1. Epigenetic Activation of Circadian Clock Genes Elicits Inflammation in Experimental Murine Dry Eye
    Ruifen Wei et al, 2023, Ocular Immunology and Inflammation CrossRef
  2. Thyroid Cancer and Circadian Clock Disruption
    Roberta Malaguarnera et al, 2020, Cancers CrossRef
  3. The Role of Vti1a in Biological Functions and Its Possible Role in Nervous System Disorders
    Fajuan Tang et al, 2022, Frontiers in Molecular Neuroscience CrossRef
  4. Lycium barbarum glycopeptide targets PER2 to inhibit lipogenesis in glioblastoma by downregulating SREBP1c
    Jian Yao et al, 2023, Cancer Gene Therapy CrossRef
  5. 2.4 GHz Electromagnetic Field Influences the Response of the Circadian Oscillator in the Colorectal Cancer Cell Line DLD1 to miR-34a-Mediated Regulation
    Soňa Olejárová et al, 2022, International Journal of Molecular Sciences CrossRef
  6. Adjusting the Molecular Clock: The Importance of Circadian Rhythms in the Development of Glioblastomas and Its Intervention as a Therapeutic Strategy
    Paula M. Wagner et al, 2021, International Journal of Molecular Sciences CrossRef
  7. Circadian Period 2 (Per2) downregulate inhibitor of differentiation 3 (Id3) expression via PTEN/AKT/Smad5 axis to inhibits glioma cell proliferation
    Yifan Zhang et al, 2022, Bioengineered CrossRef
  8. Insights about circadian clock in glioma: From molecular pathways to therapeutic drugs
    Zongqi Wang et al, 2022, CNS Neuroscience & Therapeutics CrossRef
  9. Circadian disruption: from mouse models to molecular mechanisms and cancer therapeutic targets
    Yu Wang et al, 2023, Cancer and Metastasis Reviews CrossRef
  10. Cognitive Impairment and Dementia: Gaining Insight through Circadian Clock Gene Pathways
    Kenneth Maiese, 2021, Biomolecules CrossRef
  11. Circadian gene Per3 promotes astroblastoma progression through the P53/BCL2/BAX signalling pathway
    Qingqing Wang et al, 2024, Gene CrossRef
  12. Transfer of microRNA-22-3p by M2 macrophage-derived extracellular vesicles facilitates the development of ankylosing spondylitis through the PER2-mediated Wnt/β-catenin axis
    Chong Liu et al, 2022, Cell Death Discovery CrossRef
  13. Cancer stem cells in brain tumors: From origin to clinical implications
    Shuyun Lin et al, 2023, MedComm CrossRef
  14. Adult Neurogenesis under Control of the Circadian System
    Amira A. H. Ali et al, 2022, Cells CrossRef
  15. Clock genes and gastric cancer
    Shuaishuai Cui et al, 2022, Biological Rhythm Research CrossRef
  16. Wnt Signaling and WISP1 (CCN4): Critical Components in Neurovascular Disease, Blood Brain Barrier Regulation, and Cerebral Hemorrhage
    Kenneth Maiese, 2022, Current Neurovascular Research CrossRef
  17. Potential Role of the Circadian Clock in the Regulation of Cancer Stem Cells and Cancer Therapy
    Yool Lee et al, 2022, International Journal of Molecular Sciences CrossRef
  18. Molecular mechanisms of tumour development in glioblastoma: an emerging role for the circadian clock
    Nina Nelson et al, 2024, npj Precision Oncology CrossRef