Soluble collagen dissolution and assembling in pressurized carbon dioxide water solutions

Soluble collagen dissolution and assembling in pressurized carbon dioxide water solutions

Dissolution and gelation procedures have a great influence on gelation time, microstructure and mechanical properties of reconstituted collagen products. We have investigated the dissolution of atelocollagen in CO2/water solutions at low temperature (4 °C) at different CO2 pressures (0.3–0.9 MPa), a...

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Main Authors: L. Zubal, W. Bonani, D. Maniglio, R. Ceccato, D. Renciuk, A. Hampl, C. Migliaresi, J. Jancar, L. Vojtova
Format: Article
Language:English
Published: Budapest University of Technology 2018-02-01
Series:eXPRESS Polymer Letters
Subjects:
Biocompatible polymers
collagen fibrillogenesis
structural analysis
collagen viscoelastic properti
protein self-assembly
Online Access:http://www.expresspolymlett.com/letolt.php?file=EPL-0008576&mi=cd
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spelling doaj-3aa82c147e26443984aefd62485bffac2020-11-24T21:23:19ZengBudapest University of Technology eXPRESS Polymer Letters1788-618X2018-02-0112215917010.3144/expresspolymlett.2018.14Soluble collagen dissolution and assembling in pressurized carbon dioxide water solutionsL. ZubalW. BonaniD. ManiglioR. CeccatoD. RenciukA. HamplC. MigliaresiJ. JancarL. VojtovaDissolution and gelation procedures have a great influence on gelation time, microstructure and mechanical properties of reconstituted collagen products. We have investigated the dissolution of atelocollagen in CO2/water solutions at low temperature (4 °C) at different CO2 pressures (0.3–0.9 MPa), as well as gelation kinetics and physico-chemical properties of the hydrogel obtained after CO2 removal. Compared to conventional methods, the CO2-assisted technique resulted in faster soluble collagen dissolution and faster gelation into transparent gels characterized by thin 10 nm fibrils. Electrophoresis and CD spectroscopy demonstrated that the process did not denature the soluble collagen. The possibility to obtain collagen dissolution and gelation without the use of chemical agent other than water and CO2 makes this process particularly appealing for biomedical applications.http://www.expresspolymlett.com/letolt.php?file=EPL-0008576&mi=cdBiocompatible polymerscollagen fibrillogenesisstructural analysiscollagen viscoelastic propertiprotein self-assembly
collection DOAJ
language English
format Article
sources DOAJ
author L. Zubal
W. Bonani
D. Maniglio
R. Ceccato
D. Renciuk
A. Hampl
C. Migliaresi
J. Jancar
L. Vojtova
spellingShingle L. Zubal
W. Bonani
D. Maniglio
R. Ceccato
D. Renciuk
A. Hampl
C. Migliaresi
J. Jancar
L. Vojtova
Soluble collagen dissolution and assembling in pressurized carbon dioxide water solutions
eXPRESS Polymer Letters
Biocompatible polymers
collagen fibrillogenesis
structural analysis
collagen viscoelastic properti
protein self-assembly
author_facet L. Zubal
W. Bonani
D. Maniglio
R. Ceccato
D. Renciuk
A. Hampl
C. Migliaresi
J. Jancar
L. Vojtova
author_sort L. Zubal
title Soluble collagen dissolution and assembling in pressurized carbon dioxide water solutions
title_short Soluble collagen dissolution and assembling in pressurized carbon dioxide water solutions
title_full Soluble collagen dissolution and assembling in pressurized carbon dioxide water solutions
title_fullStr Soluble collagen dissolution and assembling in pressurized carbon dioxide water solutions
title_full_unstemmed Soluble collagen dissolution and assembling in pressurized carbon dioxide water solutions
title_sort soluble collagen dissolution and assembling in pressurized carbon dioxide water solutions
publisher Budapest University of Technology
series eXPRESS Polymer Letters
issn 1788-618X
publishDate 2018-02-01
description Dissolution and gelation procedures have a great influence on gelation time, microstructure and mechanical properties of reconstituted collagen products. We have investigated the dissolution of atelocollagen in CO2/water solutions at low temperature (4 °C) at different CO2 pressures (0.3–0.9 MPa), as well as gelation kinetics and physico-chemical properties of the hydrogel obtained after CO2 removal. Compared to conventional methods, the CO2-assisted technique resulted in faster soluble collagen dissolution and faster gelation into transparent gels characterized by thin 10 nm fibrils. Electrophoresis and CD spectroscopy demonstrated that the process did not denature the soluble collagen. The possibility to obtain collagen dissolution and gelation without the use of chemical agent other than water and CO2 makes this process particularly appealing for biomedical applications.
topic Biocompatible polymers
collagen fibrillogenesis
structural analysis
collagen viscoelastic properti
protein self-assembly
url http://www.expresspolymlett.com/letolt.php?file=EPL-0008576&mi=cd
work_keys_str_mv AT lzubal solublecollagendissolutionandassemblinginpressurizedcarbondioxidewatersolutions
AT wbonani solublecollagendissolutionandassemblinginpressurizedcarbondioxidewatersolutions
AT dmaniglio solublecollagendissolutionandassemblinginpressurizedcarbondioxidewatersolutions
AT rceccato solublecollagendissolutionandassemblinginpressurizedcarbondioxidewatersolutions
AT drenciuk solublecollagendissolutionandassemblinginpressurizedcarbondioxidewatersolutions
AT ahampl solublecollagendissolutionandassemblinginpressurizedcarbondioxidewatersolutions
AT cmigliaresi solublecollagendissolutionandassemblinginpressurizedcarbondioxidewatersolutions
AT jjancar solublecollagendissolutionandassemblinginpressurizedcarbondioxidewatersolutions
AT lvojtova solublecollagendissolutionandassemblinginpressurizedcarbondioxidewatersolutions
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