000 07051nam 2200961 a 4500
001 33218158
003 CaOLU
005 20030530092523.0
008 020715s2003 njuaf b 001 0 eng
010 $a2002011156
015 $aGBA3-Z9744
016 7 $a101149807$2DNLM
020 $a0471202002 (cloth : alk. paper)
020 $a0471201995
029 $aocm50199108
039 $eKT/EM$zA
039 $aMARS
040 $aDNLM/DLC$cDLC$dNLM$dUKM$dC#P$dAGL$dCaOLU$beng$dOr
LoB-B
042 $apcc
049 $aUWOO
050 00 $aQP517.M3$bS776 2003
060 00 $aW1$bME9617 v.44 2003
060 10 $aQH 506$bS9266 2003
070 0 $a381$b.M55 v. 44
072 0 $aX500
072 0 $aX100
082 00 $a572.8/733$221
099 $aW1.ME9617
099 $aQH506.S828 2003
245 00 $aStructural bioinformatics /$cedited by Philip E.
Bourne, Helge Weissig.
260 $aHoboken, N.J. :$bWiley-Liss,$cc2003.
300 $axix, 649 p., [32] p. of plates :$bill. (some
col.) ;$c26 cm.
440 0 $aMethods of biochemical analysis ;$vv. 44.
504 $aIncludes bibliographical references and index.
520 1 $a"The emerging discipline of structural
bioinformatics comprises the development of computational
technologies for methods of storage, retrieval, and analysis
of the three-dimensional structure of biological
macromolecules. Edited by Philip Bourne and Helge Weissig,
this groundbreaking text provides a thorough understanding
of the theories, associated algorithms, resources, and tools
used in structural bioinformatics." "Readers will gain the
ability to make effective use of protein, DNA, RNA,
carbohydrate, and complex structures to better understand
biological function. Molecular biologists, biochemists,
biophysicists, and bioinformaticians in basic and clinical
research, as well as undergraduate and graduate students in
biology, medicine, and computer science, will find
Structural Bioinformatics to be an essential addition to
their professional and academic libraries."--BOOK JACKET.
650 0 $aMacromolecules$xStructure$xMathematical models.
650 0 $aMacromolecules$xStructure$xComputer simulation.
650 0 $aBioinformatics.
650 12 $aComputational Biology.
700 1 $aBourne, Philip E.
700 1 $aWeissig, Helge.
970 01 $tForeword
970 01 $tPreface
970 01 $tAcknowledgments
970 01 $tContributors
970 11 $lSect. I$tIntroduction$p1
970 21 $l1$tDefining Bioinformatics and Structural
Bioinformatics$cRuss B. Altman$fAltman, Russ.$cJonathan M.
Dugan$fDugan, Jonathan M.$p3
970 21 $l2$tFundamentals of Protein Structure$cEric D.
Scheeff$fScheeff, Eric D.$cJ. Lynn Fink$fFink, J. Lynn$p15
970 21 $l3$tFundamentals of DNA and RNA Structure$cStephen
Neidle$fNeidle, Stephen.$cBohdan Schneider$fSchneider,
Bohdan$cHelen M. Berman$fBerman, Helen M.$p41
970 21 $l4$tComputational Aspects of High-Throughput
Crystallographic Macromolecular Structure
Determination$cPaul D. Adams$fAdams, Paul D.$cRalf W.
Grosse-Kunstleve$fGrosse-Kunstleve, Ralf W.$cAxel T.
Brunger$fBrčunger, Axel T.$p75
970 21 $l5$tMacromolecular Structure Determination by NMR
Spectroscopy$cJohn L. Markley$fMarkley, John L.$cEldon L.
Ulrich$fUlrich, Eldon L.$cWilliam M. Westler$fWestler,
William M.$cBrian F. Volkman$fVolkman, Brian F.$p89
970 21 $l6$tElectron Microscopy$cNiels Volkmann$fVolkmann,
Niels$cDorit Hanein$fHanein, Dorit$p115
970 21 $l7$tMolecular Visualization$cJohn Tate$fTate,
John$p135
970 11 $lSect. II$tData Representation and Databases$p159
970 21 $l8$tThe PDB Format, mmCIF Formats, and Other Data
Formats$cJohn D. Westbrook$fWestbrook, John D.$cP. M. D.
Fitzgerald$fFitzgerald, P. M. D.$p161
970 21 $l9$tThe Protein Data Bank$dThe PDB Team$p181
970 21 $l10$tThe Nucleic Acid Database$cHelen M.
