1. High Vimentin Expression Predicts a Poor Prognosis and Progression in Colorectal Cancer: A Study with Meta-Analysis and TCGA Database
    Le Du et al, 2018, BioMed Research International CrossRef
  2. METTL14 Regulates PLAGL2/β-Catenin Signaling Axis to Promote the Development of Nonsmall Cell Lung Cancer
    Qianhui Zhou et al, 2023, Journal of Oncology CrossRef
  3. DNA-methylation-mediated silencing of miR-486-5p promotes colorectal cancer proliferation and migration through activation of PLAGL2/IGF2/β-catenin signal pathways
    Xiangxiang Liu et al, 2018, Cell Death & Disease CrossRef
  4. PLAGL2‐EGFR‐HIF‐1/2α Signaling Loop Promotes HCC Progression and Erlotinib Insensitivity
    Weiwei Hu et al, 2021, Hepatology CrossRef
  5. Tissue microRNA expression profiling in hepatic and pulmonary metastatic melanoma
    Mallory J. DiVincenzo et al, 2020, Melanoma Research CrossRef
  6. Circ-SOX4 drives the tumorigenesis and development of lung adenocarcinoma via sponging miR-1270 and modulating PLAGL2 to activate WNT signaling pathway
    Nan Gao et al, 2020, Cancer Cell International CrossRef
  7. Inactivation of the Wnt/β-catenin signaling pathway underlies inhibitory role of microRNA-129-5p in epithelial–mesenchymal transition and angiogenesis of prostate cancer by targeting ZIC2
    Zhenming Jiang et al, 2019, Cancer Cell International CrossRef
  8. The oncogenic function of PLAGL2 is mediated via ASCL2 and IGF2 and a Wnt-independent mechanism in colorectal cancer
    Anthony D. Fischer et al, 2023, American Journal of Physiology-Gastrointestinal and Liver Physiology CrossRef
  9. Knockdown of Uba2 inhibits colorectal cancer cell invasion and migration through downregulation of the Wnt/β‐catenin signaling pathway
    Hongjing Cheng et al, 2018, Journal of Cellular Biochemistry CrossRef
  10. Transmembrane protein 184B (TMEM184B) promotes expression of synaptic gene networks in the mouse hippocampus
    Elizabeth B. Wright et al, 2023, BMC Genomics CrossRef
  11. DJ-1 promotes colorectal cancer progression through activating PLAGL2/Wnt/BMP4 axis
    Jing Zhou et al, 2018, Cell Death & Disease CrossRef
  12. MicroRNA-214-3p targets the PLAGL2-MYH9 axis to suppress tumor proliferation and metastasis in human colorectal cancer
    Zili Zhou et al, 2020, Aging CrossRef
  13. Synthesis of Hemiprotonic Phenanthroline–Phenanthroline+ Compounds with both Antitumor and Antimicrobial Activity
    Zizhen Zhao et al, 2022, Journal of Medicinal Chemistry CrossRef
  14. Epigenetic alterations in female urogenital organs cancer: Premise, properties, and perspectives
    Abdelkareem A. Ahmed et al, 2020, Scientific African CrossRef
  15. Inhibitory effect of protonic bis(5-amino-1,10-phenanthroline) on proliferation of hepatocellular carcinoma and its molecular mechanism
    Zizhen Zhao et al, 2022, Arabian Journal of Chemistry CrossRef
  16. PLAGL2 promotes bladder cancer progression via RACGAP1/RhoA GTPase/YAP1 signaling
    Hualin Chen et al, 2023, Cell Death & Disease CrossRef
  17. Comprehensive bioinformatics analysis of the characterization and determination underlying mechanisms of over-expression and co-expression of genes residing on 20q in colorectal cancer
    Daojiang Li et al, 2017, Oncotarget CrossRef
  18. Gains of 20q11.21 in human pluripotent stem cells: Insights from cancer research
    Nuša Krivec et al, 2024, Stem Cell Reports CrossRef
  19. PLAGL2 and POFUT1 are regulated by an evolutionarily conserved bidirectional promoter and are collaboratively involved in colorectal cancer by maintaining stemness
    Daojiang Li et al, 2019, EBioMedicine CrossRef
  20. Studying the mechanism of PLAGL2 overexpression and its carcinogenic characteristics based on 3'-untranslated region in colorectal cancer
    Chen Su et al, 2018, International Journal of Oncology CrossRef
  21. MicroRNA-654-5p suppresses ovarian cancer development impacting on MYC, WNT and AKT pathways
    Blanca Majem et al, 2019, Oncogene CrossRef