0B68 Sawicki, Janet - Thomas Jefferson University - Thomas Jefferson University

Janet Sawicki, PhD

Contact Dr. Sawicki

Lankenau Institute for Medical Research
Wynnewood, PA 19107

Most Recent Peer-reviewed Publications

  1. HuR posttranscriptionally regulates WEE1: Implications for the DNA damage response in pancreatic cancer cells
  2. DNA nanotherapy for pre-n 0B68 eoplastic cervical lesions
  3. Disruption of Abi1/Hssh3bp1 expression induces prostatic intraepithelial neoplasia in the conditional Abi1/Hssh3bp1 KO mice
  4. Molecular-based and alternative therapies for pancreatic cancer: Looking "out of the box"
  5. Epithelial cell-targeted transgene expression enables isolation of cyan fluorescent protein (CFP)-expressing prostate stem/progenitor cells
  6. Essential role for Abi1 in embryonic survival and WAVE2 complex integrity
  7. CanScript, an 18-Base pair DNA sequence, boosts tumor cell-specific promoter activity: Implications for targeted gene therapy
  8. Nanoparticle-delivered suicide gene therapy effectively reduces ovarian tumor burden in mice
  9. Claudin-3 gene silencing with siRNA suppresses ovarian tumor growth and metastasis
  10. Nanoparticle delivery of suicide DNA for epithelial ovarian cancer therapy
  11. Fetal microchimerism and cancer
  12. Nanoparticulate delivery of diphtheria toxin DNA effectively kills Mesothelin expressing pancreatic cancer cells
  13. Progressive metaplastic and dysplastic changes in mouse pancreas induced by cyclooxygenase-2 overexpression
  14. Combinatorial modification of degradable polymers enables transfection of human cells comparable to adenovirus
  15. Rapid optimization of gene delivery by parallel end-modification of poly(β-amino ester)s
  16. Nanoparticulate delivery of suicide DNA to murine prostate and prostate tumors
  17. Tightly-regulated suicide gene expression kills PSA-expressing prostate tumor cells
  18. Human Coxsackie adenovirus receptor (CAR) expression in transgenic mouse prostate tumors enhances adenoviral delivery of genes
  19. A polymer library approach to suicide gene therapy for cancer
  20. Capturing and profiling adult hair follicle stem cells