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  1. The nuclear bodies conference: Hubs of genomic activity, June 24–28, Western Shore, Nova Scotia, Canada

    Article • The FASEB Journal, October 2022, Wiley

    Paul D. Kaufman

  2. The chromatin-binding domain of Ki-67 together with p53 protects human chromosomes from mitotic damage

    Article • Proceedings of the National Academy of Sciences, August 2021, Proceedings of the National Academy of Sciences

    Paul D. Kaufman

  3. The chromatin-binding domain of Ki-67 together with p53 protects human chromosomes from mitotic damage

    Article • October 2020, Cold Spring Harbor Laboratory Press

    Paul D. Kaufman

  4. Distinct features of nucleolus-associated domains in mouse embryonic stem cells

    Article • August 2019, Cold Spring Harbor Laboratory Press

    Paul D. Kaufman

  5. Two contrasting classes of nucleolus-associated domains in mouse fibroblast heterochromatin

    Article • Genome Research, June 2019, Cold Spring Harbor Laboratory Press

    Paul D. Kaufman

  6. Correction to: Novel genetic tools for probing individual H3 molecules in each nucleosome

    Article • Current Genetics, December 2018, Springer Science + Business Media

    Paul D. Kaufman

  7. Two Contrasting Classes of Nucleolus-Associated Domains in Mouse Fibroblast Heterochromatin

    Article • December 2018, Cold Spring Harbor Laboratory Press

    Paul D. Kaufman

  8. Novel genetic tools for probing individual H3 molecules in each nucleosome

    Article • Current Genetics, November 2018, Springer Science + Business Media

    Paul D. Kaufman

  9. An asymmetric centromeric nucleosome

    Article • eLife, August 2018, eLife

    Paul D. Kaufman

  10. New dimensions of asymmetric division in vertebrates

    Article • Cytoskeleton, February 2018, Wiley

    Paul D. Kaufman

  11. Ki-67: more than a proliferation marker

    Article • Chromosoma, January 2018, Springer Science + Business Media

    Paul D. Kaufman

  12. A synthetic biology approach to probing nucleosome symmetry

    Article • eLife, September 2017, eLife

    Paul D. Kaufman

  13. Ki-67 Contributes to Normal Cell Cycle Progression and Inactive X Heterochromatin in p21 Checkpoint-Proficient Human Cells

    Article • Molecular and Cellular Biology, June 2017, ASM Journals

    Paul D. Kaufman

  14. Want reprogramming? Cut back on the chromatin assembly!

    Article • Nature Structural & Molecular Biology, September 2015, Springer Science + Business Media

    Paul D. Kaufman

  15. Grabbing the genome by the NADs

    Article • Chromosoma, July 2015, Springer Science + Business Media

    Paul D. Kaufman

  16. A separable domain of the p150 subunit of human chromatin assembly factor-1 promotes protein and chromosome associations with nucleoli

    Article • Molecular Biology of the Cell, September 2014, American Society for Cell Biology (ASCB)

    Paul D. Kaufman

  17. Chemical screening identifies filastatin, a small molecule inhibitor of Candida albicans adhesion, morphogenesis, and pathogenesis

    Article • Proceedings of the National Academy of Sciences, July 2013, Proceedings of the National Academy of Sciences

    Paul D. Kaufman

  18. A small molecule inhibitor of fungal histone acetyltransferase Rtt109

    Article • Bioorganic & Medicinal Chemistry Letters, May 2013, Elsevier

    Paul D. Kaufman

  19. Chromatin-mediated Candida albicans virulence

    Article • Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms, March 2012, Elsevier

    Paul D. Kaufman

  20. New Partners for HP1 in Transcriptional Gene Silencing

    Article • Molecular Cell, January 2011, Elsevier

    Paul D. Kaufman

  21. Overlapping Regulation of CenH3 Localization and Histone H3 Turnover by CAF-1 and HIR Proteins in Saccharomyces cerevisiae

    Article • Genetics, January 2011, Oxford University Press (OUP)