Berman$fBerman, Helen M.$cJohn Westbrook$fWestbrook,
John$cZukang Feng$fFeng, Zukang$cLisa Iype$fIype,
Lisa$cBohdan Schneider$fSchneider, Bohdan$cChristine
Zardecki$fZardecki, Christine$p199
970 21 $l11$tOther Structure-Based Databases$cHelge
Weissig$fWeissig, Helge.$cPhilip E. Bourne$fBourne, Philip
E.$p217
970 11 $lSect. III$tComparative Features$p237
970 21 $l12$tProtein Structure Evolution and the Scop
Database$cBoojala V. B. Reddy$fReddy, Boojala V. B.$cPhilip
E. Bourne$fBourne, Philip E.$p239
970 21 $l13$tThe Cath Domain Structure Database$cC. A.
Orengo$fOrengo, C. A.$cF. M. G. Pearl$fPearl, F. M. G.$cJ.
M. Thornton$fThornton, J. M.$p249
970 21 $l14$tStructural Quality Assurance$cRoman A.
Laskowski$fLaskowski, Roman A.$p273
970 21 $l15$tAll-Atom Contacts: A New Approach to
Structure Validation$cJane S. Richardson$fRichardson, Jane
S.$p305
970 21 $l16$tStructure Comparison and Alignment$cPhilip E.
Bourne$fBourne, Philip E.$cIlya N. Shindyalov$fShindyalov,
Ilya N.$p321
970 11 $lSect. IV$tStructure and Functional
Assignment$p339
970 21 $l17$tSecondary Structure Assignment$cClaus A. F.
Andersen$fAndersen, Claus.$cBurkhard Rost$fRost,
Burkhard$p341
970 21 $l18$tIdentifying Structural Domains in
Proteins$cLorenz Wernisch$fWernisch, Lorenz$cShoshana J.
Wodak$fWodak, Shoshana J.$p365
970 21 $l19$tInferring Protein Function from
Structure$cGail J. Bartlett$fBartlett, Gail J.$cAnnabel E.
Todd$fTodd, Annabel E.$cJanet M. Thornton$fThornton, Janet
M.$p387
970 11 $lSect. V$tProtein Interactions$p409
970 21 $l20$tPrediction of Protein - Protein Interactions
from Evolutionary Information$cAlfonso Valencia$fValencia,
Alfonso$cFlorencio Pazos$fPazos, Florencio$p411
970 21 $l21$tElectrostatic Interactions$cNathan A.
Baker$fBaker, Nathan A.$cJ. Andrew McCammon$fMcCammon, J.
Andrew.$p427
970 11 $lSect. VI$tProteins as Drug Targets$p441
970 21 $l22$tPrinciples and Methods of Docking and Ligand
Design$cJ. Krumrine$fKrumrine, J.$cF. Raubacher$fRaubacher,
F.$cN. Brooijmans$fBrooijmans, N.$cI. Kuntz$fKuntz, I.$p443
970 21 $l23$tStructural Bioinformatics in Drug
Discovery$cEric B. Fauman$fFauman, Eric B.$cAndrew L.
Hopkins$fHopkins, Andrew L.$cColin R. Groom$fGroom, Colin
R.$p477
970 11 $lSect. VII$tStructure Prediction$p499
970 21 $l24$tCASP and CAFASP Experiments and their
Findings$cPhilip E. Bourne$fBourne, Philip E.$p501
970 21 $l25$tHomology Modeling$cElmar Krieger$fKrieger,
Elmar$cSander B. Nabuurs$fNabuurs, Sander B.$cGert
Vriend$fVriend, Gert$p509
970 21 $l26$tFold Recognition Methods$cAdam
Godzik$fGodzik, Adam$p525
970 21 $l27$tAB Initio Methods$cDylan Chivian$fChivian,
Dylan$cTimothy Robertson$fRobertson, Timothy$cRichard
Bonneau$fBonneau, Richard$cDavid Baker$fBaker, David$p547
970 21 $l28$tPrediction in 1D: Secondary Structure,
Membrane Helices, and Accessibility$cBurkhard Rost$fRost,
Burkhard$p559
970 11 $lSect. VIII$tThe Future$p589
970 21 $l29$tStructure Genomics$cStephen K.
Burley$fBurley, Stephen K.$cJeffrey B. Bonanno$fBonanno,
Jeffrey B.$p591
970 01 $tIndex$p613
