Harold A. Scheraga
Cornell University
1160 Papers
25.6K Citations
Harold A. Scheraga is an academic researcher from Cornell University. The author has contributed to research in topics: Protein structure & Protein folding. The author has an hindex of 120, co-authored 1152 publications. Previous affiliations of Harold A. Scheraga include University of Gdańsk & National University of San Luis.
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Papers
Helix-coil transition in multicomponent random copolypeptides in water. 3. Inclusion of nearest-neighbor interactions and application to random copolymers of (hydroxybutyl)-L-glutamine, L-alanine, L-phenylalanine, L-lysine, and glycine
TL;DR: In this article, a theory of transition helice-pelote is presented, which considers l'effet des interactions dues au motif voisin, and a theorie ainsi modifiee rend compte les resultats experimentaux.
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MPSA short communications
Eugene M. Barnes,Patricia A. Calkin,Satoshi Kuroda,Shigemi Norioka,Masanori Mitta,Ikunoshin Kato,Fumio Sakiyama,Heinz Nika,David T. Chow,Daniel Hess,Edward J. Bures,Hamish D. Morrison,Ruedi Aebersold,G. Marius Clore,Angela M. Gronenborn,Bengt Persson,Patrick Argos,Peter James,Andrew C. Cannons,Larry P. Solomonson,Kenneth E. Dombrowski,William E. Moddeman,Stephen E. Wright,Stephen E. Wright,Winona C. Barker,David G. George,Subhendra N. Mattagajasingh,Hara P. Misra,Shuan Shian Huang,Jung San Huang,Y. C. Lee,Wolfgang H. Fischer,A. Grey Craig,Philip N. McFadden,Jonathan A. Lindquist,M. Bartlet-Jones,W. Jeffery,H. F. Hansen,Darryl J. Pappin,Tomas Bergman,Lars Hjelmqvist,Mats Estonius,Hans Jörnvall,Donna S. Dorow,Donna S. Dorow,Harald Tschesche,V. Knäuper,T. Kleine,P. Reinemer,S. Schnierer,F. Grams,Wolfram Bode,Christopher Southan,Kenneth Fantom,Patric Lavery,J. B. C. Findlay,D. Akrigg,T. K. Attwood,M. J. Beck,A. J. Bleasby,A. C.T. North,D. J. Parry-Smith,D. N. Perkins,A. Aitken,Y. Patel,H. Martin,D. Jones,K. Robinson,J. Madrazo,S. Howell,Tom Yungwirth,Michael Affolter,Lawrence N. Amankwa,Harold A. Scheraga,Chao Yuh Yang,Natalia V. Valentinova,Manlan Yang,Zi Wei Gu,Antonio M. Gotto,Norman J. Dovichi,Karen C. Waldron,Min Chen,Ian D. Ireland,Akira Omori,Sachiyo Yoshida,Johann Schaller,Stephan Lengweiler,Egon E. Rickli,José Bubis,Julio O. Ortiz,Carolina Möller,Enrique J. Millán,Victoria L. Boyd,Meri Lisa Bozzini,Jindong Zhao,Robert J. DeFranco,Pau Miau Yuan,G. Marc Loudon,Duy Nguyen,Masaharu Kamo,Takao Kawakami,Norifumi Miyatake,Akira Tsugita,Keiji Takamoto,Kazuo Satake,Oliver Bischof,Mirko Hechenberger,Bernd Thiede,Volker Kruft,Brigitte Wittmann-Liebold,Albrecht Otto,Rainer Benndorf,Peter Jungblut,Monika Ühlein,Henning Urlaub,Rita Berhardt,Rita Berhardt,Regine Kraft,Regine Kraft,Heike Uhlmann,Vita Beckert,Toshifumi Akizawa,Takaaki Ayabe,Motomi Matsukawa,Michiyasu Itoh,Masatoshi Nishi,Hiroshi Sato,Motoharu Seiki,Masanori Yoshioka,Michal Lebl,Viktor Krchňák,Nikolai F. Sepetov,Petr Kocis,Marcel Pátek,Zuzana Flegelová,Ronald J. Ferguson,Kit S. Lam,Robert L. Moritz,Robert L. Moritz,James S. Eddes,James S. Eddes,Hong Ji,Hong Ji,Gavin E. Reid,Gavin E. Reid,Richard J. Simpson,Richard J. Simpson,William Seffens,C. Dale Poulter,Julia M. Dolence,Pamela D. Bond,Kiyoshi Nokihara,Kiyoshi Nokihara,Kazuo Ikegaya,Naoki Morita,Takao Ohmura,Sh. I. Salikhov,N. J. Sagdiev,A. S. Korneev,Behzod Z. Dolimbek,M. Zhouhair Atassi,J S Rosenberg,Z. Yun,P. R. Wyde,M. Z. Atassi,Simon J. Gaskell,Kalyan Rao Anumula,David M. Goldenberg,Ettore Appella,Michelle Fiscella,Nicola Zambrano,Ullrich Sj,Kazuyasu Sakaguchi,Hiroshi Sakamoto,Marc S. Lewis,D Lin,W. Edward Mercer,Carl W. Anderson,Marjorie A. Connelly,Hong Zhang,John D. Sipley,Susan P. Lees-Miller,Stephen P. Jackson,Yong Hong Xie,Jun Anthony V. Quion,W. F. Brandt,H. Alk,R. Bhaskaran,Chin Yu,Chuan-Ching Yang,Agnes Henschen,Keith Ashman,Matthias Mann,Juan Guevara,Hung Michael Nguyen,Daniel B. Davison,Joel D. Morrisett,Richard N. Perham,D.A. Marvin,Martyn F. Symmons,Tamsin D. Terry,Z. H. Beg,Z. H. Beg,J. A. Stonik,J. M. Hoeg,H. B. Brewer,Boris M. Gorovits,Chander Raman,Paul M. Horowtiz +208 more
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Towards Temperature Dependent Coarse-grained Potential of Side-chain Interactions for Protein Folding Simulations
Stanisław Ołdziej,Cezary Czaplewski,Adam Liwo,Harold A. Scheraga +3 more
- 31 May 2010
TL;DR: It is demonstrated that ignoring the increase of the strength of hydrophobic interactions with increasing temperature in coarse-grained force fields is likely to result in grossly wrong predictions of the thermodynamics of folding and of the process of thermal unfolding made with such force fields.
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Global Optimization in Protein Folding.
Daniel R. Ripoll,Adam Liwo,Harold A. Scheraga +2 more
- 01 Jan 2009
TL;DR: Rescue apparatus is described for use in the rescue of persons from high rise and other buildings which includes an inflatable funnel of fabric carried by a bracket which is secured to an interior portion of a building, the funnel preferably being located below a window from which an escape is to be made, the chute or conduit connected to its lower end through which the person jumping into the funnel slides to and through a window located below the funnel.
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Simulations of the Folding of Proteins: A Historical Perspective
Harold A. Scheraga
- 01 Jan 2014
TL;DR: The historical sequence of events that led to the introduction of modern simulation methods to treat biological processes is described in detail.
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