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What is the biological relevance of the specific bond properties revealed by single‐molecule studies?

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Zeitschriftentitel: Journal of Molecular Recognition
Personen und Körperschaften: Robert, Philippe, Benoliel, Anne‐Marie, Pierres, Anne, Bongrand, Pierre
In: Journal of Molecular Recognition, 20, 2007, 6, S. 432-447
Format: E-Article
Sprache: Englisch
veröffentlicht:
Wiley
Schlagwörter:
Molecular Biology
Structural Biology
author_facet Robert, Philippe
Benoliel, Anne‐Marie
Pierres, Anne
Bongrand, Pierre
Robert, Philippe
Benoliel, Anne‐Marie
Pierres, Anne
Bongrand, Pierre
author Robert, Philippe
Benoliel, Anne‐Marie
Pierres, Anne
Bongrand, Pierre
spellingShingle Robert, Philippe
Benoliel, Anne‐Marie
Pierres, Anne
Bongrand, Pierre
Journal of Molecular Recognition
What is the biological relevance of the specific bond properties revealed by single‐molecule studies?
Molecular Biology
Structural Biology
author_sort robert, philippe
spelling Robert, Philippe Benoliel, Anne‐Marie Pierres, Anne Bongrand, Pierre 0952-3499 1099-1352 Wiley Molecular Biology Structural Biology http://dx.doi.org/10.1002/jmr.827 <jats:title>Abstract</jats:title><jats:p>During the last decade, many authors took advantage of new methodologies based on atomic force microscopy (AFM), biomembrane force probes (BFPs), laminar flow chambers or optical traps to study at the single‐molecule level the formation and dissociation of bonds between receptors and ligands attached to surfaces. Experiments provided a wealth of data revealing the complexity of bond response to mechanical forces and the dependence of bond rupture on bond history. These results supported the existence of multiple binding states and/or reaction pathways. Also, single bond studies allowed us to monitor attachments mediated by a few bonds. The aim of this review is to discuss the impact of this new information on our understanding of biological molecules and phenomena. The following points are discussed: (i) which parameters do we need to know in order to predict the behaviour of an encounter between receptors and ligands, (ii) which information is actually yielded by single‐molecule studies and (iii) is it possible to relate this information to molecular structure? Copyright © 2007 John Wiley &amp; Sons, Ltd.</jats:p> What is the biological relevance of the specific bond properties revealed by single‐molecule studies? Journal of Molecular Recognition
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title What is the biological relevance of the specific bond properties revealed by single‐molecule studies?
title_unstemmed What is the biological relevance of the specific bond properties revealed by single‐molecule studies?
title_full What is the biological relevance of the specific bond properties revealed by single‐molecule studies?
title_fullStr What is the biological relevance of the specific bond properties revealed by single‐molecule studies?
title_full_unstemmed What is the biological relevance of the specific bond properties revealed by single‐molecule studies?
title_short What is the biological relevance of the specific bond properties revealed by single‐molecule studies?
title_sort what is the biological relevance of the specific bond properties revealed by single‐molecule studies?