    Paul D. Kaufman

  22. Toxicity and lifespan extension

    Article • Cell Cycle, December 2010, Taylor & Francis

    Paul D. Kaufman

  23. Catalytic activation of histone acetyltransferase Rtt109 by a histone chaperone

    Article • Proceedings of the National Academy of Sciences, November 2010, Proceedings of the National Academy of Sciences

    Paul D. Kaufman

  24. Proliferating Cell Nuclear Antigen (PCNA) Is Required for Cell Cycle-regulated Silent Chromatin on Replicated and Nonreplicated Genes

    Article • Journal of Biological Chemistry, November 2010, Elsevier

    Paul D. Kaufman

  25. Chromatin as a potential carrier of heritable information

    Article • Current Opinion in Cell Biology, June 2010, Elsevier

    Paul D. Kaufman

  26. Histone acetyltransferase Rtt109 is required for Candida albicans pathogenesis

    Article • Proceedings of the National Academy of Sciences, January 2010, Proceedings of the National Academy of Sciences

    Paul D. Kaufman

  27. A negatively charged residue in place of histone H3K56 supports chromatin assembly factor association but not genotoxic stress resistance

    Article • DNA Repair, December 2009, Elsevier

    Paul D. Kaufman

  28. A Versatile Viral System for Expression and Depletion of Proteins in Mammalian Cells

    Article • PLoS ONE, August 2009, PLOS

    Paul D. Kaufman

  29. Cell Cycle– and Chaperone-Mediated Regulation of H3K56ac Incorporation in Yeast

    Article • PLoS Genetics, November 2008, PLOS

    Dr Tommy Kaplan, Paul D. Kaufman

  30. Molecular functions of the histone acetyltransferase chaperone complex Rtt109–Vps75

    Article • Nature Structural & Molecular Biology, August 2008, Springer Science + Business Media

    Paul D. Kaufman

  31. Histone H3-K56 Acetylation Is Catalyzed by Histone Chaperone-Dependent Complexes

    Article • Molecular Cell, March 2007, Elsevier

    Paul D. Kaufman

  32. Structure of the yeast histone H3-ASF1 interaction: implications for chaperone mechanism, species-specific interactions, and epigenetics

    Article • BMC Structural Biology, December 2006, Springer Science + Business Media

    Paul D. Kaufman

  33. Histone chaperone Asf1 is required for histone H3 lysine 56 acetylation, a modification associated with S phase in mitosis and meiosis

    Article • Proceedings of the National Academy of Sciences, May 2006, Proceedings of the National Academy of Sciences

    Paul D. Kaufman

  34. Regulation of Histone Deposition Proteins Asf1/Hir1 by Multiple DNA Damage Checkpoint Kinases in Saccharomyces cerevisiae

    Article • Genetics, November 2005, Oxford University Press (OUP)

    Paul D. Kaufman

  35. Replication-Independent Histone Deposition by the HIR Complex and Asf1

    Article • Current Biology, November 2005, Elsevier

    Paul D. Kaufman

  36. Histone deposition protein Asf1 maintains DNA replisome integrity and interacts with replication factor C

    Article • Genes & Development, May 2005, Cold Spring Harbor Laboratory Press

    Paul D. Kaufman

  37. Formation of MacroH2A-Containing Senescence-Associated Heterochromatin Foci and Senescence Driven by ASF1a and HIRA

    Article • Developmental Cell, January 2005, Elsevier

    Paul D. Kaufman

  38. Histone Deposition Proteins: Links between the DNA Replication Machinery and Epigenetic Gene Silencing

    Article • Cold Spring Harbor Symposia on Quantitative Biology, January 2004, Cold Spring Harbor Laboratory Press

