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  1. Article: MED1 IDR acetylation reorganizes the transcription preinitiation complex, rewires 3D chromatin interactions and reprograms gene expression.

    Lin, Ran / Barrows, Douglas / Mo, Yan / Onikubo, Takashi / Zhang, Zhiguo / Roeder, Robert G

    bioRxiv : the preprint server for biology

    2024  

    Abstract: With our current appreciation of the complexity of eukaryotic transcription, whose dysregulation drives diseases including cancer, it is becoming apparent that identification of key events coordinating multiple aspects of transcriptional regulation is of ...

    Abstract With our current appreciation of the complexity of eukaryotic transcription, whose dysregulation drives diseases including cancer, it is becoming apparent that identification of key events coordinating multiple aspects of transcriptional regulation is of special importance. To elucidate how assembly of RNA polymerase II (Pol II) with Mediator complex preinitiation complexes (PICs) and formation of transcription-permissive 3D chromatin organization are coordinated, we studied MED1, a representative subunit of the Mediator complex that acts to establish functional preinitiation complexes (PICs) that forms biomolecular condensates through an intrinsically disordered region (IDR) to facilitate transcription, and is implicated in the function of estrogen receptor α (hereafter ER) in ER-positive breast cancer (ER+ BC) cells. We found that MED1 is acetylated at 6 lysines in its IDR and, further, that MCF7 ER+ BC cells in which endogenous MED1 is replaced by an ectopic 6KR (non-acetylatable) mutant (6KR cells) exhibit enhanced cell growth and elevated expression of MED1-dependent genes. These results indicate an enhanced function of 6KR MED1 that may be attributed to two mechanisms: (1) reorganized PIC assembly, as indicated by increased MED1 and Pol II, decreased MED17, and equivalent ERα occupancies on chromatin, particularly at active enhancers and promoters; (2) sub-TAD chromatin unfolding, as revealed by HiCAR (Hi-C on accessible regulatory DNA) analyses. Furthermore, in vitro assays demonstrate distinct physio-chemical properties of liquid-liquid phase separation (LLPS) for 6KR versus 6KQ MED1 IDRs, and for non-acetylated versus CBP-acetylated WT MED1 IDR fragments. Related, Pol II CTD heptads are sequestered in 6KR and control WT MED1 IDR condensates, but not 6KQ and CBP-acetylated WT MED1 IDR condensates. These findings, in conjunction with recent reports of PIC structures, indicate that MED1 coordinates reorganization of the PIC machinery and the rewiring of regional chromatin organization through acetylation of its IDR. This study leads to an understanding of how the transition in phase behavior of a transcription cofactor acts as a mechanistic hub integrating linear and spatial chromatin functions to support gene expression, and have potential therapeutic implications for diseases involving MED1/Mediator-mediated transcription control.
    Language English
    Publishing date 2024-03-18
    Publishing country United States
    Document type Preprint
    DOI 10.1101/2024.03.18.585606
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  2. Article ; Online: ATRX guards against aberrant differentiation in mesenchymal progenitor cells.

    Fang, Yan / Barrows, Douglas / Dabas, Yakshi / Carroll, Thomas S / Singer, Sam / Tap, William D / Nacev, Benjamin A

    Nucleic acids research

    2024  

    Abstract: Alterations in the tumor suppressor ATRX are recurrently observed in mesenchymal neoplasms. ATRX has multiple epigenetic functions including heterochromatin formation and maintenance and regulation of transcription through modulation of chromatin ... ...

