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New kinematic equations are used to model DNA supercoiling. These equations govern the simultaneous production of multiple folding and coiling of a filament in space by diffeomorphism of a reference curve. Here we show how to use these equations to model regions of highly localized filament coiling, where mechanisms of proteic coding or viral spooling are important.

Ricca, R., Maggioni, F. (2007). DNA supercoiling modeling of nucleosome and viral spooling. PROCEEDINGS IN APPLIED MATHEMATICS AND MECHANICS, 7(1), 2120011-2120012 [10.1002/pamm.200700421].

DNA supercoiling modeling of nucleosome and viral spooling

RICCA, RENZO;
2007

Abstract

New kinematic equations are used to model DNA supercoiling. These equations govern the simultaneous production of multiple folding and coiling of a filament in space by diffeomorphism of a reference curve. Here we show how to use these equations to model regions of highly localized filament coiling, where mechanisms of proteic coding or viral spooling are important.
Articolo in rivista - Articolo scientifico
DNA supercoiling, viral spooling, folding, kinematics
English
2007
7
1
2120011
2120012
none
Ricca, R., Maggioni, F. (2007). DNA supercoiling modeling of nucleosome and viral spooling. PROCEEDINGS IN APPLIED MATHEMATICS AND MECHANICS, 7(1), 2120011-2120012 [10.1002/pamm.200700421].
01 - Articolo su rivista
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/8558
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