Frankel:Cyberplasm: Difference between revisions
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''<font align=" | ''<font align="center" font color=#ffffff font size=8>_________ </font>'''''<font color=#000000 font size=6>Biohybrid Machines </font>''' | ||
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''<font align="center" font color=#ffffff font size=8>_______ </font>'''''<font color=#000000 font size=3>Cyberplasm</font>''' | |||
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[[Image:Cyberplasm.png|500px]] | |||
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[[Image:FNselec.png|235px]] | |||
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[[Image: | [[Image:FNseleczoom.png|235px]] | ||
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[[Image:FN_complexes.jpg|235px]] | |||
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[[Image:FN_adsorbed.jpg|235px]] | |||
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'''<font color=#000000 font size=3> One of the major components of the extracellular matrix (ECM) is fibronectin, this dimeric glycoprotein is involved in numerous cell processes and has important functions in vertebrate development. | |||
Fibronectin in the extracellular matrix interacts with the transmembrane integrins in a highly specific manner. The ECM ligand protein contains a tripeptide recognition site, Arg-Gly-Asp (RGD), responsible for the affinity of the cell surface receptors with its ligand. | |||
Atomic force microscopy images can be appreciated, these illustrations depict how fibronectin molecules are almost exclusively absorbed on the DPPC domains. |
Latest revision as of 10:16, 2 March 2013
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Home=Frankel
Members=#,Principal Investigator=Frankel:Lab_Members, PhD students=Frankel:Lab_Members, Alumni=Frankel:Lab_Members
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Publications=Frankel:Publications
Lab=Frankel:Research
Research=#,Force Spectroscopy=Frankel:Force Spectroscopy,HIV/Virus=Frankel:HIV/Virus,ECM Proteins=Frankel:ECM Proteins,Cyberplasm=Frankel:Cyberplasm,Cancer=Frankel:Cancer
_________ Biohybrid Machines
_______ Cyberplasm |
| |
One of the major components of the extracellular matrix (ECM) is fibronectin, this dimeric glycoprotein is involved in numerous cell processes and has important functions in vertebrate development. Fibronectin in the extracellular matrix interacts with the transmembrane integrins in a highly specific manner. The ECM ligand protein contains a tripeptide recognition site, Arg-Gly-Asp (RGD), responsible for the affinity of the cell surface receptors with its ligand. Atomic force microscopy images can be appreciated, these illustrations depict how fibronectin molecules are almost exclusively absorbed on the DPPC domains. |