    Paul D. Kaufman

  39. Structure and Function of the Conserved Core of Histone Deposition Protein Asf1

    Article • Current Biology, December 2003, Elsevier

    Professor Emmanuel Skordalakes, Paul D. Kaufman

  40. Sas4 and Sas5 Are Required for the Histone Acetyltransferase Activity of Sas2 in the SAS Complex

    Article • Journal of Biological Chemistry, May 2003, Elsevier

    Paul D. Kaufman

  41. Defective S Phase Chromatin Assembly Causes DNA Damage, Activation of the S Phase Checkpoint, and S Phase Arrest

    Article • Molecular Cell, February 2003, Elsevier

    Paul D. Kaufman

  42. The budding yeast silencing protein Sir1 is a functional component of centromeric chromatin

    Article • Genes & Development, January 2003, Cold Spring Harbor Laboratory Press

    Paul D. Kaufman

  43. Chromatin Proteins Are Determinants of Centromere Function

    Article • January 2003, Springer Science + Business Media

    Paul D. Kaufman

  44. Chromatin Assembly Factor I Mutants Defective for PCNA Binding Require Asf1/Hir Proteins for Silencing

    Article • Molecular and Cellular Biology, January 2002, ASM Journals

    Paul D. Kaufman

  45. Chromatin assembly factor I and Hir proteins contribute to building functional kinetochores in S. cerevisiae

    Article • Genes & Development, January 2002, Cold Spring Harbor Laboratory Press

    Paul D. Kaufman

  46. Yeast histone deposition protein Asf1p requires Hir proteins and PCNA for heterochromatic silencing

    Article • Current Biology, April 2001, Elsevier

    Paul D. Kaufman

  47. Hir Proteins Are Required for Position-Dependent Gene Silencing in Saccharomyces cerevisiae in the Absence of Chromatin Assembly Factor I

    Article • Molecular and Cellular Biology, August 1998, ASM Journals

    Paul D. Kaufman

  48. Nucleosomal DNA regulates the core-histone-binding subunit of the human Hat1 acetyltransferase

    Article • Current Biology, January 1998, Elsevier

    Paul D. Kaufman

  49. Ultraviolet radiation sensitivity and reduction of telomeric silencing in Saccharomyces cerevisiae cells lacking chromatin assembly factor-I.

    Article • Genes & Development, February 1997, Cold Spring Harbor Laboratory Press

    Paul D. Kaufman

  50. Nucleosome Assembly by a Complex of CAF-1 and Acetylated Histones H3/H4

    Article • Cell, October 1996, Elsevier

    Paul D. Kaufman

  51. Chromatin Assembly Coupled to DNA Repair: A New Role for Chromatin Assembly Factor I

    Article • Cell, September 1996, Elsevier

    Paul D. Kaufman

  52. Nucleosome assembly: the CAF and the HAT

    Article • Current Opinion in Cell Biology, June 1996, Elsevier

    Paul D. Kaufman

  53. Postreplicative chromatin assembly by Drosophila and human chromatin assembly factor 1.

    Article • Molecular and Cellular Biology, March 1996, ASM Journals

    Paul D. Kaufman

  54. The p150 and p60 subunits of chromatin assemblyfactor I: A molecular link between newly synthesized histories and DNA replication

    Article • Cell, June 1995, Elsevier

    Paul D. Kaufman

  55. Simian virus 40 origin- and T-antigen-dependent DNA replication with Drosophila factors in vitro.

    Article • Molecular and Cellular Biology, August 1994, ASM Journals

    Paul D. Kaufman

  56. Assembly of nucleosomes: do multiple assembly factors mean multiple mechanisms?

    Article • Current Opinion in Genetics & Development, April 1994, Elsevier

    Paul D. Kaufman

  57. P element transposition in vitro proceeds by a cut-and-paste mechanism and uses GTP as a cofactor

    Article • Cell, April 1992, Elsevier

    Paul D. Kaufman

  58. Drosophila P-element transposase is a transcriptional repressor in vitro.

    Article • Proceedings of the National Academy of Sciences, April 1991, Proceedings of the National Academy of Sciences

    Paul D. Kaufman

  59. Germline transformation ofDrosophila melanogasterby purified P element transposase

    Article • Nucleic Acids Research, January 1991, Oxford University Press (OUP)

    Paul D. Kaufman

  60. Drosophila P element transposase recognizes internal P element DNA sequences

    Article • Cell, October 1989, Elsevier

    Paul D. Kaufman