All Stories

  1. An intergenic non-coding RNA promoter required for histone modifications in the human β-globin chromatin domain

    Article • PLoS ONE, August 2019, PLOS

    Dr Kenneth R Peterson

  2. Original Research: Generation of non-deletional hereditary persistence of fetal hemoglobin β-globin locus yeast artificial chromosome transgenic mouse models: -175 Black HPFH and -195 Brazilian HPFH

    Article • Experimental Biology and Medicine, March 2016, SAGE Publications

    Dr Kenneth R Peterson

  3. O-GlcNAcase Expression is Sensitive to Changes in O-GlcNAc Homeostasis

    Article • Frontiers in Endocrinology, December 2014, Frontiers

    Dr Kenneth R Peterson

  4. A Cell-Based High-Throughput Screen for Novel Chemical Inducers of Fetal Hemoglobin for Treatment of Hemoglobinopathies

    Article • PLoS ONE, September 2014, PLOS

    Dr Kenneth R Peterson

  5. Extensively self-renewing erythroblasts derived from transgenic β-yac mice is a novel model system for studying globin switching and erythroid maturation

    Article • Experimental Hematology, July 2014, Elsevier

    Dr Kenneth R Peterson

  6. Mi2β Is Required for γ-Globin Gene Silencing: Temporal Assembly of a GATA-1-FOG-1-Mi2 Repressor Complex in β-YAC Transgenic Mice

    Article • PLoS Genetics, December 2012, PLOS

    Dr Kenneth R Peterson

  7. Sickle Cell Disease: Genetics, Cellular and Molecular Mechanisms, and Therapies

    Article • Anemia, January 2012, Hindawi Publishing Corporation

    Dr Kenneth R Peterson

  8. Induction of Fetal Hemoglobin In Vivo Mediated by a Synthetic γ-Globin Zinc Finger Activator

    Article • Anemia, January 2012, Hindawi Publishing Corporation

    Dr Kenneth R Peterson

  9. Transgenic Expression of Human LAMA5 Suppresses Murine Lama5 mRNA and Laminin α5 Protein Deposition

    Article • PLoS ONE, September 2011, PLOS

    Dr Kenneth R Peterson

  10. siDNMT1 increases γ-globin expression in chemical inducer of dimerization (CID)−dependent mouse βYAC bone marrow cells and in baboon erythroid progenitor cell cultures

    Article • Experimental Hematology, January 2011, Elsevier

    Dr Kenneth R Peterson

  11. Mutation in erythroid specific transcription factor KLF1 causes Hereditary Spherocytosis in the Nan hemolytic anemia mouse model

    Article • Genomics, November 2010, Elsevier

    Dr Kenneth R Peterson

  12. Positive selection of DNA-protein interactions in mammalian cells through phenotypic coupling with retrovirus production

    Article • Nature Structural & Molecular Biology, October 2009, Nature

    Dr Kenneth R Peterson

  13. Preparation of intact yeast artificial chromosome DNA for transgenesis of mice

    Article • Nature Protocols, November 2007, Nature

    Dr Kenneth R Peterson

  14. Deletion of the human β-globin LCR 5′HS4 or 5′HS1 differentially affects β-like globin gene expression in β-YAC transgenic mice

    Article • Blood Cells Molecules and Diseases, July 2007, Elsevier

    Dr Kenneth R Peterson

  15. Human β-globin locus control region hypersensitive site specificity for globin gene activation during erythropoiesis

    Article • Blood Cells Molecules and Diseases, March 2007, Elsevier

    Dr Kenneth R Peterson

  16. Silencing of Aγ-globin gene expression during adult definitive erythropoiesis is mediated by GATA-1 binding

    Article • Blood Cells Molecules and Diseases, March 2007, Elsevier

    Dr Kenneth R Peterson

  17. Vertebrate Models for Sickle Cell Disease Research

    Article • January 2007, World Scientific Pub Co Pte Lt

    Dr Kenneth R Peterson

  18. Identification of novel candidate genes for globin regulation in erythroid cells containing large deletions of the human β-globin gene cluster

