02715nam 2200481 450 991082251010332120220825042313.01-4704-5456-4(CKB)4100000010659555(MiAaPQ)EBC6132442(RPAM)21417990(EXLCZ)99410000001065955520220822h2020 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierTopology and geometry of biopolymers AMS Special Session on Topology of Biopolymers, April 21-22, 2018, Northeastern University, Boston, Massachusetts /Erica Flapan, Helen Wong, editorsProvidence, Rhode Island :American Mathematical Society,[2020]©20201 online resource (248 pages)Contemporary mathematics,7460271-4132Includes bibliographical references.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 non-coherent band surgery model for site-specific 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.Contemporary mathematics (American Mathematical Society).7460271-4132BiopolymersMathematicsCongressesTopologyCongressesKnot theoryCongressesBiopolymersMathematicsTopologyKnot theory57257M2557M2705C1092C0592C4092D2092E1082D6082B4165C05mscFlapan Erica1956-1723495Wong Helen1978-MiAaPQMiAaPQMiAaPQBOOK9910822510103321Topology and geometry of biopolymers4124806UNINA