    Abstract Alterations in the tumor suppressor ATRX are recurrently observed in mesenchymal neoplasms. ATRX has multiple epigenetic functions including heterochromatin formation and maintenance and regulation of transcription through modulation of chromatin accessibility. Here, we show in murine mesenchymal progenitor cells (MPCs) that Atrx deficiency aberrantly activated mesenchymal differentiation programs. This includes adipogenic pathways where ATRX loss induced expression of adipogenic transcription factors and enhanced adipogenic differentiation in response to differentiation stimuli. These changes are linked to loss of heterochromatin near mesenchymal lineage genes together with increased chromatin accessibility and gains of active chromatin marks. We additionally observed depletion of H3K9me3 at transposable elements, which are derepressed including near mesenchymal genes where they could serve as regulatory elements. Finally, we demonstrated that loss of ATRX in a mesenchymal malignancy, undifferentiated pleomorphic sarcoma, results in similar epigenetic disruption and de-repression of transposable elements. Together, our results reveal a role for ATRX in maintaining epigenetic states and transcriptional repression in mesenchymal progenitors and tumor cells and in preventing aberrant differentiation in the progenitor context.
    Language English
    Publishing date 2024-03-13
    Publishing country England
    Document type Journal Article
    ZDB-ID 186809-3
    ISSN 1362-4962 ; 1362-4954 ; 0301-5610 ; 0305-1048
    ISSN (online) 1362-4962 ; 1362-4954
    ISSN 0301-5610 ; 0305-1048
    DOI 10.1093/nar/gkae160
    Database MEDical Literature Analysis and Retrieval System OnLINE

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    Zs.A 1067: Show issues Location:
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  3. Article: ATRX guards against aberrant differentiation in mesenchymal progenitor cells.

    Fang, Yan / Barrows, Douglas / Dabas, Yakshi / Carroll, Thomas S / Tap, William D / Nacev, Benjamin A

    bioRxiv : the preprint server for biology

    2023  

    Abstract: Alterations in the tumor ... ...

    Abstract Alterations in the tumor suppressor
    Language English
    Publishing date 2023-08-08
    Publishing country United States
    Document type Preprint
    DOI 10.1101/2023.08.08.552433
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  4. Article ; Online: Effect of the DASH diet on the sodium-chloride cotransporter and aquaporin-2 in urinary extracellular vesicles.

    Bielopolski, Dana / Musante, Luca / Hoorn, Ewout J / Molina, Henrik / Barrows, Douglas / Carroll, Thomas / Harding, Michael A / Upson, Samantha / Qureshi, Adam / Weder, Max M / Tobin, Jonathan N / Kost, Rhonda G / Erdbrügger, U

    American journal of physiology. Renal physiology

    2024  

    Abstract: The Dietary Approach to Stop Hypertension (DASH) diet, with its low sodium and high potassium content, acts like a diuretic by reducing sodium reabsorption in the kidney's distal convoluted tubule but without the side effects. Previous studies based on ... ...

    Abstract The Dietary Approach to Stop Hypertension (DASH) diet, with its low sodium and high potassium content, acts like a diuretic by reducing sodium reabsorption in the kidney's distal convoluted tubule but without the side effects. Previous studies based on animal models didn't explore changes in human ion channel proteins. Recent insights into urinary extracellular vesicles (uEVs) suggest they reflect kidney tissue and physiological modifications. In our inpatient study, we shifted hypertensive volunteers from an American diet to the DASH diet, examining changes in those with stage 1 untreated hypertension. We analyzed a large range of pure uEVs, from small to large, in urine samples from nine volunteers over three time points. Mass spectrometry of these uEVs identified 1,800 proteins, revealing an increase in SCL12A3 (NCC) and a decrease in aquaporin 2 (AQP2). Immunoblotting showed an increase in activated (phosphorylated) NCC ratio to total NCC and a decrease in AQP2 from day 5 to 11, indicating the DASH diet induces measurable kidney responses via uEV protein abundance changes. This non-invasive method offers new insights into the diet's renal mechanism. Future studies should confirm these findings in a larger cohort, clarify the drivers behind NCC and AQP2 changes, their impact on hypertension, and investigate if uEVs also act as a waste pathway for inactive proteins, expanding our understanding of dietary effects on kidney physiology.
    Language English
    Publishing date 2024-04-18
    Publishing country United States
    Document type Journal Article
    ZDB-ID 603837-2
    ISSN 1522-1466 ; 0363-6127
    ISSN (online) 1522-1466
    ISSN 0363-6127
    DOI 10.1152/ajprenal.00274.2023
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  5. Article ; Online: Loss of UTX/KDM6A and the activation of FGFR3 converge to regulate differentiation gene-expression programs in bladder cancer.

