Effect of electrostatic interactions on binding and retention of DNA oligomers to PNA liposomes assessed by FRET measurements.
Identifieur interne : 002137 ( PubMed/Checkpoint ); précédent : 002136; suivant : 002138Effect of electrostatic interactions on binding and retention of DNA oligomers to PNA liposomes assessed by FRET measurements.
Auteurs : Bruno F. Marques [États-Unis] ; James W. SchneiderSource :
- Colloids and surfaces. B, Biointerfaces [ 1873-4367 ] ; 2006.
Descripteurs français
- KwdFr :
- MESH :
English descriptors
- KwdEn :
- MESH :
- chemical , chemistry : DNA, Liposomes, Peptide Nucleic Acids.
- methods : Biosensing Techniques, Fluorescence Resonance Energy Transfer.
- Static Electricity.
Abstract
A FRET-based method is used to observe the desorption of di-alkyl peptide nucleic acid amphiphiles (PNAA) from liposomes occurring on binding of complementary DNA oligomers. PNA liposomes were prepared containing fluorescein-labeled PNAA and rhodamine-labeled dipalmitoylphosphoethanolamine (DPPE). These liposomes showed efficient energy transfer from the fluorescein to rhodamine, with an average donor-to-acceptor distance of 5.91nm. In low-ionic-strength buffer (50mM Tris-HCl, pH 8.0), the FRET signal was maintained in the presence of a stoichiometric amount of 10- and 20-mers DNA complements, but the signal attenuated for 40-mer complements, indicating that DNA first binds the PNAA before the PNAA/DNA duplex desorbs from the lipid bilayer. The FRET signal was maintained in the presence of 10-, 20-, 40-, and 60-mer DNA in high ionic-strength buffer, showing that the driving force for the desorption is electrostatic repulsion between the bound DNA oligomer and the liposome surface. This conclusion is corroborated by comparison of the PNA/DNA binding energy, the energy of adsorption of the di-alkyl PNAA to the lipid bilayer, and a calculation of the DNA/lipid bilayer electrostatic repulsion using the linearized Poisson-Boltzmann equation.
DOI: 10.1016/j.colsurfb.2006.07.007
PubMed: 16934441
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B, Biointerfaces</title><idno type="eISSN">1873-4367</idno><imprint><date when="2006" type="published">2006</date></imprint></series></biblStruct></sourceDesc></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Biosensing Techniques (methods)</term><term>DNA (chemistry)</term><term>Fluorescence Resonance Energy Transfer (methods)</term><term>Liposomes (chemistry)</term><term>Peptide Nucleic Acids (chemistry)</term><term>Static Electricity</term></keywords><keywords scheme="KwdFr" xml:lang="fr"><term>ADN ()</term><term>Acides nucléiques peptidiques ()</term><term>Liposomes ()</term><term>Techniques de biocapteur ()</term><term>Transfert d'énergie par résonance de fluorescence ()</term><term>Électricité statique</term></keywords><keywords scheme="MESH" type="chemical" qualifier="chemistry" xml:lang="en"><term>DNA</term><term>Liposomes</term><term>Peptide Nucleic Acids</term></keywords><keywords scheme="MESH" qualifier="methods" xml:lang="en"><term>Biosensing Techniques</term><term>Fluorescence Resonance Energy Transfer</term></keywords><keywords scheme="MESH" xml:lang="en"><term>Static Electricity</term></keywords><keywords scheme="MESH" xml:lang="fr"><term>ADN</term><term>Acides nucléiques peptidiques</term><term>Liposomes</term><term>Techniques de biocapteur</term><term>Transfert d'énergie par résonance de fluorescence</term><term>Électricité statique</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">A FRET-based method is used to observe the desorption of di-alkyl peptide nucleic acid amphiphiles (PNAA) from liposomes occurring on binding of complementary