1. A Topological Cluster of Differentially Regulated Genes in Mice Lacking PER3
    Daan R. Van der Veen et al, 2020, Frontiers in Molecular Neuroscience CrossRef
  2. The correlation between PER3 rs2640908 polymorphism and colorectal Cancer in the Japanese population
    null Holipah et al, 2019, Applied Cancer Research CrossRef
  3. PER3 VNTR GENOTYPES MAY PREDICT OVERALL SURVIVAL IN BLADDER CANCER PATIENTS IN THE TURKISH POPULATION
    Zeynep YEĞİN et al, 2020, Mugla Journal of Science and Technology CrossRef
  4. Possible Association ofPER2/PER3Variable Number Tandem Repeat Polymorphism Variants with Susceptibility and Clinical Characteristics in Pancreatic Cancer
    Hasan Dagmura et al, 2021, Genetic Testing and Molecular Biomarkers CrossRef
  5. The potential therapeutic actions of melatonin in colorectal cancer
    Kian Chung Chok et al, 2019, Hormone Molecular Biology and Clinical Investigation CrossRef
  6. Circadian clock as a possible control point in colorectal cancer progression (Review)
    Xiwu Rao et al, 2022, International Journal of Oncology CrossRef
  7. Downregulation of the circadian Period family genes is positively correlated with poor head and neck squamous cell carcinoma prognosis
    Yuan-yuan Li et al, 2019, Chronobiology International CrossRef
  8. PERIOD3 polymorphism is associated with sleep quality recovery after a mild traumatic brain injury
    Chien-Tai Hong et al, 2015, Journal of the Neurological Sciences CrossRef
  9. Phenotyping of PER3 variants reveals widespread effects on circadian preference, sleep regulation, and health
    Simon N. Archer et al, 2018, Sleep Medicine Reviews CrossRef
  10. Genetic variants in the circadian rhythm pathway as indicators of prostate cancer progression
    Chia-Cheng Yu et al, 2019, Cancer Cell International CrossRef
  11. Gender effects of single nucleotide polymorphisms and miRNAs targeting clock-genes in metastatic colorectal cancer patients (mCRC)
    Carlo Garufi et al, 2016, Scientific Reports CrossRef
  12. A New Clock is Running for Multiple Myeloma: Circadian Clock Protein-Period 3 (PER-3) Polymorphism
    I. Serin et al, 2023, Balkan Journal of Medical Genetics CrossRef
  13. The role of circadian and redox rhythms in cancer hypoxia
    Sonal Omer et al, 2021, Advances in Redox Research CrossRef
  14. Inherited variation in circadian rhythm genes and risks of prostate cancer and three other cancer sites in combined cancer consortia
    Fangyi Gu et al, 2017, International Journal of Cancer CrossRef
  15. Circadian gene variants and breast cancer
    Edyta Reszka et al, 2017, Cancer Letters CrossRef
  16. Rotating night shift work and colorectal cancer risk in the nurses’ health studies
    Kyriaki Papantoniou et al, 2018, International Journal of Cancer CrossRef
  17. Association of circadian BMAL1 gene expression and its polymorphism and risk of breast cancer in females
    Sherin Sobhy EL-Naidany et al, 2023, Gene Reports CrossRef
  18. Case-control study of candidate gene methylation and adenomatous polyp formation
    M. Alexander et al, 2017, International Journal of Colorectal Disease CrossRef
  19. Circadian Gene Polymorphisms Associated with Breast Cancer Susceptibility
    Monika Lesicka et al, 2019, International Journal of Molecular Sciences CrossRef
  20. Circadian PERformance in breast cancer: a germline and somatic genetic study of PER3VNTR polymorphisms and gene co-expression
    Jaume Fores-Martos et al, 2021, npj Breast Cancer CrossRef
  21. Evidences of Polymorphism Associated with Circadian System and Risk of Pathologies: A Review of the Literature
    F. J. Valenzuela et al, 2016, International Journal of Endocrinology CrossRef
  22. Human Clock Genes and Cancer
    Anton Shostak, 2018, Current Sleep Medicine Reports CrossRef