    Barrows, Douglas / Feng, Lijuan / Carroll, Thomas S / Allis, C David

    Proceedings of the National Academy of Sciences of the United States of America

    2020  Volume 117, Issue 41, Page(s) 25732–25741

    Abstract: Bladder cancer prognosis is closely linked to the underlying differentiation state of the tumor, ranging from the less aggressive and most-differentiated luminal tumors to the more aggressive and least-differentiated basal tumors. Sequencing of bladder ... ...

    Abstract Bladder cancer prognosis is closely linked to the underlying differentiation state of the tumor, ranging from the less aggressive and most-differentiated luminal tumors to the more aggressive and least-differentiated basal tumors. Sequencing of bladder cancer has revealed that loss-of-function mutations in chromatin regulators and mutations that activate receptor tyrosine kinase (RTK) signaling frequently occur in bladder cancer. However, little is known as to whether and how these two types of mutations functionally interact or cooperate to regulate tumor growth and differentiation state. Here, we focus on loss of the histone demethylase UTX (also known as KDM6A) and activation of the RTK FGFR3, two events that commonly cooccur in muscle invasive bladder tumors. We show that UTX loss and FGFR3 activation cooperate to disrupt the balance of luminal and basal gene expression in bladder cells. UTX localized to enhancers surrounding many genes that are important for luminal cell fate, and supported the transcription of these genes in a catalytic-independent manner. In contrast to UTX, FGFR3 activation was associated with lower expression of luminal genes in tumors and FGFR inhibition increased transcription of these same genes in cell culture models. This suggests an antagonistic relationship between UTX and FGFR3. In support of this model, UTX loss-of-function potentiated FGFR3-dependent transcriptional effects and the presence of UTX blocked an FGFR3-mediated increase in the colony formation of bladder cells. Taken together, our study reveals how mutations in UTX and FGFR3 converge to disrupt bladder differentiation programs that could serve as a therapeutic target.
    MeSH term(s) Cell Differentiation ; Chromatin/genetics ; Chromatin/metabolism ; Cohort Studies ; Gene Expression Regulation, Neoplastic ; Genes, Tumor Suppressor ; Histone Demethylases/metabolism ; Humans ; Mutation ; Receptor, Fibroblast Growth Factor, Type 3/genetics ; Receptor, Fibroblast Growth Factor, Type 3/metabolism ; Urinary Bladder Neoplasms/genetics ; Urinary Bladder Neoplasms/metabolism ; Urinary Bladder Neoplasms/physiopathology
    Chemical Substances Chromatin ; Histone Demethylases (EC 1.14.11.-) ; KDM6A protein, human (EC 1.14.11.-) ; FGFR3 protein, human (EC 2.7.10.1) ; Receptor, Fibroblast Growth Factor, Type 3 (EC 2.7.10.1)
    Language English
    Publishing date 2020-09-28
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't
    ZDB-ID 209104-5
    ISSN 1091-6490 ; 0027-8424
    ISSN (online) 1091-6490
    ISSN 0027-8424
    DOI 10.1073/pnas.2008017117
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    Zs.A 1148: Show issues Location:
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  6. Article: Altered chromatin occupancy of patient-associated H4 mutants misregulate neuronal differentiation.

    Feng, Lijuan / Barrows, Douglas / Zhong, Liangwen / Mätlik, Kärt / Porter, Elizabeth G / Djomo, Annaelle M / Yau, Iris / Soshnev, Alexey A / Carroll, Thomas S / Wen, Duancheng / Hatten, Mary E / Garcia, Benjamin A / Allis, C David

    bioRxiv : the preprint server for biology

    2023  

    Abstract: Chromatin is a crucial regulator of gene expression and tightly controls development across species. Mutations in only one copy of multiple histone genes were identified in children with developmental disorders characterized by microcephaly, but their ... ...

