Ngā hua rapu - David Shechter

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  1. 1
    Fly Fishing for Histones: Catch and Release by Histone Chaperone Intrinsically Disordered Regions and Acidic Stretches

    Fly Fishing for Histones: Catch and Release by Histone Chaperone Intrinsically Disordered Regions and Acidic Stretches Christopher L. Warren, David Shechter

    I whakaputaina 2017
    Whiwhi kuputuhi katoa
    Revisão
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  2. 2
    Cellular consequences of arginine methylation

    Cellular consequences of arginine methylation Benjamin M. Lorton, David Shechter

    I whakaputaina 2019
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    Revisão
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  3. 3
    The Intrinsic DNA Helicase Activity of Methanobacterium thermoautotrophicum ΔH Minichromosome Maintenance Protein

    The Intrinsic DNA Helicase Activity of Methanobacterium thermoautotrophicum ΔH Minichromosome Maintenance Protein David Shechter, Carol Y. Ying, Jean Gautier

    I whakaputaina 2000
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Artigo
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  4. 4
    The PRMT5 arginine methyltransferase: many roles in development, cancer and beyond

    The PRMT5 arginine methyltransferase: many roles in development, cancer and beyond Nicole Stopa, Jocelyn E. Krebs, David Shechter

    I whakaputaina 2015
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  5. 5
    A TGFβ-PRMT5-MEP50 axis regulates cancer cell invasion through histone H3 and H4 arginine methylation coupled transcriptional activation and repression

    A TGFβ-PRMT5-MEP50 axis regulates cancer cell invasion through histone H3 and H4 arginine methylation coupled transcriptional activation and repression H Chen, Benjamin M. Lorton, Varun Gupta, David Shechter

    I whakaputaina 2016
    Whiwhi kuputuhi katoa
    Artigo
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  6. 6
    A distinct H2A.X isoform is enriched in<i>Xenopus laevis</i>eggs and early embryos and is phosphorylated in the absence of a checkpoint

    A distinct H2A.X isoform is enriched in<i>Xenopus laevis</i>eggs and early embryos and is phosphorylated in the absence of a checkpoint David Shechter, Raghu Chitta, Andrew Xiao, Jeffrey Shabanowitz, Donald F. Hunt, C. David Allis

    I whakaputaina 2009
    Whiwhi kuputuhi katoa
    Artigo
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  7. 7
    Histone H2A and H4 N-terminal Tails Are Positioned by the MEP50 WD Repeat Protein for Efficient Methylation by the PRMT5 Arginine Methyltransferase

    Histone H2A and H4 N-terminal Tails Are Positioned by the MEP50 WD Repeat Protein for Efficient Methylation by the PRMT5 Arginine Methyltransferase Emmanuel S. Burgos, Carola Wilczek, Takashi Onikubo, J.B. Bonanno, Janina Jansong, Ulf Reimer, David Shechter

    I whakaputaina 2015
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Artigo
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  8. 8
    An ATR- and Cdc7-Dependent DNA Damage Checkpoint that Inhibits Initiation of DNA Replication

    An ATR- and Cdc7-Dependent DNA Damage Checkpoint that Inhibits Initiation of DNA Replication Vincenzo Costanzo, David Shechter, Patrick J. Lupardus, Karlene A. Cimprich, Max E. Gottesman, Jean Gautier

    I whakaputaina 2003
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Artigo
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  9. 9
    Analysis of Histones in Xenopus laevis

    Analysis of Histones in Xenopus laevis David Shechter, Joshua J. Nicklay, Raghu Chitta, Jeffrey Shabanowitz, Donald F. Hunt, C. David Allis

    I whakaputaina 2008
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Artigo
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  10. 10
    Protein Arginine Methyltransferase Prmt5-Mep50 Methylates Histones H2A and H4 and the Histone Chaperone Nucleoplasmin in Xenopus laevis Eggs

    Protein Arginine Methyltransferase Prmt5-Mep50 Methylates Histones H2A and H4 and the Histone Chaperone Nucleoplasmin in Xenopus laevis Eggs Carola Wilczek, Raghu Chitta, Eileen M. Woo, Jeffrey Shabanowitz, Brian T. Chait, Donald F. Hunt, David Shechter

    I whakaputaina 2011
    Whiwhi kuputuhi katoa
    Artigo
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  11. 11
    Type I and II PRMTs inversely regulate post-transcriptional intron detention through Sm and CHTOP methylation

    Type I and II PRMTs inversely regulate post-transcriptional intron detention through Sm and CHTOP methylation Maxim I. Maron, Alyssa D. Casill, Varun Gupta, Jacob S. Roth, Simone Sidoli, Charles C. Query, Matthew J. Gamble, David Shechter