DNA oligomers. PNA liposomes were prepared containing fluorescein-labeled PNAA and rhodamine-labeled dipalmitoylphosphoethanolamine (DPPE). These liposomes showed efficient energy transfer from the fluorescein to rhodamine, with an average donor-to-acceptor distance of 5.91nm. In low-ionic-strength buffer (50mM Tris-HCl, pH 8.0), the FRET signal was maintained in the presence of a stoichiometric amount of 10- and 20-mers DNA complements, but the signal attenuated for 40-mer complements, indicating that DNA first binds the PNAA before the PNAA/DNA duplex desorbs from the lipid bilayer. The FRET signal was maintained in the presence of 10-, 20-, 40-, and 60-mer DNA in high ionic-strength buffer, showing that the driving force for the desorption is electrostatic repulsion between the bound DNA oligomer and the liposome surface. This conclusion is corroborated by comparison of the PNA/DNA binding energy, the energy of adsorption of the di-alkyl PNAA to the lipid bilayer, and a calculation of the DNA/lipid bilayer electrostatic repulsion using the linearized Poisson-Boltzmann equation.</div></front></TEI><pubmed><MedlineCitation Status="MEDLINE" Owner="NLM"><PMID Version="1">16934441</PMID><DateCompleted><Year>2009</Year><Month>04</Month><Day>20</Day></DateCompleted><DateRevised><Year>2009</Year><Month>10</Month><Day>16</Day></DateRevised><Article PubModel="Print-Electronic"><Journal><ISSN IssnType="Electronic">1873-4367</ISSN><JournalIssue CitedMedium="Internet"><Volume>53</Volume><Issue>1</Issue><PubDate><Year>2006</Year><Month>Nov</Month><Day>01</Day></PubDate></JournalIssue><Title>Colloids and surfaces. B, Biointerfaces</Title><ISOAbbreviation>Colloids Surf B Biointerfaces</ISOAbbreviation></Journal><ArticleTitle>Effect of electrostatic interactions on binding and retention of DNA oligomers to PNA liposomes assessed by FRET measurements.</ArticleTitle><Pagination><MedlinePgn>1-8</MedlinePgn></Pagination><Abstract><AbstractText>A FRET-based method is used to observe the desorption of di-alkyl peptide nucleic acid amphiphiles (PNAA) from liposomes occurring on binding of complementary DNA oligomers. PNA liposomes were prepared containing fluorescein-labeled PNAA and rhodamine-labeled dipalmitoylphosphoethanolamine (DPPE). These liposomes showed efficient energy transfer from the fluorescein to rhodamine, with an average donor-to-acceptor distance of 5.91nm. In low-ionic-strength buffer (50mM Tris-HCl, pH 8.0), the FRET signal was maintained in the presence of a stoichiometric amount of 10- and 20-mers DNA complements, but the signal attenuated for 40-mer complements, indicating that DNA first binds the PNAA before the PNAA/DNA duplex desorbs from the lipid bilayer. The FRET signal was maintained in the presence of 10-, 20-, 40-, and 60-mer DNA in high ionic-strength buffer, showing that the driving force for the desorption is electrostatic repulsion between the bound DNA oligomer and the liposome surface. This conclusion is corroborated by comparison of the PNA/DNA binding energy, the energy of adsorption of the di-alkyl PNAA to the lipid bilayer, and a calculation of the DNA/lipid bilayer electrostatic repulsion using the linearized Poisson-Boltzmann equation.</AbstractText></Abstract><AuthorList CompleteYN="Y"><Author ValidYN="Y"><LastName>Marques</LastName><ForeName>Bruno F</ForeName><Initials>BF</Initials><AffiliationInfo><Affiliation>Department of Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA 15213-3890, USA.