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Pivot Concepts:
Gene/Protein
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Target Concepts:
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Query: UMLS:C1832588 (
PSS
)
2,979
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
PPy is a conducting polymer material that has been widely investigated for biomedical applications. hESCs and adult rNSCs were grown on four PPy surfaces doped with
PSS
or peptide from laminin (
p20
, p31, and a mixture of
p20
and p31) respectively. After 7 d, both PPy/
p20
and PPy/p31 promoted neuroectoderm formation from hESCs. After 14 d of culture, surfaces containing
p20
showed the highest percentage of neuronal differentiation from hESC, while the PPy/p31 surface showed better cell attachment and spreading. In rNSCs cultures, a higher percentage of neurons were found on the PPy/
p20
surface than other surfaces at 7 and 14 d. For differentiated neurons,
p20
promoted both the primary and total neurite outgrowth. Longer primary neurites were found on
p20
-containing surfaces and a longer total neurite length was found on PPy/
p20
surface. These results demonstrated that, by doping PPy with different bioactive peptides, differentiation of stem cells seeded at different stages of development is affected.
...
PMID:Enhanced differentiation of embryonic and neural stem cells to neuronal fates on laminin peptides doped polypyrrole. 2095 99
Advanced materials that are highly biocompatible and easily modifiable with biomolecules are of great importance for bio-interfacing and the development of biodevices. Here, a biocompatible conducting polymer based nanocomposite was electrochemically synthesized through the electropolymerization of poly(3, 4-ethylene dioxythiophene) (PEDOT) in the presence of graphene oxide (GO) as the only dopant. GO contains many negatively charged carboxyl functional groups and is highly dispersible in aqueous solutions, enabling its facile incorporation and even distribution throughout the conducting polymer. PEDOT/GO films exhibited minimal cytotoxicity after 24 h and supported neuron growth with significantly longer neurites than a control PEDOT/
PSS
film, indicating that the PEDOT/GO film provides a positive growth signal to developing neurons. While some of the negatively charged functional carboxyl groups of GO "dope" the PEDOT, others are exposed freely on the surface of the nanocomposite allowing easy functionalization of the PEDOT/GO composite with biomolecules. Functional laminin peptide, RNIAEIIKDI (
p20
), was covalently bound to the surface of the PEDOT/GO film and maintained its bioactivity, as evidenced by an increased neurite outgrowth from neurons cultured on the functionalized composite surface. The ease of biomolecule functionalization of the PEDOT/GO nanocomposite, along with its low electrochemical impedance, minimal toxicity and permissiveness to neuron growth, underlines its potential as a material for widespread biosensing, neural interfacing and tissue engineering applications.
...
PMID:Pure Graphene Oxide Doped Conducting Polymer Nanocomposite for Bio-interfacing. 2598 40
