Verfügbarkeit: Modeling of molecular properties

Modeling of molecular properties:

Gespeichert in:

Bibliographische Detailangaben
Weitere Verfasser:	Comba, Peter 1953- (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2011
Schlagworte:	Molekül Struktur-Aktivitäts-Beziehung Simulation Molekulardesign Modellierung
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	Hier auch später erschienene, unveränderte Nachdrucke
Beschreibung:	XXV, 485 S. Ill., graph. Darst.
ISBN:	3527330216 9783527330218 9783527636402

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MARC


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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS PREFACE XVII LIST OF CONTRIBUTORS XIX PART ONE THEORY AND CONCEPTS I 1 ACCURATE DISPERSION-CORRECTED DENSITY FUNCTIONALS FOR GENERAL CHEMISTRY APPLICATIONS 3 LARS COERIGK AND STEFAN GRIMME 1.1 INTRODUCTION 3 1.2 THEORETICAL BACKGROUND 4 1.2.1 DOUBLE-HYBRID DENSITY FUNCTIONALS 4 1.2.2 LONDON-DISPERSION-CORRECTED DFT 6 1.3 EXAMPLES 8 1.3.1 GMTKN30 8 1.3.2 A MECHANISTIC STUDY WITH B2PLYP-D 10 1.3.3 DOUBLE-HYBRIDS FOR EXCITED STATES 11 1.4 SUMMARY AND CONCLUSIONS 12 REFERENCES 14 2 FREE-ENERGY SURFACES AND CHEMICAL REACTION MECHANISMS AND KINETICS 17 JEREMY N. HARVEY 2.1 INTRODUCTION 17 2.2 ELEMENTARY REACTIONS 19 2.3 TWO CONSECUTIVE STEPS 20 2.4 MULTIPLE CONSECUTIVE STEPS 23 2.5 COMPETING REACTIONS 24 2.6 CATALYSIS 25 2.7 CONCLUSIONS 28 REFERENCES 28 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/101059186X DIGITALISIERT DURCH IMAGE 2 VI CONTENTS 3 THE ART OF CHOOSING THE RIGHT QUANTUM CHEMICAL EXCITED-STATE METHOD FOR LARGE MOLECULAR SYSTEMS 29 PHILIPP H.P HARBACH AND ANDREAS DREUW 3.1 INTRODUCTION 29 3.2 EXISTING EXCITED-STATE METHODS FOR MEDIUM-SIZED AND LARGE MOLECULES 30 3.2.1 WAVEFUNCTION-BASED AB INITIO METHODS 31 3.2.2 DENSITY-BASED METHODS 33 3.3 ANALYSIS OF ELECTRONIC TRANSITIONS 34 3.4 CALCULATION OF STATIC ABSORPTION AND FLUORESCENCE SPECTRA 37 3.5 DARK STATES 40 3.5.1 EXCITED ELECTRONIC STATES WITH LARGE DOUBLE EXCITATION CHARACTER 40 3.5.2 CHARGE-TRANSFER EXCITED STATES 42 3.6 SUMMARY AND CONCLUSIONS 44 REFERENCES 45 4 ASSIGNING AND UNDERSTANDING NMR SHIFTS OF PARAMAGNETIC METAL COMPLEXES 49 MARKUS ENDERS 4.1 THE AIM AND SCOPE OF THE CHAPTER 49 4.2 BASIC THEORY OF PARAMAGNETIC