1. circANKRD17(has_circ_0007883) confers paclitaxel resistance of ovarian cancer via interacting with FUS to stabilize FOXR2
   Yue-Xiu Liang et al, 2023, Molecular and Cellular Biochemistry CrossRef
2. Circular RNA: A new expectation for cardiovascular diseases
   Qiao Xie et al, 2024, Journal of Cellular Biochemistry CrossRef
3. Circular RNAs Regulate Vascular Remodelling in Pulmonary Hypertension
   Shuang-Lan Xu et al, 2022, Disease Markers CrossRef
4. Circ_0068481 Affects the Human Pulmonary Artery Smooth Muscle Cells’ Progression by miR-361-3p/KLF5 Axis
   Hai-Rong Li et al, 2024, American Journal of Hypertension CrossRef
5. The role of circular RNAs in pulmonary hypertension
   Md Khadem Ali et al, 2022, European Respiratory Journal CrossRef
6. The Landscape of Noncoding RNA in Pulmonary Hypertension
   Lin Deng et al, 2022, Biomolecules CrossRef
7. GRM1 Gene Fusions as an Alternative Molecular Driver in Blue Nevi and Related Melanomas
   Thibault Kervarrec et al, 2023, Modern Pathology CrossRef
8. CircUBE3A(2,3,4,5) promotes adenylate-uridylate-rich binding factor 1 nuclear translocation to suppress prostate cancer metastasis
   Ziwei Wei et al, 2024, Cancer Letters CrossRef
9. Insights into circular RNAs: Biogenesis, function and their regulatory roles in cardiovascular disease
   Chen Ding et al, 2023, Journal of Cellular and Molecular Medicine CrossRef
10. CircItgb5 promotes synthetic phenotype of pulmonary artery smooth muscle cells via interacting with miR-96-5p and Uba1 in monocrotaline-induced pulmonary arterial hypertension
    Hua Su et al, 2023, Respiratory Research CrossRef
11. Nuclear and cytoplasmic specific RNA binding proteome enrichment and its changes upon ferroptosis induction
    Haofan Sun et al, 2024, Nature Communications CrossRef
12. Genome-Wide RNA-Sequencing Reveals Massive Circular RNA Expression Changes of the Neurotransmission Genes in the Rat Brain after Ischemia–Reperfusion
    Ivan B. Filippenkov et al, 2021, Genes CrossRef