Publikation: Ultrafast Structural Dynamics of the Photocleavage of Protein Hybrid Nanoparticles
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2011
Autor:innen
Ibrahimkutty, Shyjumon
Kim, Jangbae
Cammarata, Marco
Ewald, Friederike
Choi, Jungkweon
Ihee, Hyotcherl
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ACS Nano. ACS Publications. 2011, 5(5), pp. 3788-3794. ISSN 1936-0851. eISSN 1936-086X. Available under: doi: 10.1021/nn200120e
Zusammenfassung
Protein-coated gold nanoparticles in suspension are excited by intense laser pulses to mimic the light-induced effect on biomolecules that occur in photothermal laser therapy with nanoparticles as photosensitizer. Ultrafast X-ray scattering employed to access the nanoscale structural modifications of the protein–nanoparticle hybrid reveals that the protein shell is expelled as a whole without denaturation at a laser fluence that coincides with the bubble formation threshold. In this ultrafast heating mediated by the nanoparticles, time-resolved scattering data show that proteins are not denatured in terms of secondary structure even at much higher temperatures than the static thermal denaturation temperature, probably because time is too short for the proteins to unfold and the temperature stimulus has vanished before this motion sets in. Consequently the laser pulse length has a strong influence on whether the end result is the ligand detachment (for example drug delivery) or biomaterial degradation.
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IBRAHIMKUTTY, Shyjumon, Jangbae KIM, Marco CAMMARATA, Friederike EWALD, Jungkweon CHOI, Hyotcherl IHEE, Anton PLECH, 2011. Ultrafast Structural Dynamics of the Photocleavage of Protein Hybrid Nanoparticles. In: ACS Nano. ACS Publications. 2011, 5(5), pp. 3788-3794. ISSN 1936-0851. eISSN 1936-086X. Available under: doi: 10.1021/nn200120eBibTex
@article{Ibrahimkutty2011-05-24Ultra-51223,
year={2011},
doi={10.1021/nn200120e},
title={Ultrafast Structural Dynamics of the Photocleavage of Protein Hybrid Nanoparticles},
number={5},
volume={5},
issn={1936-0851},
journal={ACS Nano},
pages={3788--3794},
author={Ibrahimkutty, Shyjumon and Kim, Jangbae and Cammarata, Marco and Ewald, Friederike and Choi, Jungkweon and Ihee, Hyotcherl and Plech, Anton}
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<dcterms:abstract xml:lang="eng">Protein-coated gold nanoparticles in suspension are excited by intense laser pulses to mimic the light-induced effect on biomolecules that occur in photothermal laser therapy with nanoparticles as photosensitizer. Ultrafast X-ray scattering employed to access the nanoscale structural modifications of the protein–nanoparticle hybrid reveals that the protein shell is expelled as a whole without denaturation at a laser fluence that coincides with the bubble formation threshold. In this ultrafast heating mediated by the nanoparticles, time-resolved scattering data show that proteins are not denatured in terms of secondary structure even at much higher temperatures than the static thermal denaturation temperature, probably because time is too short for the proteins to unfold and the temperature stimulus has vanished before this motion sets in. Consequently the laser pulse length has a strong influence on whether the end result is the ligand detachment (for example drug delivery) or biomaterial degradation.</dcterms:abstract>
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