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CARDIOMYOCYTE DIFFERENTIATION OF MESENCHYMAL STEM CELLS FROM BONE MARROW: NEW REGULATORS AND ITS IMPLICATIONS
GUO, X., BAI, Y., ZHANG, L., ZHANG, B., DU, Z., CAI, B., ZAGIDULLIN, N., CARVALHO, K.3 (2018)
for millions of deaths every year worldwide. Bone-marrow mesenchymal stem cells (BMSCs) transplantation may
MELATONIN PROTECTS BONE MARROW MESENCHYMAL STEM CELLS AGAINST IRON OVERLOAD-INDUCED ABERRANT DIFFERENTIATION AND SENESCENCE
Yang, F., Yang, L., Li, Y., Yan, G., Feng, C., Liu, T., Gong, R., Yuan, Y., Wang, N., Idiiatullina, E., Bikkuzin, T., V.N. Pavlov, Li, Y., Dong, C. (2017)
Bone marrow mesenchymal stem cells (BMSCs) are an expandable population of stem cells which can
EFFECTS OF BLUE LIGHT EMITTING DIODE IRRADIATION ON THE PROLIFERATION, APOPTOSIS AND DIFFERENTIATION OF BONE MARROW-DERIVED MESENCHYMAL STEM CELLS
Yuan, Y., Yan, G., Gong, R., Zhang, L., Liu, T., Feng, C., Du, W., Wang, Y., Yang, F., Li, Y., Guo, S., Ding, F., Ma, W., Idiiatullina, E., V.N. Pavlov, Han, Z., Cai, B., Yang, L. (2017)
types of cells. The effects of blue LEDs have not been tested on bone marrow-derived mesenchymal stem
BIOCOMPATIBLE ORGANIC COATINGS BASED ON BISPHOSPHONIC ACID RGD‐DERIVATIVES FOR PEO‐MODIFIED TITANIUM IMPLANTS
PARFENOVA, L.V., LUKINA, E.S., GALIMSHINA, Z.R., GIL'FANOVA, G.U., MUKAEVA, V.R., FARRAKHOV, R.G., PARFENOV, E.V., DANILKO, K.V., DYAKONOV, G.S. (2020)
on proliferation and viability of fibroblasts, mesenchymal stem cells and osteoblastlike cells showed
INHIBITION OF IRON OVERLOAD-INDUCED APOPTOSIS AND NECROSIS OF BONE MARROW MESENCHYMAL STEM CELLS BY MELATONIN
Yang, Fan, Li, Yuan, Yan, Gege, Liu, Tianyi, Feng, Chao, Gong, Rui, Yuan, Ye, Ding, Fengzhi, Zhang, Lai, Idiiatullina, Elina, Pavlov, Valentin, Han, Zhenbo, Ma, Wenya, Huang, Qi, Yu, Ying, Bao, Zhengyi, Wang, Xiuxiu, Hua, Bingjie, Du, Zhimin, Cai, Benzhi, Yang, Lei (2017)
iron overload causes the apoptosis and necrosis of bone marrow mesenchymal stem cells (BMSCs
THE LONG NON-CODING RNA-ORLNC1 REGULATES BONE MASS BY DIRECTING MESENCHYMAL STEM CELL FATE
YANG, L, LI, Y, GONG, R, GAO, M.Q., FENG, C, LIU, T.Y., SUN, Y, JIN, M.Y., WANG, D.W., YUAN, Y, YAN, G.G., HE, M.Y., IDIYATULLINA, E.T., MA, W.Y., HAN, Z.B., ZHANG, L, HUANG, Q., DING, F.Z., CAI, B.Z., CAI, B.Z., YANG, F. (2019)
THE LONG NON-CODING RNA-ORLNC1 REGULATES BONE MASS BY DIRECTING MESENCHYMAL STEM CELL FATE
Human-Induced Pluripotent Stem Cells-Derived Corneal Endothelial-Like Cells Promote Corneal Transparency in a Rabbit Model of Bullous Keratopathy
Sun, BQ, Bikkuzin, T, Li, XR, Shi, Y, Zhang, H (2021)
for a substitute for the CE. Stem cells are becoming increasingly common for the treatment of human
The role and mechanism of claudins in cancer
De-Wen, Wang, Wei-Han, Zhang, Galiullin, Danil (2022)
to regulate cell proliferation, cell growth, metabolism, metastasis and cell stemness. Epithelial-to-mesenchymal
HUMAN INDUCED PLURIPOTENT STEM CELL LINE HMUI001-A DERIVED FROM CORNEAL STROMAL CELLS
Bikkuzin, T., Shi, Y., Sun, B., Guo, Y., Jin, X., Han, Z., V.N. Pavlov, Zhang, H. (2019)
A human corneal stroma induced pluripotent stem cell (HMUi001-A) line was created from primary
Hyaluronic acid bisphosphonates as antifouling antimicrobial coatings for PEO-modified titanium implants
Parfenova, L.V., Galimshina, Z.R., Gil'fanova, G.U., Alibaeva, E.I., Danilko, K.V., Pashkova, T.M., Kartashova, O.L., Farrakhov, R.G., Mukaeva, V.R., Parfenov, E.V., Nagumothu, R., Valiev, R.Z. (2022)
the viability of fibroblasts (by 20–40%), osteoblast-like cells MG-63 (by 30–60%), and mesenchymal stem cells

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