    I whakaputaina 2022
    Whiwhi kuputuhi katoa
    Artigo
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  12. 12
    Developmentally Regulated Post-translational Modification of Nucleoplasmin Controls Histone Sequestration and Deposition

    Developmentally Regulated Post-translational Modification of Nucleoplasmin Controls Histone Sequestration and Deposition Takashi Onikubo, Joshua J. Nicklay, Xing Li, Christopher L. Warren, Brandon J. Anson, Weilin Wang, Emmanuel S. Burgos, Sophie Ruff, Jeffrey Shabanowitz, R. Holland Cheng, Donald F. Hunt, David Shechter

    I whakaputaina 2015
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Artigo
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  13. 13
    WSTF regulates the H2A.X DNA damage response via a novel tyrosine kinase activity

    WSTF regulates the H2A.X DNA damage response via a novel tyrosine kinase activity Andrew Xiao, Haitao Li, David Shechter, Sung Hee Ahn, Laura A. Fabrizio, Hediye Erdjument‐Bromage, Satoko Ishibe-Murakami, Bin Wang, Paul Tempst, Kay Hofmann, Dinshaw J. Patel, Stephen J. Elledge, C. David Allis

    I whakaputaina 2008
    Whiwhi kuputuhi katoa
    Artigo
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  14. 14
    Structure of the Arginine Methyltransferase PRMT5-MEP50 Reveals a Mechanism for Substrate Specificity

    Structure of the Arginine Methyltransferase PRMT5-MEP50 Reveals a Mechanism for Substrate Specificity Meng-Chiao Ho, Carola Wilczek, J.B. Bonanno, Xing Li, Seznec Janina, Tsutomu Matsui, Lester G. Carter, Takashi Onikubo, P. Rajesh Kumar, Man Kid Chan, Michael Brenowitz, R. Holland Cheng, Ulf Reimer, Steven C. Almo, David Shechter

    I whakaputaina 2013
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Artigo
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  15. 15
    Sarcosine Is Uniquely Modulated by Aging and Dietary Restriction in Rodents and Humans

    Sarcosine Is Uniquely Modulated by Aging and Dietary Restriction in Rodents and Humans Ryan O. Walters, Esperanza Arias, Antonio Díaz, Emmanuel S. Burgos, Fangxia Guan, Simoni Tiano, Kai Mao, Cara L. Green, Yungping Qiu, Hardik Shah, Donghai Wang, Adam D. Hudgins, Tahmineh Tabrizian, Valeria Tosti, David Shechter, Luigi Fontana, Irwin J. Kurland, Nir Barzilai, Ana María Cuervo, Daniel Promislow, Derek M. Huffman

    I whakaputaina 2018
    Whiwhi kuputuhi katoa
    Artigo
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  16. 16
    PRMT5 is required for full-length<i>HTT</i>expression by repressing multiple proximal intronic polyadenylation sites

    PRMT5 is required for full-length<i>HTT</i>expression by repressing multiple proximal intronic polyadenylation sites Mona Alqazzaz, Felipe E. Ciamponi, Jolene Caifeng Ho, Maxim I. Maron, Manisha Yadav, Aiden M. Sababi, Graham MacLeod, Moloud Ahmadi, Garrett Bullivant, Vincent Tano, Sarah R. Langley, María Sánchez‐Osuna, Patty Sachamitr, Michelle Kushida, Laura M. Richards, Costanza Ferrari Bardile, Mahmoud A. Pouladi, Trevor J. Pugh, Mike Tyers, Stéphane Angers, Peter B. Dirks, Gary D. Bader, Katlin B. Massirer, Dalia Baršytė-Lovejoy, David Shechter, Rachel Harding, C.H. Arrowsmith, Panagiotis Prinos

    I whakaputaina 2024
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Pré-impressão
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  17. 17
    PRMT5 promotes full-length <i>HTT</i> expression by repressing multiple proximal intronic polyadenylation sites

    PRMT5 promotes full-length <i>HTT</i> expression by repressing multiple proximal intronic polyadenylation sites Manisha Yadav, Mona Alqazzaz, Felipe E. Ciamponi, Jolene Caifeng Ho, Maxim I. Maron, Aiden M. Sababi, Graham MacLeod, Moloud Ahmadi, Garrett Bullivant, Vincent Tano, Sarah R. Langley, María Sánchez‐Osuna, Patty Sachamitr, Michelle Kushida, Costanza Ferrari Bardile, Mahmoud A. Pouladi, Rebecca Kurtz, Laura M. Richards, Trevor J. Pugh, Mike Tyers, Stéphane Angers, Peter Dirks, Gary D. Bader, Ray Truant, Katlin B. Massirer, Dalia Baršytė-Lovejoy, David Shechter, Rachel Harding, C.H. Arrowsmith, Panagiotis Prinos

    I whakaputaina 2025
    Whiwhi kuputuhi katoa
    Artigo
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