Gutenberg Open Science: Electrostatically self-assembled nanoparticles based on biomolecules

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DC Element	Wert	Sprache
dc.contributor.author	Li, Yi
dc.date.accessioned	2010-02-22T13:16:48Z
dc.date.available	2010-02-22T14:16:48Z
dc.date.issued	2010
dc.identifier.uri	https://openscience.ub.uni-mainz.de/handle/20.500.12030/1640	-
dc.description.abstract	In this work, two different systems were investigated to develop fundamental understanding of the self-assembly behavior of polyelectrolytes and small organic counterions with a certain geometry. Complexes formed were characterized by light scattering in solution, as well as UV-Vis spectroscopy, analytical ultracentrifugation, gel electrophoresis, zeta potential and IR spectroscopy. The morphologies of the aggregates were observed by AFM in dried state on surface. The charge ratio, the valence and the structure of the counterion were shown to represent key parameters in the complexation. The influence of polyelectrolyte type and molecular weights was also determined for the structure formed.rnrnOne system was mainly focused on the association of double-strand DNA with non-intercalating divalent and tetravalent organic counterions. The other model system involved linear NaPSS and oligolysines. In addition, various influences on the morphology of the charged self-assembly complexes in AFM studies were discussed. It was shown that electrostatic self-assembly of DNA and non-intercalating counterions as well as of a linear synthetic polyelectrolyte with oligolysine counterions that can build mutual hydrogen bonds can yield supramolecular aggregates of a defined size. Various morphologies (flower-like, rod-like, toroidal and spherical) of the assemblies were obtained for different combinations of polyelectrolyte and counterions. Results presented in this work are of importance for the fundamental understanding of the association behavior of various polyelectrolytes and organic counterions. The selection of biopolymers for the study may give an opportunity to transfer the basic research results into biological applications, such as gene therapy or drug delivery.rn	en_GB
dc.language.iso	eng
dc.rights	InCopyright	de_DE
dc.rights.uri	https://rightsstatements.org/vocab/InC/1.0/
dc.subject.ddc	540 Chemie	de_DE
dc.subject.ddc	540 Chemistry and allied sciences	en_GB
dc.title	Electrostatically self-assembled nanoparticles based on biomolecules	en_GB
dc.type	Dissertation	de_DE
dc.identifier.urn	urn:nbn:de:hebis:77-21995
dc.identifier.doi	http://doi.org/10.25358/openscience-1638	-
jgu.type.dinitype	doctoralThesis
jgu.type.version	Original work	en_GB
jgu.type.resource	Text
jgu.organisation.department	FB 09 Chemie, Pharmazie u. Geowissensch.	-
jgu.organisation.year	2010
jgu.organisation.number	7950	-
jgu.organisation.name	Johannes Gutenberg-Universität Mainz	-
jgu.rights.accessrights	openAccess	-
jgu.organisation.place	Mainz	-
jgu.subject.ddccode	540
opus.date.accessioned	2010-02-22T13:16:48Z
opus.date.modified	2010-02-22T13:16:48Z
opus.date.available	2010-02-22T14:16:48
opus.subject.other	Elektrostatische Selbstorganisation , DNA , Lichtstreuung , AFM , Multivalente organische Gegenionen	de_DE
opus.subject.other	Electrostatic Self-Assembly , DNA , Light Scattering , AFM , Multivalent Organic Counterions	en_GB
opus.organisation.string	FB 09: Chemie, Pharmazie und Geowissenschaften: FB 09: Chemie, Pharmazie und Geowissenschaften	de_DE
opus.identifier.opusid	2199
opus.institute.number	0900
opus.metadataonly	false
opus.type.contenttype	Dissertation	de_DE
opus.type.contenttype	Dissertation	en_GB
jgu.organisation.ror	https://ror.org/023b0x485
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