NMR 50 4.2.1 THE ORIGIN OF THE HYPERFINE SHIFT 50 4.2.1.1 THE CONTACT SHIFT 51 4.2.1.2 THE PSEUDOCONTACT SHIFT 53 4.2.2 RELAXATION AND LINE WIDTHS 54 4.2.2.1 ELECTRONIC RELAXATION 55 4.2.2.2 DIPOLAR RELAXATION 55 4.2.2.3 CONTACT RELAXATION 56 4.2.2.4 CURIE RELAXATION 56 4.2.3 ADVICE FOR RECORDING PARAMAGNETIC NMR SPECTRA 56 4.3 SIGNAL ASSIGNMENTS 58 4.3.1 COMPARISON OF SIMILAR COMPOUNDS 58 4.3.2 SEPARATION OF CONTACT AND PSEUDOCONTACT SHIFT 58 4.3.3 ESTIMATING THE DIPOLAR CONTRIBUTIONS 59 4.3.4 DFT-CALCULATION OF SPIN-DENSITIES 59 4.4 CASE STUDIES 60 4.4.1 ORGANOCHROMIUM COMPLEXES 61 4.4.2 NICKEL COMPLEXES 62 REFERENCES 63 5 TRACING ULTRAFAST ELECTRON DYNAMICS BY MODEM PROPAGATOR APPROACHES 65 MARKUS PERNPOINTNER, ALEXANDER I. KULEFF, AND LORENZ S. CEDERBAUM 5.1 CHARGE MIGRATION PROCESSES 65 IMAGE 3 CONTENTS VII 5.1.1 THEORETICAL CONSIDERATIONS OF CHARGE MIGRATION 68 5.2 INTERATOMIC COULOMBIC DECAY IN NOBLE GAS CLUSTERS 70 5.2.1 THEORETICAL CONSIDERATIONS OF ICD 73 REFERENCES 74 6 NATURAL BOND ORBITALS AND LEWIS-LIKE STRUCTURES OF COPPER BLUE PROTEINS 77 CLARK R. LANDIS AND FRANK WEINHOLD 6.1 INTRODUCTION: LOCALIZED BONDING CONCEPTS IN COPPER CHEMISTRY 77 6.2 LOCALIZED BONDS AND MOLECULAR GEOMETRIES IN POLYATOMIC CU COMPLEXES 83 6.3 COPPER BLUE PROTEINS AND LOCALIZED BONDS 86 6.4 SUMMARY 88 REFERENCES 88 7 PREDICTIVE MODELING OF MOLECULAR PROPERTIES: CAN WE CO BEYOND INTERPRETATION? 91 TIMOTHY CLARK 7.1 INTRODUCTION 91 7.2 MODELS AND MODELING 91 7.3 PARAMETERIZED CLASSICAL AND QUANTUM MECHANICAL THEORIES 93 7.4 PREDICTIVE ENERGIES AND STRUCTURES 94 7.5 OTHER GAS-PHASE PROPERTIES 94 7.6 SOLVENT EFFECTS: THE MAJOR PROBLEM 95 7.7 REACTION SELECTIVITY 96 7.8 BIOLOGICAL AND PHARMACEUTICAL MODELING 97 7.8.1 SAR MODELING 98 7.8.2 FORCE FIELDS, DOCKING, AND SCORING 99 7.9 CONCLUSIONS 100 REFERENCES 102 8 INTERPRETATION AND PREDICTION OF PROPERTIES OF TRANSITION METAL COORDINATION COMPOUNDS 107 PETER COMBA 8.1 INTRODUCTION 107 8.2 MOLECULAR STRUCTURE OPTIMIZATION 108 8.3 CORRELATION OF MOLECULAR STRUCTURES AND PROPERTIES 110 8.4 COMPUTATION OF MOLECULAR PROPERTIES 111 8.5 A CASE STUDY: ELECTRONIC AND MAGNETIC PROPERTIES OF CYANO-BRIDGED HOMODINUCLEAR COPPER(II) COMPLEXES 112 8.6 CONCLUSIONS 116 REFERENCES 117 IMAGE 4 VIII CONTENTS 9 HOW TO REALIZE THE FULL POTENTIAL OF DFT: BUILD A FORCE FIELD OUT OF IT 123 ROBERT JAMES DEETH 9.1 INTRODUCTION 123 9.2 SPIN-CROSSOVER IN FE(II) COMPLEXES 124 9.3 LIGAND FIELD MOLECULAR MECHANICS 126 9.3.1 TRAINING DATA: FE(II)-AMINE COMPLEXES 127 9.3.2 LFMM PARAMETER FITTING 128 9.4 MOLECULAR DISCOVERY FOR NEW SCO COMPLEXES 129 9.5 DYNAMIC BEHAVIOR OF SCO COMPLEXES 131 9.6 LIGHT-INDUCED EXCITED SPIN-STATE TRAPPING 132 9.7 SUMMARY AND FUTURE PROSPECTS 135 REFERENCES 136 PART TWO APPLICATIONS IN HOMOGENEOUS CATALYSIS 137 10 DENSITY FUNCTIONAL THEORY FOR TRANSITION METAL CHEMISTRY: THE CASE OF A WATER-SPLITTING RUTHENIUM CLUSTER 139 MAREN PODEWITZ, THOMAS WEYMUTH, AND MARKUS REIHER INTRODUCTION 139 SHORTCOMINGS OF PRESENT-DAY DENSITY FUNCTIONALS 139 DELOCALIZATION ERROR/SELF-INTERACTION ERROR 140 SPIN-POLARIZATION/STATIC-CORRELATION ERROR 141 STRATEGIES FOR CONSTRUCTING DENSITY FUNCTIONALS 142 A PRACTICAL EXAMPLE: CATALYTIC WATER SPLITTING 144 A BINUCLEAR RUTHENIUM WATER-SPLITTING CATALYST 144 COMPARISON OF DIFFERENT DENSITY FUNCTIONALS 147 COMPARISON WITH EXPERIMENTAL DATA 148 THE OXO AND THE SUPEROXO STRUCTURE OF THE REACTIVE [RU 2 O 2 ] 3+ SPECIES 149 INTERACTION WITH THE ENVIRONMENT: EXPLICIT SOLVATION 10.1 10.2 10.2.1 10.2.2 10.3 10.4 10.4.1 10.4.2 10.4.3 10.4.4 10.4.5 10.4.6 10.5 N LI.I 11.2 11.3 11.4 OF [RU 2 O 2 ] 3+ 153 FORMATION AND STRUCTURE OF THE [RU 2 (OH 2 )O 2 ] 3+ INTERMEDIATE 154 CONCLUSIONS 158 REFERENCES 159 RATIONAL AND EFFICIENT DEVELOPMENT OF A NEW CLASS OF HIGHLY ACTIVE RING-OPENING METATHESIS POLYMERIZATION CATALYSTS 165 MARTIN AUGUST OTFRIED VOLLAND, THOMAS SCHNETZ, AND PETER HOFMANN INTRODUCTION 165 A NEW LEAD STRUCTURE: INTRODUCTION OF CHELATING, BULKY, ELECTRON-RICH BISPHOSPHINES WITH SMALL BITE ANGLES 168 ROMP ACTIVITY OF THE NEUTRAL SYSTEMS 170 CATIONIC CARBENE COMPLEXES: SYNTHESIS AND STRUCTURE 170 IMAGE 5 CONTENTS IX 11.4.1 A COMPARISON OF CARBENE VERSUS CARBYNE HYDRIDE ISOMERS: L 2 CLRU=CH^ VERSUS L 2 CL(H)RUSCH + 171 11.4.2 DFT CALCULATIONS 171 11.5 OLEFIN METATHESIS WITH CATIONIC CARBENE COMPLEXES: MECHANISTIC CONSIDERATIONS 175 11.5.1 A GAS-PHASE STUDY OF CATIONIC CARBENE COMPLEXES 176 11.5.2 SCREENING RESULTS 179 11.5.3 MECHANISTIC RESULTS 180 11.5.3.1 ISOTOPE EFFECTS 180 11.5.3.2 OLEFIN IT-COMPLEX PRE-EQUILIBRIUM 181 11.5.3.3 BACKBITING 181 11.5.4 DIRECT COMPARISON OF ACTIVE