    Abstract Chromatin is a crucial regulator of gene expression and tightly controls development across species. Mutations in only one copy of multiple histone genes were identified in children with developmental disorders characterized by microcephaly, but their mechanistic roles in development remain unclear. Here we focus on dominant mutations affecting histone H4 lysine 91. These H4K91 mutants form aberrant nuclear puncta at specific heterochromatin regions. Mechanistically, H4K91 mutants demonstrate enhanced binding to the histone variant H3.3, and ablation of H3.3 or the H3.3-specific chaperone DAXX diminishes the mutant localization to chromatin. Our functional studies demonstrate that H4K91 mutant expression increases chromatin accessibility, alters developmental gene expression through accelerating pro-neural differentiation, and causes reduced mouse brain size
    Language English
    Publishing date 2023-09-29
    Publishing country United States
    Document type Preprint
    DOI 10.1101/2023.09.29.560141
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  7. Article ; Online: Establishment, maintenance, and recall of inflammatory memory.

    Larsen, Samantha B / Cowley, Christopher J / Sajjath, Sairaj M / Barrows, Douglas / Yang, Yihao / Carroll, Thomas S / Fuchs, Elaine

    Cell stem cell

    2021  Volume 28, Issue 10, Page(s) 1758–1774.e8

    Abstract: Known for nearly a century but through mechanisms that remain elusive, cells retain a memory of inflammation that equips them to react quickly and broadly to diverse secondary stimuli. Using murine epidermal stem cells as a model, we elucidate how cells ... ...

    Abstract Known for nearly a century but through mechanisms that remain elusive, cells retain a memory of inflammation that equips them to react quickly and broadly to diverse secondary stimuli. Using murine epidermal stem cells as a model, we elucidate how cells establish, maintain, and recall inflammatory memory. Specifically, we landscape and functionally interrogate temporal, dynamic changes to chromatin accessibility, histone modifications, and transcription factor binding that occur during inflammation, post-resolution, and in memory recall following injury. We unearth an essential, unifying role for the general stress-responsive transcription factor FOS, which partners with JUN and cooperates with stimulus-specific STAT3 to establish memory; JUN then remains with other homeostatic factors on memory domains, facilitating rapid FOS re-recruitment and gene re-activation upon diverse secondary challenges. Extending our findings, we offer a comprehensive, potentially universal mechanism behind inflammatory memory and less discriminate recall phenomena with profound implications for tissue fitness in health and disease.
    MeSH term(s) Animals ; Chromatin ; Gene Expression Regulation ; Mice ; Transcription Factors ; Transcriptional Activation
    Chemical Substances Chromatin ; Transcription Factors
    Language English
    Publishing date 2021-07-27
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't
    ZDB-ID 2375354-7
    ISSN 1875-9777 ; 1934-5909
    ISSN (online) 1875-9777
    ISSN 1934-5909
    DOI 10.1016/j.stem.2021.07.001
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  8. Article ; Online: PREX1 Protein Function Is Negatively Regulated Downstream of Receptor Tyrosine Kinase Activation by p21-activated Kinases (PAKs).

    Barrows, Douglas / He, John Z / Parsons, Ramon

    The Journal of biological chemistry

    2016  Volume 291, Issue 38, Page(s) 20042–20054

    Abstract: Downstream of receptor tyrosine kinase and G protein-coupled receptor (GPCR) stimulation, the phosphatidylinositol 3,4,5-trisphosphate (PIP3)-dependent Rac exchange factor (PREX) family of guanine nucleotide exchange factors (GEFs) activates Rho GTPases, ...

