1. miR-182-5p Induced by STAT3 Activation Promotes Glioma Tumorigenesis
   Jianfei Xue et al, 2016, Cancer Research CrossRef
2. Aberrant Methylation of Protocadherin 17 and its Clinical Significance in Patients with Prostate Cancer after Radical Prostatectomy
   Jian-Guo Ma, 2014, Medical Science Monitor CrossRef
3. Narrowing the critical region for overgrowth within 13q14.2-q14.3 microdeletions
   Benjamin Kamien et al, 2015, European Journal of Medical Genetics CrossRef
4. Clinical significance of protocadherin 8 (PCDH8) promoter methylation in non-muscle invasive bladder cancer
   Ying-Li Lin et al, 2014, Journal of Experimental & Clinical Cancer Research CrossRef
5. Epigenome-Wide Analysis of DNA Methylation Reveals a Rectal Cancer-Specific Epigenomic Signature
   Veronika Vymetalkova et al, 2016, Epigenomics CrossRef
6. Protocadherin‐8 promotes invasion and metastasis via laminin subunit γ2 in gastric cancer
   Ying Lin et al, 2018, Cancer Science CrossRef
7. Aberrant expression and functions of protocadherins in human malignant tumors
   Ming Shan et al, 2016, Tumor Biology CrossRef
8. Aberrant Methylation of PCDH8 is a Potential Prognostic Biomarker for Patients with Clear Cell Renal Cell Carcinoma
   Jian-Guo Ma, 2014, Medical Science Monitor CrossRef
9. MetaKTSP: a meta-analytic top scoring pair method for robust cross-study validation of omics prediction analysis
   SungHwan Kim et al, 2016, Bioinformatics CrossRef
10. Tumor-Specific Hypermethylation of Epigenetic Biomarkers, Including SFRP1, Predicts for Poorer Survival in Patients from the TCGA Kidney Renal Clear Cell Carcinoma (KIRC) Project
    Christopher J. Ricketts et al, 2014, PLoS ONE CrossRef
11. The Nonclustered Protocadherins
    James D. Jontes, 2016, The Cadherin Superfamily CrossRef
12. Retracted Article: Overexpression of PCDH8 inhibits proliferation and invasion, and induces apoptosis in papillary thyroid cancer cells
    Liang Chang et al, 2018, RSC Advances CrossRef
13. PCDH8 inhibits glioma cell proliferation by negatively regulating the AKT/GSK3β/β-catenin signaling pathway
    Zhenkun Zong et al, 2017, Oncology Letters CrossRef
14. PCDH8 participates in the growth process of colorectal cancer cells by regulating the AKT/GSK3β/β-catenin signaling pathway
    Song Wu et al, 2022, Tissue and Cell CrossRef
15. Protocadherin 7 inhibits cell migration and invasion through E-cadherin in gastric cancer
    Hong-Fang Chen et al, 2017, Tumor Biology CrossRef
16. Promoter Methylation of Protocadherin8 is an Independent Prognostic Factor for Biochemical Recurrence of Early-Stage Prostate Cancer
    Wen-Ping Li, 2014, Medical Science Monitor CrossRef
17. Protocadherins at the Crossroad of Signaling Pathways
    Anna Pancho et al, 2020, Frontiers in Molecular Neuroscience CrossRef
18. Association between protocadherin 8 promoter hypermethylation and the pathological status of prostate cancer
    Peng Zhang et al, 2017, Oncology Letters CrossRef
19. Urine Molecular Biomarkers for Detection and Follow-Up of Small Renal Masses
    Algirdas Žalimas et al, 2022, International Journal of Molecular Sciences CrossRef
20. Increased frequency of minimal homozygous deletions is associated with poor prognosis in primary malignant melanoma patients
    Sebastiana Boi et al, 2014, Genes, Chromosomes and Cancer CrossRef
21. MESANE TÜMÖRLÜ HASTALARIN KANLARINDA EPİGENETİK BİYOBELİRTEÇLER OLARAK PROTOKADERİN GEN AİLESİ ÜYELERİ PCDH8, PCDH10 VE PCDH17’NİN ARAŞTIRILMASI
    Zeynep YEĞİN et al, 2020, Kırıkkale Üniversitesi Tıp Fakültesi Dergisi CrossRef
22. Nemo-like kinase 1 (Nlk1) and paraxial protocadherin (PAPC) cooperatively control Xenopus gastrulation through regulation of Wnt/planar cell polarity (PCP) signaling
    Rahul Kumar et al, 2017, Differentiation CrossRef
23. Estrogen receptor‑α is a determinant of protocadherin‑8 expression in breast cancer cells
    Ajay Kumar et al, 2019, Gene Reports CrossRef
24. Expression of protocadherin8: Function as a tumor suppressor in hypopharyngeal carcinoma
    Yanshi Li et al, 2018, Cancer Biomarkers CrossRef
25. Comparative transcriptome analysis of isogenic cell line models and primary cancers links capicua (CIC) loss to activation of the MAPK signalling cascade
    Veronique G LeBlanc et al, 2017, The Journal of Pathology CrossRef