Dynamic Systems Based on Elastin-Like Recombinamers Carlos Rodríguez Cabello, Bioforge Lab, University of Valladolid CIBER-BBN The use of recombinant technology in the production of macromolecule-based advanced biomaterials has caused a breakthrough increase in achievable degree of complexity and control on the molecular designs and compositions. Those recombinant macromolecules of polpeptide nature are called recombinamers. They ... Read more
IBEC Seminar
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Dynamic Systems Based on Elastin-Like Recombinamers Carlos Rodríguez Cabello, Bioforge Lab, University of Valladolid CIBER-BBN The use of recombinant technology in the production of macromolecule-based advanced biomaterials has caused a breakthrough increase in achievable degree of complexity and control on the molecular designs and compositions. Those recombinant macromolecules of polpeptide nature are called recombinamers. They ... Read more
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Dynamic Systems Based on Elastin-Like Recombinamers Carlos Rodríguez Cabello, Bioforge Lab, University of Valladolid CIBER-BBN The use of recombinant technology in the production of macromolecule-based advanced biomaterials has caused a breakthrough increase in achievable degree of complexity and control on the molecular designs and compositions. Those recombinant macromolecules of polpeptide nature are called recombinamers. They ... Read more |
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Mechanical control of cell division Martijn Gloerich, UMC Utrecth, Center for Molecular Medicine, Molecular Cancer Research During development and adult tissue homeostasis, cellular behavior is controlled by signals that cells receive from their local environment. This is not limited to biochemical signals, as cell behavior can be instructed by mechanical forces exerted by neighbouring cells ... Read more
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Mechanical control of cell division Martijn Gloerich, UMC Utrecth, Center for Molecular Medicine, Molecular Cancer Research During development and adult tissue homeostasis, cellular behavior is controlled by signals that cells receive from their local environment. This is not limited to biochemical signals, as cell behavior can be instructed by mechanical forces exerted by neighbouring cells ... Read more
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Mechanical control of cell division Martijn Gloerich, UMC Utrecth, Center for Molecular Medicine, Molecular Cancer Research During development and adult tissue homeostasis, cellular behavior is controlled by signals that cells receive from their local environment. This is not limited to biochemical signals, as cell behavior can be instructed by mechanical forces exerted by neighbouring cells ... Read more |
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