    Abstract Downstream of receptor tyrosine kinase and G protein-coupled receptor (GPCR) stimulation, the phosphatidylinositol 3,4,5-trisphosphate (PIP3)-dependent Rac exchange factor (PREX) family of guanine nucleotide exchange factors (GEFs) activates Rho GTPases, leading to important roles for PREX proteins in numerous cellular processes and diseases, including cancer. PREX1 and PREX2 GEF activity is activated by the second messengers PIP3 and Gβγ, and further regulation of PREX GEF activity occurs by phosphorylation. Stimulation of receptor tyrosine kinases by neuregulin and insulin-like growth factor 1 (IGF1) leads to the phosphorylation of PREX1; however, the kinases that phosphorylate PREX1 downstream of these ligands are not known. We recently reported that the p21-activated kinases (PAKs), which are activated by GTP-bound Ras-related C3 botulinum toxin substrate 1 (Rac1), mediate the phosphorylation of PREX2 after insulin receptor activation. Here we show that certain phosphorylation events on PREX1 after insulin, neuregulin, and IGF1 treatment are PAK-dependent and lead to a reduction in PREX1 binding to PIP3 Like PREX2, PAK-mediated phosphorylation also negatively regulates PREX1 GEF activity. Furthermore, the onset of PREX1 phosphorylation was delayed compared with the phosphorylation of AKT, supporting a model of negative feedback downstream of PREX1 activation. We also found that the phosphorylation of PREX1 after isoproterenol and prostaglandin E2-mediated GPCR activation is partially PAK-dependent and likely also involves protein kinase A, which is known to reduce PREX1 function. Our data point to multiple mechanisms of PREX1 negative regulation by PAKs within receptor tyrosine kinase and GPCR-stimulated signaling pathways that have important roles in diseases such as diabetes and cancer.
    MeSH term(s) Cyclic AMP-Dependent Protein Kinases/genetics ; Cyclic AMP-Dependent Protein Kinases/metabolism ; Dinoprostone/pharmacology ; Guanine Nucleotide Exchange Factors/genetics ; Guanine Nucleotide Exchange Factors/metabolism ; HEK293 Cells ; Humans ; Insulin/pharmacology ; Insulin-Like Growth Factor I/pharmacology ; Isoproterenol/pharmacology ; MCF-7 Cells ; Phosphatidylinositol Phosphates/genetics ; Phosphatidylinositol Phosphates/metabolism ; Phosphorylation/drug effects ; Receptor, Insulin/genetics ; Receptor, Insulin/metabolism ; Signal Transduction ; p21-Activated Kinases/genetics ; p21-Activated Kinases/metabolism ; rac1 GTP-Binding Protein/genetics ; rac1 GTP-Binding Protein/metabolism
    Chemical Substances Guanine Nucleotide Exchange Factors ; IGF1 protein, human ; Insulin ; PREX1 protein, human ; PREX2 protein, human ; Phosphatidylinositol Phosphates ; RAC1 protein, human ; phosphatidylinositol 3,4,5-triphosphate ; Insulin-Like Growth Factor I (67763-96-6) ; Receptor, Insulin (EC 2.7.10.1) ; p21-Activated Kinases (EC 2.7.11.1) ; Cyclic AMP-Dependent Protein Kinases (EC 2.7.11.11) ; rac1 GTP-Binding Protein (EC 3.6.5.2) ; Dinoprostone (K7Q1JQR04M) ; Isoproterenol (L628TT009W)
    Language English
    Publishing date 2016-08-01
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural
    ZDB-ID 2997-x
    ISSN 1083-351X ; 0021-9258
    ISSN (online) 1083-351X
    ISSN 0021-9258
    DOI 10.1074/jbc.M116.723882
    Database MEDical Literature Analysis and Retrieval System OnLINE

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    Uc I Zs.108: Show issues Location:
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  9. Article ; Online: The integrated stress response remodels the microtubule-organizing center to clear unfolded proteins following proteotoxic stress.

    Hurwitz, Brian / Guzzi, Nicola / Gola, Anita / Fiore, Vincent F / Sendoel, Ataman / Nikolova, Maria / Barrows, Douglas / Carroll, Thomas S / Pasolli, H Amalia / Fuchs, Elaine

    eLife

    2022  Volume 11

    Abstract: Cells encountering stressful situations activate the integrated stress response (ISR) pathway to limit protein synthesis and redirect translation to better cope. The ISR has also been implicated in cancers, but redundancies in the stress-sensing kinases ... ...