SPECIES 182 11.6 ROMP KINETICS IN SOLUTION 183 11.6.1 BITE ANGLE INFLUENCE ON ROMP ACTIVITY 183 11.6.2 ROMP ACTIVITY: A COMPARISON WITH FIRST- AND SECOND-GENERATION GRUBBS SYSTEMS IN SOLUTION 184 11.7 SUMMARY AND OUTLOOK 186 REFERENCES 187 12 EFFECTS OF SUBSTITUENTS ON THE REGIOSELECTIVITY OF PALLADIUM-CATALYZED ALLYLIC SUBSTITUTIONS: A DFT STUDY 191 JEVGENIJ A. RASKATOV AND CUENTER HELMCHEN 12.1 INTRODUCTION 191 12.2 COMPUTATIONAL DETAILS 195 12.3 RESULTS AND DISCUSSION 195 12.3.1 CALCULATIONS OF THE RC-ALLYL COMPLEXES 395 12.3.1.1 GEOMETRIES OF THE JI-ALLYL COMPLEXES 195 12.3.1.2 CHARGE ANALYSIS OF THE IT- ALLYL COMPLEXES 196 12.3.1.3 FRONTIER ORBITAL ANALYSIS 297 12.3.2 CALCULATIONS OF TRANSITION STATES AND PRODUCT OLEFIN COMPLEXES 198 12.3.3 TRANSITION STATE ANALYSIS 199 12.3 A OLEFIN COMPLEXES 202 12.4 CONCLUSIONS 203 REFERENCES 204 13 DICOPPER CATALYSTS FOR THE AZIDE ALKYNE CYCLOADDITION: A MECHANISTIC DFT STUDY 207 BERND F. STRAEUB, MICHAEL BESSEL, AND REGINA BERG 13.1 INTRODUCTION 207 13.2 THEORETICAL METHODS 209 13.3 DISCUSSION OF THE CUAAC MECHANISM 209 13.4 CONCLUSION AND SUMMARY 212 REFERENCES 214 IMAGE 6 X CONTENTS 14 FROM DYNAMICS TO KINETICS: INVESTIGATION OF INTERCONVERTING STEREOISOMERS AND CATALYZED REACTIONS 215 OLIVER TRAPP 14.1 INVESTIGATION OF INTERCONVERSIONS BY GAS CHROMATOGRAPHY 215 14.2 EVALUATION TOOLS 216 14.3 INVESTIGATION OF CATALYZED REACTIONS 218 14.3.1 CATALYTIC STUDIES WITH ON-COLUMN REACTION CHROMATOGRAPHY 220 14.4 PERSPECTIVES 224 REFERENCES 225 15 MECHANISTIC DICHOTOMIES IN COUPLING-LSOMERIZATION-CLAISEN PERICYCLIC DOMINO REACTIONS IN EXPERIMENT AND THEORY 227 THOMASJJ MUELLER, DANIEL M. D'SOUZA, AND BERNHARD MAYER 15.1 INTRODUCTION 227 15.2 COMPUTATION OF THE CONCLUDING INTRAMOLECULAR DIELS-ALDER REACTION IN THE DOMINO FORMATION OF (TETRAHYDROISOBENZOFURAN) SJJIRO-BENZOFURANONES OR SPIRO-INDOLONES 230 15.3 COMPUTATION OF THE PERICYCLIC DICHOTOMIES OF PROPARGYL TRITYLETHERS 231 15.4 CONCLUSIONS 238 REFERENCES 239 PART THREE APPLICATIONS IN PHARMACEUTICAL AND BIOLOGICAL CHEMISTRY 241 16 COMPUTATIONAL DESIGN OF NEW PROTEIN CATALYSTS 243 CERT KISS, SCOTT A. JOHNSON, GEOFFREY NOSRATI, NIHAN CELEBI-OELCUEM, SEONAH KIM, ROBERT PATON, AND KENDAL N. HOUK 16.1 INTRODUCTION 243 16.2 THE INSIDE-OUT APPROACH 244 16.3 CATALYST SELECTION AND THE