Publications

  1. Rangel V, Sterrenberg J, Garawi A, Mezcord V, Folkerts M, Caulderon S, Wang J, Soyfer E, Eng O, Valerin J, Tanjasiri S, Quintero-Rivera F, Masri S, Seldin M, Frock R, Fleischman A, Pannunzio NR. Increased AID Results in Mutations at the CRLF2 Locus Implicated in Latin American ALL Health Disparities. (Preprint) 2023.
  2. Zhou M, Tamburini I, Van C, Molendijk J, Nguyen CM, Chang IY, Johnson C, Velez LM, Cheon Y, Yeo R, Bae H, Le J, Larson N, Pulido R, Nascimento-Filho CHV, Jang C, Marazzi I, Justice J, Pannunzio N, Hevener AL, Sparks L, Kershaw E, Nicholas D, Parker BL, Masri S, Seldin MM. Leveraging inter-individual transcriptional correlation structure to infer discrete signaling mechanisms across metabolic tissues. Elife. 2024.
  3. Lee BJ, Griffin SP, Doh J, Chan A, Ciurea SO, Jeyakumar D, Fleischman AG, Naqvi K, Pannunzio NR, O’Brien S, Kongtim P. HyperCVAD versus pegaspargase-containing regimens for Hispanic adults with newly diagnosed B-cell acute lymphoblastic leukemia. Eur J Haematol. 2023
  4. Chun SK, Fortin BM, Fellows RC, Habowski AN, Verlande A, Song WA, Mahieu AL, Lefebvre AEYT, Sterrenberg JN, Velez LM, Digman MA, Edwards RA, Pannunzio NR, Seldin MM, Waterman ML, Masri S. Disruption of the Circadian Clock Drives Apc Loss of Heterozygosity to Accelerate Colorectal Cancer. Science Advances. 2022
  5. Sterrenberg, JN, Folkerts ML, Rangel V, Lee SE, Pannunzio NR. Diversity Upon Diversity: Linking DNA Double-Strand Break Repair to Blood Cancer Health Disparities. Trends in Cancer. 2022
  6. Pannunzio NR, Lieber MR. Constitutively Active Artemis Nuclease Recognizes Structures Containing Single-Stranded DNA Configurations. DNA Repair (Amst.) 2019
  7. Pannunzio NR, Lieber MR. Concept of DNA Lesion Longevity and Chromosomal Translocations. Trends Biochem Sci. 2018
  8. Pannunzio NR, Watanabe G, Lieber MR. Nonhomologous DNA end-joining for repair of DNA double-strand breaks. J Biol Chem. 2018
  9. Pannunzio NR, Lieber MR. AID and reactive oxygen species can induce DNA breaks within human chromosomal translocation fragile zones. Mol Cell. 2017
  10. Chang HHY, Pannunzio NR, Adachi N, Lieber MR. Non-homologous DNA end joining and alternative pathways to double-strand break repair. Nat Rev Mol Cell Biol. 2017
  11. Pannunzio NR, Lieber MR. RNA polymerase collision versus DNA structural distortion: twists and turns can cause break failure. Mol Cell. 2016
  12. Pannunzio NR, Lieber MR. Dissecting the roles of divergent and convergent transcription in chromosomal instability. Cell Rep. 2016
  13. Zhang ZZ, Pannunzio NR, Lu Z, Hsu E, Yu K, Lieber MR.
    The repetitive portion of the Xenopus IgH Mu switch region mediates orientation-dependent class switch recombination. Mol Immunol. 2015
  14. Lu Z, Pannunzio NR, Greisman HA, Casero D, Parekh C, Lieber MR. Convergent BCL6 and lncRNA promoters demarcate the major breakpoint region for BCL6 translocations. Blood. 2015
  15. Zhang ZZ, Pannunzio NR, Hsieh CL, Yu K, Lieber MR.
    Complexities due to single-stranded RNA during antibody detection of genomic RNA:DNA hybrids. BMC Res Notes. 2015
  16. Zhang ZZ, Pannunzio NR, Hsieh CL, Yu K, Lieber MR.
    The role of G-density in switch region repeats for immunoglobulin class switch recombination. Nucleic Acids Res. 2014
  17. Zhang ZZ, Pannunzio NR, Han L, Hsieh CL, Yu K, Lieber MR.
    The strength of an Ig switch region is determined by its ability to drive R loop formation and its number of WGCW sites. Cell Rep. 2014
  18. Pannunzio NR, Li S, Watanabe G, Lieber MR.
    Non-homologous end joining often uses microhomology: implications for alternative end joining. DNA Repair (Amst). 2014
  19. Pannunzio NR, Manthey GM, Liddell LC, Fu BX, Roberts CM, Bailis AM. Rad59 regulates association of Rad52 with DNA double-strand breaks. Microbiologyopen. 2012
  20. Liddell L, Manthey G, Pannunzio N, Bailis A.
    Quantitation and analysis of the formation of HO-endonuclease stimulated chromosomal translocations by single-strand annealing in Saccharomyces cerevisiae. J Vis Exp. 2011
  21. Pannunzio NR, Manthey GM, Bailis AM. RAD59 and RAD1 cooperate in translocation formation by single-strand annealing in Saccharomyces cerevisiae. Curr Genet. 2010
  22. Pannunzio NR, Manthey GM, Bailis AM. RAD59 is required for efficient repair of simultaneous double-strand breaks resulting in translocations in Saccharomyces cerevisiae. DNA Repair (Amst). 2008
  23. Ghosh P, Pannunzio NR, Hatfull GF. Synapsis in phage Bxb1 integration: selection mechanism for the correct pair of recombination sites. J Mol Biol. 2005
  24. Pedulla ML, Ford ME, Houtz JM, Karthikeyan T, Wadsworth C, Lewis JA, Jacobs-Sera D, Falbo J, Gross J, Pannunzio NR, Brucker W, Kumar V, Kandasamy J, Keenan L, Bardarov S, Kriakov J, Lawrence JG, Jacobs WR Jr, Hendrix RW, Hatfull GF. Origins of highly mosaic mycobacteriophage genomes. Cell. 2003