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Sun Lab

Publications

 

  1. Wibisono P* and Sun J*. Pathogen infection induces specific transgenerational modifications to gene expression and fitness in Caenorhabditis elegansFrontiers in Physiology 2023, 14: 1225858.
  2. Wibisono P and Sun J*.  Protocol to measure bacterial intake and gut clearance of Caenorhabditis elegans. STAR Protocol 2022, 3(3): 101558.
  3. Wibisono P, Wibisono S, Watteyne J, Chen C, Sellegounder D, Beets I, Liu Y*, and Sun J*. Neuronal GPCR NMUR-1 regulates distinct immune responses to different pathogens. *Co-corresponding author. Cell Reports 2022, 38(6):110321.
  4. Wibisono P and Sun J, Isolation of active Caenorhabditis elegans nuclear extract and reconstitution for in vitro transcription. Journal of Visualized Experiments, 2021, 174:10.3791/62723.
  5. Wibisono P and Sun J, Neuro-immune communication in C. elegans defense against pathogen infection. Current Research in Immunology 2021, 2: 60-65.
  6. Liu Y* and Sun J*. Detection of pathogens and regulation of immunity by the Caenorhabditis elegans nervous system. mBio 2021, 12(2): e02301-20. *co-corresponding author.
  7. Wibisono P, Liu Y, and Sun J. A novel in vitro Caenorhabditis elegans transcription system. BMC Molecular and Cell Biology 2020, 21(1):87.
  8. Sellegounder D, Liu Y, Wibisono P, Chen C, Leap D, and Sun J. Neuronal GPCR NPR-8 regulates C. elegans defense against pathogen infection. Science Advances 2019, 5(11):eaaw4717.
  9. Sellegounder D*, Yuan CH*, Wibisono P, Liu Y, and Sun J. Octopaminergic signaling mediates neural regulation of innate immunity in Caenorhabditis elegans. mBio 2018, 9(5). *co-first author.
  10. Liu Y and Sun J. G protein-coupled receptors mediate neural regulation of innate immune responses in Caenorhabditis elegans. Receptors & Clinical Investigation 2017, 4: e1543.
  11. Liu Y, Sellegounder D and Sun J. Neuronal GPCR OCTR-1 regulates innate immunity by controlling protein synthesis in Caenorhabditis elegans. Scientific Reports 2016, 6:36832.
  12. Sun J, Aballay A and Singh V. Cellular responses to infections in C. elegans. Encyclopedia of Cell Biology 2015, 845-852.
  13. Hall J*, Sun J*, Slade J, Kintner J, Bambino M, Whittimore J and Schoborg R. Host nectin-1 is required for efficient Chlamydia trachomatis serovar E development. Frontiers in cellular and infection microbiology 2014, 4:158. (* co-first author)
  14. Sun J, Liu Y and Aballay A. Organismal regulation of XBP-1-mediated unfolded protein response during development and immune activation. EMBO reports 2012, 13: 855-860.
    Comment in: EMBO reports 2012, 13:766-768.
  15. Sun J, Singh V, Kajino-Sakamoto R and Aballay A. Neuronal GPCR controls innate immunity by regulating noncanonical unfolded protein response genes. Science 2011, 332:729-732.
    Comment in: Science 2011, 332:673-674.
  16. Schoborg RV, Sun J, Daniels C, Whittimore J and Kintner J. The Host Nectin-1 Protein Regulates Chlamydial Development. Proceedings of the 12th International Symposium on Human Chlamydial Infections 2010, Book chapter
  17. Sun J and Schoborg R. The host adherens junction molecule nectin-1 is degraded by chlamydial protease-like activity factor (CPAF) in Chlamydia trachomatis-infected genital epithelial cells. Microbes and Infection 2009, 11: 12-19.
  18. Sun J, Kintner J and Schoborg R. The host adherens junction molecule nectin-1 is down-regulated in Chlamydia trachomatis-infected genital epithelial cells. Microbiology 2008, 154: 1290-1299.
  19. Vanover J, Sun J, Deka S, Kintner J and Schoborg R. Herpes Simplex Virus co-infection induces C. trachomatis persistence through a novel mechanism. Microbiology 2007, 154: 971-978.
  20. Deka S, Vanover J, Sun J, Kintner J, Whittimore J and Schoborg R. An early event in the Herpes Simplex Virus type-2 replication cycle is sufficient to induce Chlamydia trachomatis persistence. Cellular Microbiology 2007, 9:725-737.
  21. Defoe DM, Adams LB, Sun J, Wisecarver SN and Levine EM. Defects in retinal pigment epithelium cell proliferation and retinal attachment in mutant mice with p27(Kip1) gene ablation. Molecular Vision 2007, 13: 273-286.
  22. Schoborg R, Vanover J, Deka S, Sun J, Whittimore J and Kintner J. Herpes simple virus type 2 (HSV-2) co-infection induced chlamydial persistence requires an early event in the viral replication cycle. Proceedings of the Eleventh International Symposium on Human Chlamydial Infection 2006, Book chapter