Description 
1 online resource 
Series 
Contemporary mathematics, 02714132 ; volume 746 

Contemporary mathematics (American Mathematical Society) ; v. 746.

Contents 
Beyond the static DNA model of Watson and Crick / Jonathan M. Fogg and Lynn Zechiedrich  Characterizing the topology of kinoplast DNA using random knotting / Pengyu Liu, Ryan Polischuk, Yunan Diao, and Javier Arsuaga  Did sequence dependent geometry influence the evolution of the genetic code? / Alex Kasman and Brenton LeMesurier  Topological sum rules in the knotting probabilities of DNA / Tetsuo Deguchi and Erica Uehara  Knotting of replication intermediates is narrowly restricted / Dorothy Buck and Danielle O'Donnol  Recent advances on the noncoherent band surgery model for sitespecific recombination / Allison H. Moore and Mariel Vazquez  Why are there knots in proteins? / Sophie Jackson  Knotted proteins : tie etiquette in structural biology / Ana Nunes and Patricia Faisca  Knotoids and protein structure / Dimoklis Gkountaroulis, Julien Dorier, and Andrzej Stasiak  Topological linking and entanglement in proteins / Kenneth C. Millett  A topological study of protein folding kinetics / Eleni Panagiotou and Kevin W. Plaxco 
Summary 
This book contains the proceedings of the AMS Special Session on Topology of Biopolymers, held from April 2122, 2018, at Northeastern University, Boston, MA. The papers cover recent results on the topology and geometry of DNA and protein knotting using techniques from knot theory, spatial graph theory, differential geometry, molecular simulations, and laboratory experimentation. They include current work on the following topics: the density and supercoiling of DNA minicircles; the dependence of DNA geometry on its amino acid sequence; random models of DNA knotting; topological models of DNA r 
Bibliography 
Includes bibliographical references 
Notes 
Print version record 
Subject 
Biopolymers  Mathematics  Congresses


Topology  Congresses


Knot theory  Congresses


Biopolymers.


Biopolymers


Biopolymers.


Biopolymers  Mathematics.


Knot theory.


Manifolds and cell complexes {For complex manifolds, see 32Qxx}  Lowdimensional topology  Knots and links in $S3$ {For higher dimensions, see 57Q45.


Manifolds and cell complexes {For complex manifolds, see 32Qxx}  Lowdimensional topology  Invariants of knots and 3manifolds.


Combinatorics {For finite fields, see 11Txx}  Graph theory {For applications of graphs, see 68R10, 81Q30, 81T15, 82B20, 82C20, 90C35, 92E10, 94C15}  Planar graphs; geometric and topological aspect.


Biology and other natural sciences  Physiological, cellular and medical topics  Biophysics.


Biology and other natural sciences  Physiological, cellular and medical topics  Biochemistry, molecular biology.


Biology and other natural sciences  Genetics and population dynamics  Protein sequences, DNA sequences.


Topology.


Biology and other natural sciences  Chemistry {For biochemistry, see 92C40}  Molecular structure (graphtheoretic methods, methods of differential topology, etc.)


Statistical mechanics, structure of matter  Applications to specific types of physical systems  Polymers.


Statistical mechanics, structure of matter  Equilibrium statistical mechanics  Random walks, random surfaces, lattice animals, etc. [See also 60G50, 82C41].


Numerical analysis  Probabilistic methods, simulation and stochastic differential equations {For theoretical aspects, see 68U20 and 60H35}  Monte Carlo methods.

Genre/Form 
Conference papers and proceedings.

Form 
Electronic book

Author 
Flapan, Erica, 1956 editor.


Wong, Helen, 1978 editor.

LC no. 
2019040106 
ISBN 
9781470448400 

1470448408 

1470454564 

9781470454562 
