1. Analysis of Nuclear-Cytoplasmic Redistribution of Actin-Binding Protein Alpha-Actinin-4 and Signaling Protein RhoA in the Process of Replicative Senescence of Human Epicardial Adipose Tissue-Derived ADH-MSC Cell Line
   D. F. Goncharova et al, 2021, Cell and Tissue Biology CrossRef
2. Post-Translational Modification and Subcellular Distribution of Rac1: An Update
   Abdalla Abdrabou et al, 2018, Cells CrossRef
3. Fbxw7 regulates tumor apoptosis, growth arrest and the epithelial-to-mesenchymal transition in part through the RhoA signaling pathway in gastric cancer
   Hui Li et al, 2016, Cancer Letters CrossRef
4. Role of Rho Family Small GTPases in the Regulation of Normal and Pathological Processes
   D. E. Bobkov et al, 2024, Cell and Tissue Biology CrossRef
5. Phosphorylation and Activation of RhoA by ERK in Response to Epidermal Growth Factor Stimulation
   Junfeng Tong et al, 2016, PLOS ONE CrossRef
6. Detection and Quantification of ADP-Ribosylated RhoA/B by Monoclonal Antibody
   Astrid Rohrbeck et al, 2016, Toxins CrossRef
7. Insights into the Relationship between Nucleolar Stress and the NF-κB Pathway
   Jingyu Chen et al, 2019, Trends in Genetics CrossRef
8. The role of the Rho family small GTPases in regulation of normal and pathological processes
   D. E. Bobkov et al, 2024, Цитология CrossRef
9. Development of Second‐Generation Small‐Molecule RhoA Inhibitors with Enhanced Water Solubility, Tissue Potency, and Significant in vivo Efficacy
   Sheng Ma et al, 2015, ChemMedChem CrossRef
10. Nucleolar localization of Small G protein RhoA is associated with active RNA synthesis in human carcinoma HEp-2 cells
    YUEYING LI et al, 2016, Oncology Letters CrossRef
11. RhoA activation and nuclearization marks loss of chondrocyte phenotype in crosstalk with Wnt pathway
    Ece Öztürk et al, 2017, Experimental Cell Research CrossRef