaughan, Robert M., Kupai, Ariana, Foley, Caroline A., Sagum, Cari A., Tibben, Bailey M., Eden, Hope E., Tiedemann, Rochelle L., Berryhill, Christine A., Patel, Varun, Shaw, Kevin M., Krajewski, Krzysztof, Strahl, Brian D., Bedford, Mark T., Frye, Stephen V., Dickson, Bradley M., and Rothbart, Scott B.

Published
2020
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35. A Course-Based Undergraduate Research Experience Investigating p300 Bromodomain Mutations

Author

Shanle, Erin K., Tsun, Ian K., and Strahl, Brian D.

Abstract

Course-based undergraduate research experiences (CUREs) provide an opportunity for students to engage in experiments with outcomes that are unknown to both the instructor and students. These experiences allow students and instructors to collaboratively bridge the research laboratory and classroom, and provide research experiences for a large number of students relative to traditional individual mentored research. Here, we describe a molecular biology CURE investigating the impact of clinically relevant mutations found in the bromodomain of the p300 transcriptional regulator on acetylated histone interaction. In the CURE, students identified missense mutations in the p300 bromodomain using the Catalogue of Somatic Mutations in Cancer (COSMIC) database and hypothesized the effects of the mutation on the acetyl-binding function of the domain. They cloned and purified the mutated bromodomain and performed peptide pulldown assays to define its potential to bind to acetylated histones. Upon completion of the course, students showed increased confidence performing molecular techniques and reported positively on doing a research project in class. In addition, results generated in the classroom were further validated in the research laboratory setting thereby providing a new model for faculty to engage in both course-based and individual undergraduate research experiences.

Published
2016
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37. An acetylation-mediated chromatin switch governs H3K4 methylation read-write capability

Author

Jain, Kanishk, primary, Marunde, Matthew R, additional, Burg, Jonathan M, additional, Gloor, Susan L, additional, Joseph, Faith M, additional, Poncha, Karl F, additional, Gillespie, Zachary B, additional, Rodriguez, Keli L, additional, Popova, Irina K, additional, Hall, Nathan W, additional, Vaidya, Anup, additional, Howard, Sarah A, additional, Taylor, Hailey F, additional, Mukhsinova, Laylo, additional, Onuoha, Ugochi C, additional, Patteson, Emily F, additional, Cooke, Spencer W, additional, Taylor, Bethany C, additional, Weinzapfel, Ellen N, additional, Cheek, Marcus A, additional, Meiners, Matthew J, additional, Fox, Geoffrey C, additional, Namitz, Kevin EW, additional, Cowles, Martis W, additional, Krajewski, Krzysztof, additional, Sun, Zu-Wen, additional, Cosgrove, Michael S, additional, Young, Nicolas, additional, Keogh, Michael-C, additional, and Strahl, Brian D, additional

Published
2023
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38. Data from SETD2 Haploinsufficiency for Microtubule Methylation Is an Early Driver of Genomic Instability in Renal Cell Carcinoma

Author

Chiang, Yun-Chen, primary, Park, In-Young, primary, Terzo, Esteban A., primary, Tripathi, Durga Nand, primary, Mason, Frank M., primary, Fahey, Catherine C., primary, Karki, Menuka, primary, Shuster, Charles B., primary, Sohn, Bo-Hwa, primary, Chowdhury, Pratim, primary, Powell, Reid T., primary, Ohi, Ryoma, primary, Tsai, Yihsuan S., primary, de Cubas, Aguirre A., primary, Khan, Abid, primary, Davis, Ian J., primary, Strahl, Brian D., primary, Parker, Joel S., primary, Dere, Ruhee, primary, Walker, Cheryl L., primary, and Rathmell, W. Kimryn, primary

Published
2023
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39. Figure S5 from SETD2 Haploinsufficiency for Microtubule Methylation Is an Early Driver of Genomic Instability in Renal Cell Carcinoma

Author

Chiang, Yun-Chen, primary, Park, In-Young, primary, Terzo, Esteban A., primary, Tripathi, Durga Nand, primary, Mason, Frank M., primary, Fahey, Catherine C., primary, Karki, Menuka, primary, Shuster, Charles B., primary, Sohn, Bo-Hwa, primary, Chowdhury, Pratim, primary, Powell, Reid T., primary, Ohi, Ryoma, primary, Tsai, Yihsuan S., primary, de Cubas, Aguirre A., primary, Khan, Abid, primary, Davis, Ian J., primary, Strahl, Brian D., primary, Parker, Joel S., primary, Dere, Ruhee, primary, Walker, Cheryl L., primary, and Rathmell, W. Kimryn, primary

Published
2023
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40. Supplementary Fig Legends from SETD2 Haploinsufficiency for Microtubule Methylation Is an Early Driver of Genomic Instability in Renal Cell Carcinoma

Author

Chiang, Yun-Chen, primary, Park, In-Young, primary, Terzo, Esteban A., primary, Tripathi, Durga Nand, primary, Mason, Frank M., primary, Fahey, Catherine C., primary, Karki, Menuka, primary, Shuster, Charles B., primary, Sohn, Bo-Hwa, primary, Chowdhury, Pratim, primary, Powell, Reid T., primary, Ohi, Ryoma, primary, Tsai, Yihsuan S., primary, de Cubas, Aguirre A., primary, Khan, Abid, primary, Davis, Ian J., primary, Strahl, Brian D., primary, Parker, Joel S., primary, Dere, Ruhee, primary, Walker, Cheryl L., primary, and Rathmell, W. Kimryn, primary

Published
2023
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43. Histone H3K23-specific acetylation by MORF is coupled to H3K14 acylation

Author

Klein, Brianna J., Jang, Suk Min, Lachance, Catherine, Mi, Wenyi, Lyu, Jie, Sakuraba, Shun, Krajewski, Krzysztof, Wang, Wesley W., Sidoli, Simone, Liu, Jiuyang, Zhang, Yi, Wang, Xiaolu, Warfield, Becka M., Kueh, Andrew J., Voss, Anne K., Thomas, Tim, Garcia, Benjamin A., Liu, Wenshe R., Strahl, Brian D., Kono, Hidetoshi, Li, Wei, Shi, Xiaobing, Côté, Jacques, and Kutateladze, Tatiana G.

Published
2019
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46. C. David Allis (1951–2023)

Author

Bernstein, Emily, primary, Dent, Sharon, additional, Dou, Yali, additional, Duncan, Elizabeth M., additional, Hake, Sandra B., additional, Strahl, Brian D., additional, and Wysocka, Joanna, additional

Published
2023
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