    Abstract Cells encountering stressful situations activate the integrated stress response (ISR) pathway to limit protein synthesis and redirect translation to better cope. The ISR has also been implicated in cancers, but redundancies in the stress-sensing kinases that trigger the ISR have posed hurdles to dissecting physiological relevance. To overcome this challenge, we targeted the regulatory node of these kinases, namely, the S51 phosphorylation site of eukaryotic translation initiation factor eIF2α and genetically replaced eIF2α with eIF2α-S51A in mouse squamous cell carcinoma (SCC) stem cells of skin. While inconsequential under normal growth conditions, the vulnerability of this ISR-null state was unveiled when SCC stem cells experienced proteotoxic stress. Seeking mechanistic insights into the protective roles of the ISR, we combined ribosome profiling and functional approaches to identify and probe the functional importance of translational differences between ISR-competent and ISR-null SCC stem cells when exposed to proteotoxic stress. In doing so, we learned that the ISR redirects translation to centrosomal proteins that orchestrate the microtubule dynamics needed to efficiently concentrate unfolded proteins at the microtubule-organizing center so that they can be cleared by the perinuclear degradation machinery. Thus, rather than merely maintaining survival during proteotoxic stress, the ISR also functions in promoting cellular recovery once the stress has subsided. Remarkably, this molecular program is unique to transformed skin stem cells, hence exposing a vulnerability in cancer that could be exploited therapeutically.
    MeSH term(s) Animals ; Eukaryotic Initiation Factor-2/metabolism ; Mice ; Microtubule-Organizing Center/metabolism ; Phosphorylation ; Proteins/metabolism ; Stress, Physiological
    Chemical Substances Eukaryotic Initiation Factor-2 ; Proteins
    Language English
    Publishing date 2022-06-27
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't ; Research Support, N.I.H., Extramural
    ZDB-ID 2687154-3
    ISSN 2050-084X ; 2050-084X
    ISSN (online) 2050-084X
    ISSN 2050-084X
    DOI 10.7554/eLife.77780
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  10. Article ; Online: Two competing mechanisms of DNMT3A recruitment regulate the dynamics of de novo DNA methylation at PRC1-targeted CpG islands.

    Weinberg, Daniel N / Rosenbaum, Phillip / Chen, Xiao / Barrows, Douglas / Horth, Cynthia / Marunde, Matthew R / Popova, Irina K / Gillespie, Zachary B / Keogh, Michael-Christopher / Lu, Chao / Majewski, Jacek / Allis, C David

    Nature genetics

    2021  Volume 53, Issue 6, Page(s) 794–800

    Abstract: Precise deposition of CpG methylation is critical for mammalian development and tissue homeostasis and is often dysregulated in human diseases. The localization of de novo DNA methyltransferase DNMT3A is facilitated by its PWWP domain recognizing histone ...

    Abstract Precise deposition of CpG methylation is critical for mammalian development and tissue homeostasis and is often dysregulated in human diseases. The localization of de novo DNA methyltransferase DNMT3A is facilitated by its PWWP domain recognizing histone H3 lysine 36 (H3K36) methylation
    MeSH term(s) Animals ; Catalysis ; Cell Line ; CpG Islands/genetics ; DNA (Cytosine-5-)-Methyltransferases/chemistry ; DNA (Cytosine-5-)-Methyltransferases/metabolism ; DNA Methylation/genetics ; DNA Methyltransferase 3A ; Genetic Predisposition to Disease ; Genome, Human ; Histones/metabolism ; Humans ; Lysine/metabolism ; Mice ; Mutation/genetics ; Nucleosomes/metabolism ; Polycomb-Group Proteins/metabolism ; Protein Domains ; Ubiquitination
    Chemical Substances DNMT3A protein, human ; Dnmt3a protein, mouse ; Histones ; Nucleosomes ; Polycomb-Group Proteins ; DNA (Cytosine-5-)-Methyltransferases (EC 2.1.1.37) ; DNA Methyltransferase 3A (EC 2.1.1.37) ; Lysine (K3Z4F929H6)
    Language English
    Publishing date 2021-05-13
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't
    ZDB-ID 1108734-1
    ISSN 1546-1718 ; 1061-4036
    ISSN (online) 1546-1718
    ISSN 1061-4036
    DOI 10.1038/s41588-021-00856-5
    Database MEDical Literature Analysis and Retrieval System OnLINE

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