</Affiliation></AffiliationInfo></Author><Author ValidYN="Y"><LastName>Schneider</LastName><ForeName>James W</ForeName><Initials>JW</Initials></Author></AuthorList><Language>eng</Language><PublicationTypeList><PublicationType UI="D016428">Journal Article</PublicationType><PublicationType UI="D013485">Research Support, Non-U.S. Gov't</PublicationType><PublicationType UI="D013486">Research Support, U.S. Gov't, Non-P.H.S.</PublicationType></PublicationTypeList><ArticleDate DateType="Electronic"><Year>2006</Year><Month>07</Month><Day>16</Day></ArticleDate></Article><MedlineJournalInfo><Country>Netherlands</Country><MedlineTA>Colloids Surf B Biointerfaces</MedlineTA><NlmUniqueID>9315133</NlmUniqueID><ISSNLinking>0927-7765</ISSNLinking></MedlineJournalInfo><ChemicalList><Chemical><RegistryNumber>0</RegistryNumber><NameOfSubstance UI="D008081">Liposomes</NameOfSubstance></Chemical><Chemical><RegistryNumber>0</RegistryNumber><NameOfSubstance UI="D020135">Peptide Nucleic Acids</NameOfSubstance></Chemical><Chemical><RegistryNumber>9007-49-2</RegistryNumber><NameOfSubstance UI="D004247">DNA</NameOfSubstance></Chemical></ChemicalList><CitationSubset>IM</CitationSubset><MeshHeadingList><MeshHeading><DescriptorName UI="D015374" MajorTopicYN="N">Biosensing Techniques</DescriptorName><QualifierName UI="Q000379" MajorTopicYN="Y">methods</QualifierName></MeshHeading><MeshHeading><DescriptorName UI="D004247" MajorTopicYN="N">DNA</DescriptorName><QualifierName UI="Q000737" MajorTopicYN="Y">chemistry</QualifierName></MeshHeading><MeshHeading><DescriptorName UI="D031541" MajorTopicYN="N">Fluorescence Resonance Energy Transfer</DescriptorName><QualifierName UI="Q000379" MajorTopicYN="Y">methods</QualifierName></MeshHeading><MeshHeading><DescriptorName UI="D008081" MajorTopicYN="N">Liposomes</DescriptorName><QualifierName UI="Q000737" MajorTopicYN="Y">chemistry</QualifierName></MeshHeading><MeshHeading><DescriptorName UI="D020135" MajorTopicYN="N">Peptide Nucleic Acids</DescriptorName><QualifierName UI="Q000737" MajorTopicYN="Y">chemistry</QualifierName></MeshHeading><MeshHeading><DescriptorName UI="D055672" MajorTopicYN="Y">Static Electricity</DescriptorName></MeshHeading></MeshHeadingList></MedlineCitation><PubmedData><History><PubMedPubDate PubStatus="received"><Year>2006</Year><Month>06</Month><Day>30</Day></PubMedPubDate><PubMedPubDate PubStatus="revised"><Year>2006</Year><Month>07</Month><Day>07</Day></PubMedPubDate><PubMedPubDate PubStatus="accepted"><Year>2006</Year><Month>07</Month><Day>11</Day></PubMedPubDate><PubMedPubDate PubStatus="pubmed"><Year>2006</Year><Month>8</Month><Day>29</Day><Hour>9</Hour><Minute>0</Minute></PubMedPubDate><PubMedPubDate PubStatus="medline"><Year>2009</Year><Month>4</Month><Day>21</Day><Hour>9</Hour><Minute>0</Minute></PubMedPubDate><PubMedPubDate PubStatus="entrez"><Year>2006</Year><Month>8</Month><Day>29</Day><Hour>9</Hour><Minute>0</Minute></PubMedPubDate></History><PublicationStatus>ppublish</PublicationStatus><ArticleIdList><ArticleId IdType="pubmed">16934441</ArticleId><ArticleId IdType="pii">S0927-7765(06)00215-3</ArticleId><ArticleId IdType="doi">10.1016/j.colsurfb.2006.07.007</ArticleId></ArticleIdList></PubmedData></pubmed><affiliations><list><country><li>États-Unis</li></country><region><li>Pennsylvanie</li></region><settlement><li>Pittsburgh</li></settlement><orgName><li>Université Carnegie-Mellon</li></orgName></list><tree><noCountry><name sortKey="Schneider, James W" sort="Schneider, James W" uniqKey="Schneider J" first="James W" last="Schneider">James W. Schneider</name></noCountry><country name="États-Unis"><region name="Pennsylvanie"><name sortKey="Marques, Bruno F" sort="Marques, Bruno F" uniqKey="Marques B" first="Bruno F" last="Marques">Bruno F. Marques</name></region></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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