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| Online-Ressource |
Verfasst von: | Melnik, Svitlana [VerfasserIn]  |
| Gabler, Jessica [VerfasserIn]  |
| Dreher, Simon I. [VerfasserIn]  |
| Hecht, Nicole [VerfasserIn]  |
| Hofmann, Nina [VerfasserIn]  |
| Großner, Tobias [VerfasserIn]  |
| Richter, Wiltrud [VerfasserIn]  |
Titel: | MiR-218 affects hypertrophic differentiation of human mesenchymal stromal cells during chondrogenesis via targeting RUNX2, MEF2C, and COL10A1 |
Verf.angabe: | Svitlana Melnik, Jessica Gabler, Simon I. Dreher, Nicole Hecht, Nina Hofmann, Tobias Großner and Wiltrud Richter |
E-Jahr: | 2020 |
Jahr: | 10 December 2020 |
Umfang: | 18 S. |
Fussnoten: | Gesehen am 18.01.2021 |
Titel Quelle: | Enthalten in: Stem cell research & therapy |
Ort Quelle: | London : BioMed Central, 2010 |
Jahr Quelle: | 2020 |
Band/Heft Quelle: | 11(2020), Artikel-ID 532, Seite 1-18 |
ISSN Quelle: | 1757-6512 |
Abstract: | Human mesenchymal stromal cells (MSC) hold hopes for cartilage regenerative therapy due to their chondrogenic differentiation potential. However, undesirable occurrence of calcification after ectopic transplantation, known as hypertrophic degeneration, remains the major obstacle limiting application of MSC in cartilage tissue regeneration approaches. There is growing evidence that microRNAs (miRs) play essential roles in post-transcriptional regulation of hypertrophic differentiation during chondrogenesis. Aim of the study was to identify new miR candidates involved in repression of hypertrophy-related targets. |
DOI: | doi:10.1186/s13287-020-02026-6 |
URL: | kostenfrei: Volltext: https://doi.org/10.1186/s13287-020-02026-6 |
| DOI: https://doi.org/10.1186/s13287-020-02026-6 |
Datenträger: | Online-Ressource |
Sprache: | eng |
Sach-SW: | Chondrocyte hypertrophy |
| Collagen type X |
| MEF2C |
| Mesenchymal stromal cells (MSC) |
| miR-218 |
| Osteoarthritis (OA) |
| RUNX2 |
K10plus-PPN: | 1744853908 |
Verknüpfungen: | → Zeitschrift |
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Lokale URL UB: | Zum Volltext |
MiR-218 affects hypertrophic differentiation of human mesenchymal stromal cells during chondrogenesis via targeting RUNX2, MEF2C, and COL10A1 / Melnik, Svitlana [VerfasserIn]; 10 December 2020 (Online-Ressource)
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