Cytoskeletal changes of mesenchymal stem cells during differentiation.

@article{Yourek2007CytoskeletalCO,
  title={Cytoskeletal changes of mesenchymal stem cells during differentiation.},
  author={Gregory Yourek and Mohammad Asif Hussain and Jeremy J Mao},
  journal={ASAIO journal},
  year={2007},
  volume={53 2},
  pages={219-28}
}
Mesenchymal stem cells (MSCs) are progenitors for tissues such as bone and cartilage. In this report, the actin cytoskeleton and nanomechanobiology of human mesenchymal stem cells (hMSCs) were studied using fluorescence microscopy and atomic force microscopy (AFM). Human MSCs were differentiated into chondrocytes and osteoblasts as per previous approaches. Cytochalasin D (CytD) was used to temporarily disrupt cytoskeleton in hMSCs, hMSC-chondrocytes (hMSC-Cys) and hMSC-osteoblasts (hMSC-Obs… CONTINUE READING

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CartilageSibling in is aBone Tissue
Mesenchymal stem cells ( MSCs ) are progenitors for tissues such as bone and cartilage .
Bone TissueSibling in is aCartilage
Mesenchymal stem cells ( MSCs ) are progenitors for tissues such as bone and cartilage .
Mesenchymal stem cells ( MSCs ) are progenitors for tissues such as bone and cartilage .
Mesenchymal stem cells ( MSCs ) are progenitors for tissues such as bone and cartilage .
In this report , the actin cytoskeleton and nanomechanobiology of human mesenchymal stem cells ( hMSCs ) were studied using fluorescence microscopy and atomic force microscopy ( AFM ) .
In this report , the actin cytoskeleton and nanomechanobiology of human mesenchymal stem cells ( hMSCs ) were studied using fluorescence microscopy and atomic force microscopy ( AFM ) .
In this report , the actin cytoskeleton and nanomechanobiology of human mesenchymal stem cells ( hMSCs ) were studied using fluorescence microscopy and atomic force microscopy ( AFM ) .
In this report , the actin cytoskeleton and nanomechanobiology of human mesenchymal stem cells ( hMSCs ) were studied using fluorescence microscopy and atomic force microscopy ( AFM ) .
Human MSCs were differentiated into chondrocytes and osteoblasts as per previous approaches .
Cytochalasin D ( CytD ) was used to temporarily disrupt cytoskeleton in hMSCs , hMSC - chondrocytes ( hMSC - Cys ) and hMSC - osteoblasts ( hMSC - Obs ) .
Cytochalasin D ( CytD ) was used to temporarily disrupt cytoskeleton in hMSCs , hMSC - chondrocytes ( hMSC - Cys ) and hMSC - osteoblasts ( hMSC - Obs ) .
Human MSCs were differentiated into chondrocytes and osteoblasts as per previous approaches .
OsteoblastsSibling in is aChondrocyte
Human MSCs were differentiated into chondrocytes and osteoblasts as per previous approaches .
Cytochalasin D ( CytD ) was used to temporarily disrupt cytoskeleton in hMSCs , hMSC - chondrocytes ( hMSC - Cys ) and hMSC - osteoblasts ( hMSC - Obs ) .
ChondrocyteSibling in is aOsteoblasts
Cytochalasin D ( CytD ) was used to temporarily disrupt cytoskeleton in hMSCs , hMSC - chondrocytes ( hMSC - Cys ) and hMSC - osteoblasts ( hMSC - Obs ) .
Human MSCs were differentiated into chondrocytes and osteoblasts as per previous approaches .
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