1. MiR-887-3p Negatively Regulates STARD13 and Promotes Pancreatic Cancer Progression


    Xiaobo Xu et al, 2020, Cancer Management and Research CrossRef
  2. The regulation of RhoA at focal adhesions by StarD13 is important for astrocytoma cell motility
    Bassem D. Khalil et al, 2014, Experimental Cell Research CrossRef
  3. DLC2 operates as a tumor suppressor gene in breast cancer via the RhoGTPase pathway
    Zheng Yang et al, 2018, Oncology Letters CrossRef
  4. Hypoxia and EGF Stimulation Regulate VEGF Expression in Human Glioblastoma Multiforme (GBM) Cells by Differential Regulation of the PI3K/Rho-GTPase and MAPK Pathways
    Samer Nicolas et al, 2019, Cells CrossRef
  5. Displacement of Bax by BMF Mediates STARD13 3′UTR-Induced Breast Cancer Cells Apoptosis in an miRNA-Depedent Manner
    Xinwei Guo et al, 2018, Molecular Pharmaceutics CrossRef
  6. Fixing the GAP: The role of RhoGAPs in cancer
    Gabriel Kreider-Letterman et al, 2022, European Journal of Cell Biology CrossRef
  7. StarD13 differentially regulates migration and invasion in prostate cancer cells
    Leila Jaafar et al, 2021, Human Cell CrossRef
  8. StarD13: a potential star target for tumor therapeutics
    Leila Jaafar et al, 2020, Human Cell CrossRef
  9. Evaluation of miR-720 prognostic significance in patients with colorectal cancer
    Xu Wang et al, 2015, Tumor Biology CrossRef
  10. Differential regulation of rho GTPases during lung adenocarcinoma migration and invasion reveals a novel role of the tumor suppressor StarD13 in invadopodia regulation
    Maria Al Haddad et al, 2020, Cell Communication and Signaling CrossRef
  11. Effect of StarD13 on colorectal cancer proliferation, motility and invasion
    ANITA NASRALLAH et al, 2014, Oncology Reports CrossRef
  12. RHOG Activates RAC1 through CDC42 Leading to Tube Formation in Vascular Endothelial Cells
    Oula El Atat et al, 2019, Cells CrossRef
  13. Altered regulation of cell migration in IRF6-mutated orofacial cleft patients-derived primary cells reveals a novel role of Rho GTPases in cleft/lip palate development
    Michella Ghassibe-Sabbagh et al, 2021, Cells & Development CrossRef
  14. Inhibition of miR-9-5p suppresses prostate cancer progress by targeting StarD13
    Lin Chen et al, 2019, Cellular & Molecular Biology Letters CrossRef
  15. Loss of STARD13 contributes to aggressive phenotype transformation and poor prognosis in papillary thyroid carcinoma
    Chuimian Zeng et al, 2023, Endocrine CrossRef
  16. Ras superfamily GTPase activating proteins in cancer: Potential therapeutic targets?
    Huan Xiao et al, 2023, European Journal of Medicinal Chemistry CrossRef
  17. StarD13 negatively regulates invadopodia formation and invasion in high-grade serous (HGS) ovarian adenocarcinoma cells by inhibiting Cdc42
    Sandra Abdellatef et al, 2022, European Journal of Cell Biology CrossRef
  18. StarD13 is a tumor suppressor in breast cancer that regulates cell motility and invasion
    SAMER HANNA et al, 2014, International Journal of Oncology CrossRef