    Article • Blood Cells Molecules and Diseases, September 2006, Elsevier

    Dr Kenneth R Peterson

  19. Transgenic mice carrying yeast artificial chromosomes

    Article • Expert Reviews in Molecular Medicine, April 2003, Cambridge University Press

    Dr Kenneth R Peterson

  20. Hemoglobin switching: new insights

    Article • Current Opinion in Hematology, March 2003, Wolters Kluwer Health

    Dr Kenneth R Peterson

  21. Locus control regions

    Article • January 2003, Elsevier

    Dr Kenneth R Peterson

  22. The 5′HS4 core element of the human β-globin locus control region is required for high-level globin gene expression in definitive but not in primitive erythropoiesis

    Article • Journal of Molecular Biology, September 2001, Elsevier

    Dr Kenneth R Peterson

  23. Single-Step Conversion of P1 and P1 Artificial Chromosome Clones into Yeast Artificial Chromosomes

    Article • Genomics, August 2000, Elsevier

    Dr Kenneth R Peterson

  24. Locus control regions: coming of age at a decade plus

    Article • Trends in Genetics, October 1999, Elsevier

    Dr Kenneth R Peterson

  25. [11] Use of yeast artificial chromosomes to express genes in transgenic mice

    Article • January 1999, Elsevier

    Dr Kenneth R Peterson

  26. Developmental Specificity of the Interaction between the Locus Control Region and Embryonic or Fetal Globin Genes in Transgenic Mice with an HS3 Core Deletion

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

    Dr Kenneth R Peterson

  27. Production of transgenic mice with yeast artificial chromosomes

    Article • Trends in Genetics, February 1997, Elsevier

    Dr Kenneth R Peterson

  28. Production and Analysis of Transgenic Mice Containing Yeast Artificial Chromosomes

    Article • January 1997, Springer Science + Business Media

    Dr Kenneth R Peterson

  29. Generation of transgenic mice from yeast artificial chromosome DNA that has been modified by gene targeting

    Article • Trends in Cardiovascular Medicine, January 1996, Elsevier

    Dr Kenneth R Peterson

  30. Coexpression of ϵ, Gγ and Aγ Globin mRNA in Embryonic Red Blood Cells from a Single Copy β-YAC Transgenic Mouse

    Article • Blood Cells Molecules and Diseases, August 1995, Elsevier

    Dr Kenneth R Peterson

  31. Increased expression of the Escherichia coli umuDC operon restores SOS mutagenesis in lexA41 cells

    Article • August 1988, Springer Science + Business Media

    Dr Kenneth R Peterson

  32. UV-INDUCIBLE SOS RESPONSE IN Escherichia coli

    Article • Photochemistry and Photobiology, May 1987, Wiley

    Dr Kenneth R Peterson

  33. Differential repression of SOS genes by unstable LexA41 (Tsl-1) protein causes a “split-phenotype” in Escherichia coli K-12

    Article • Journal of Molecular Biology, January 1987, Elsevier

    Dr Kenneth R Peterson

  34. Genetics of DNA repair in bacteria

    Article • Trends in Genetics, January 1986, Elsevier

    Dr Kenneth R Peterson

  35. Differential Expression of SOS Genes in an E. Coli Mutant Producing Unstable LexA Protein Enhances Excision Repair But Inhibits Mutagenesis

    Article • January 1986, Springer Science + Business Media

    Dr Kenneth R Peterson

  36. Viability of Escherichia coli K-12 DNA adenine methylase (dam) mutants requires increased expression of specific genes in the SOS regulon

    Article • Molecular Genetics and Genomics, January 1985, Springer Science + Business Media

    Dr Kenneth R Peterson

  37. Production of Transgenic Mice with Yeast Artificial Chromosomes

    Article • Springer Science + Business Media

    Dr Kenneth R Peterson

  38. Establishment of Cell Lines That Exhibit Correct Ontogenic Stage-Specific Gene Expression Profiles From Tissues of Yeast Artificial Chromosome Transgenic Mice Using Chemically Induced Growth Signals

    Article • Springer Science + Business Media

    Dr Kenneth R Peterson