topic Molecular Biology
Structural Biology
url http://dx.doi.org/10.1002/jmr.827
publishDate 2007
physical 432-447
description <jats:title>Abstract</jats:title><jats:p>During the last decade, many authors took advantage of new methodologies based on atomic force microscopy (AFM), biomembrane force probes (BFPs), laminar flow chambers or optical traps to study at the single‐molecule level the formation and dissociation of bonds between receptors and ligands attached to surfaces. Experiments provided a wealth of data revealing the complexity of bond response to mechanical forces and the dependence of bond rupture on bond history. These results supported the existence of multiple binding states and/or reaction pathways. Also, single bond studies allowed us to monitor attachments mediated by a few bonds. The aim of this review is to discuss the impact of this new information on our understanding of biological molecules and phenomena. The following points are discussed: (i) which parameters do we need to know in order to predict the behaviour of an encounter between receptors and ligands, (ii) which information is actually yielded by single‐molecule studies and (iii) is it possible to relate this information to molecular structure? Copyright © 2007 John Wiley &amp; Sons, Ltd.</jats:p>
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author Robert, Philippe, Benoliel, Anne‐Marie, Pierres, Anne, Bongrand, Pierre
author_facet Robert, Philippe, Benoliel, Anne‐Marie, Pierres, Anne, Bongrand, Pierre, Robert, Philippe, Benoliel, Anne‐Marie, Pierres, Anne, Bongrand, Pierre
author_sort robert, philippe
container_issue 6
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description <jats:title>Abstract</jats:title><jats:p>During the last decade, many authors took advantage of new methodologies based on atomic force microscopy (AFM), biomembrane force probes (BFPs), laminar flow chambers or optical traps to study at the single‐molecule level the formation and dissociation of bonds between receptors and ligands attached to surfaces. Experiments provided a wealth of data revealing the complexity of bond response to mechanical forces and the dependence of bond rupture on bond history. These results supported the existence of multiple binding states and/or reaction pathways. Also, single bond studies allowed us to monitor attachments mediated by a few bonds. The aim of this review is to discuss the impact of this new information on our understanding of biological molecules and phenomena. The following points are discussed: (i) which parameters do we need to know in order to predict the behaviour of an encounter between receptors and ligands, (ii) which information is actually yielded by single‐molecule studies and (iii) is it possible to relate this information to molecular structure? Copyright © 2007 John Wiley &amp; Sons, Ltd.</jats:p>
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spelling Robert, Philippe Benoliel, Anne‐Marie Pierres, Anne Bongrand, Pierre 0952-3499 1099-1352 Wiley Molecular Biology Structural Biology http://dx.doi.org/10.1002/jmr.827 <jats:title>Abstract</jats:title><jats:p>During the last decade, many authors took advantage of new methodologies based on atomic force microscopy (AFM), biomembrane force probes (BFPs), laminar flow chambers or optical traps to study at the single‐molecule level the formation and dissociation of bonds between receptors and ligands attached to surfaces. Experiments provided a wealth of data revealing the complexity of bond response to mechanical forces and the dependence of bond rupture on bond history. These results supported the existence of multiple binding states and/or reaction pathways. Also, single bond studies allowed us to monitor attachments mediated by a few bonds. The aim of this review is to discuss the impact of this new information on our understanding of biological molecules and phenomena. The following points are discussed: (i) which parameters do we need to know in order to predict the behaviour of an encounter between receptors and ligands, (ii) which information is actually yielded by single‐molecule studies and (iii) is it possible to relate this information to molecular structure? Copyright © 2007 John Wiley &amp; Sons, Ltd.</jats:p> What is the biological relevance of the specific bond properties revealed by single‐molecule studies? Journal of Molecular Recognition
spellingShingle Robert, Philippe, Benoliel, Anne‐Marie, Pierres, Anne, Bongrand, Pierre, Journal of Molecular Recognition, What is the biological relevance of the specific bond properties revealed by single‐molecule studies?, Molecular Biology, Structural Biology
title What is the biological relevance of the specific bond properties revealed by single‐molecule studies?
title_full What is the biological relevance of the specific bond properties revealed by single‐molecule studies?
title_fullStr What is the biological relevance of the specific bond properties revealed by single‐molecule studies?
title_full_unstemmed What is the biological relevance of the specific bond properties revealed by single‐molecule studies?
title_short What is the biological relevance of the specific bond properties revealed by single‐molecule studies?
title_sort what is the biological relevance of the specific bond properties revealed by single‐molecule studies?
title_unstemmed What is the biological relevance of the specific bond properties revealed by single‐molecule studies?
topic Molecular Biology, Structural Biology
url http://dx.doi.org/10.1002/jmr.827