1. RSF1 in cancer: interactions and functions
    Guiyang Cai et al, 2021, Cancer Cell International CrossRef
  2. Emerging Biomarkers for Predicting Bladder Cancer Lymph Node Metastasis
    Chunyu Zhang et al, 2021, Frontiers in Oncology CrossRef
  3. MicroRNAs and target molecules in bladder cancer
    Payam Kheirmand Parizi et al, 2020, Medical Oncology CrossRef
  4. RSF1 requires CEBP/β and hSNF2H to promote IL-1β-mediated angiogenesis: the clinical and therapeutic relevance of RSF1 overexpression and amplification in myxofibrosarcomas
    Chien-Feng Li et al, 2021, Angiogenesis CrossRef
  5. Transcriptional and post-transcriptional regulation of checkpoint genes on the tumour side of the immunological synapse
    Paula Dobosz et al, 2022, Heredity CrossRef
  6. Telomere maintenance-related genes are important for survival prediction and subtype identification in bladder cancer
    Yonggui Xiao et al, 2023, Frontiers in Genetics CrossRef

  7. MicroRNA-154: A Novel Candidate for Diagnosis and Therapy of Human Cancers


    Ali Nazarizadeh et al, 2020, OncoTargets and Therapy CrossRef
  8. Cancer-associated fibroblasts and the related Runt-related transcription factor 2 (RUNX2) promote bladder cancer progression
    Bitian Liu et al, 2021, Gene CrossRef
  9. SNHG20 knockdown suppresses proliferation, migration and invasion, and promotes apoptosis in non-small cell lung cancer through acting as a miR-154 sponge
    Jin Lingling et al, 2019, Biomedicine & Pharmacotherapy CrossRef
  10. Upregulation of miRNA-154-5p prevents the tumorigenesis of osteosarcoma
    Qing Tian et al, 2020, Biomedicine & Pharmacotherapy CrossRef
  11. Novel lncRNA LINC01614 Facilitates Bladder Cancer Proliferation, Migration and Invasion Through the miR-217/RUNX2/Wnt/β-Catenin Axis
    Zhen Wang et al, 2021, Cancer Management and Research CrossRef
  12. Role of a schistosoma haematobium specific microRNA as a predictive and prognostic tool for bilharzial bladder cancer in Egypt
    Dalia A. Gaber et al, 2020, Scientific Reports CrossRef
  13. Comprehensive analysis of peripheral blood non-coding RNAs identifies a diagnostic panel for fungal infection after transplantation
    Anli Yang et al, 2022, Bioengineered CrossRef
  14. Downregulation of circular RNA hsa_circ_0000144 inhibits bladder cancer progression via stimulating miR-217 and suppressing RUNX2 expression
    Weiping Huang et al, 2018, Gene CrossRef

  15. Phosphorylated MAPK14 Promotes the Proliferation and Migration of Bladder Cancer Cells by Maintaining RUNX2 Protein Abundance


    Junlong Liu et al, 2020, Cancer Management and Research CrossRef
  16. Oncogene miR-154-5p regulates cellular function and acts as a molecular marker with poor prognosis in renal cell carcinoma
    Canbin Lin et al, 2018, Life Sciences CrossRef
  17. Parathyroid hormone-stimulation of Runx2 during osteoblast differentiation via the regulation of lnc-SUPT3H-1:16 (RUNX2-AS1:32) and miR-6797-5p
    B. Arumugam et al, 2019, Biochimie CrossRef
  18. miR-154 Influences HNSCC Development and Progression through Regulation of the Epithelial-to-Mesenchymal Transition Process and Could Be Used as a Potential Biomarker
    Weronika Tomaszewska et al, 2021, Biomedicines CrossRef
  19. Identification and analysis of microRNA editing events in recurrent bladder cancer based on RNA sequencing: MicroRNA editing level is a potential novel biomarker
    Jia-Xin Qin et al, 2022, Frontiers in Genetics CrossRef
  20. Expression profiles, biological functions and clinical significance of circRNAs in bladder cancer
    Xiaoqi Yang et al, 2021, Molecular Cancer CrossRef
  21. Comprehensive Analysis of Correlations in the Expression of miRNA Genes and Immune Checkpoint Genes in Bladder Cancer Cells
    Przemysław A. Stempor et al, 2021, International Journal of Molecular Sciences CrossRef