CATALYTIC UNIT 244 16.4 THEOZYMES 246 16.4.1 BACKGROUND 246 16.4.2 DEFINITION 247 16.4.3 SELECTION OF CATALYTIC GROUPS 247 16.4.4 THEOZYME DIVERSITY 248 16.4.5 APPLICATIONS OF THEOZYMES 248 16.5 SCAFFOLD SELECTION AND THEOZYME INCORPORATION 249 16.5.1 OVERVIEW AND BACKGROUND 249 16.5.2 ROSETTAMATCH 249 16.5.3 GESS 250 16.6 DESIGN 252 16.6.1 OVERVIEW 252 16.6.2 ROSETTADESIGN 252 16.7 EVALUATING MATCHES AND DESIGNS 253 16.7.1 FILTERING AND RANKING MATCHES 253 IMAGE 7 CONTENTS XI 16.7.1.1 EDGE 253 16.7.1.2 SASA 253 16.7.2 RANKING AND EVALUATING DESIGNS 254 16.7.2.1 EMPIRICAL CRITERIA 254 16.7.2.2 REVERTING UNNECESSARY MUTATIONS 254 16.7.2.3 MOLECULAR DYNAMICS EVALUATION 255 16.8 EXPERIMENTS 257 16.9 SUCCESSFUL ENZYME DESIGNS 257 16.9.1 RETRO-ALDOL REACTION 257 16.9.2 KEMP ELIMINATION 259 16.9.3 DIELS-ALDER CYCLOADDITION 259 16.10 RATIONAL REDESIGN AND DIRECTED EVOLUTION OF DESIGNED ENZYMES WITH LOW ACTIVITIES 260 16.10.1 ITERATIVE APPROACH TO DE NOVO ENZYME DESIGN: RATIONAL REDESIGN 260 16.10.2 DIRECTED EVOLUTION OF KE70 262 16.11 SUMMARY 263 REFERENCES 263 17 COMPUTER-ASSISTED DRUG DESIGN 267 HANS-DIETER HOELTJE 17.1 NEURAMINIDASE INHIBITORS 267 17.1.1 PHYSIOLOGICAL FUNCTION OF NEURAMINIDASE 267 17.1.2 THE SUBSTRATE: SIALIC ACID 268 17.1.3 THE DEVELOPMENT OF ZANAMIVIR 269 17 AA DEVELOPMENT OF THE ORALLY ACTIVE AGENT OSELTAMIVIR 270 17.2 CYCLOOXYGENASE INHIBITORS 273 17.2.1 CYCLOOXYGENASE (COX) 273 17.2.1.1 PHYSIOLOGICAL FUNCTIONS OF COX-1 AND COX-2 274 17.2.1.2 STRUCTURAL COMPARISON OF COX-1 AND COX-2 275 17.2.2 MOLECULAR STRUCTURES OF TYPICAL COX-1 SELECTIVE INHIBITORS 277 17.2.3 MOLECULAR STRUCTURE OF TYPICAL COX-2 SELECTIVE INHIBITORS 277 17.3 CONCLUDING REMARKS 279 REFERENCES 279 18 STATICS OF BIOMACROMOLECULES 281 PRAKASH C. RATHI, CHRISTOPHER PFLEGER, SIMONE FUELLE, DORIS L KLEIN, AND HOLGER GOHLKE 18.1 INTRODUCTION 281 18.2 RIGIDITY THEORY AND ANALYSIS 282 18.2.1 INTRODUCTION TO RIGIDITY THEORY 282 18.2.2 MODELING BIOMACROMOLECULES AS CONSTRAINT NETWORKS 284 18.2.3 SIMULATING FOLDED-UNFOLDED TRANSITIONS IN BIOMACROMOLECULES 284 18.2.4 CONSTRAINT NETWORK ANALYSIS 285 IMAGE 8 XII CONTENTS 18.2.5 INDICES TO CHARACTERIZE FLEXIBILITY AND RIGIDITY 287 18.2.5.1 GLOBAL INDICES 287 18.2.5.2 LOCAL INDICES 287 18.3 APPLICATION OF RIGIDITY ANALYSIS TO BIOMACROMOLECULES 289 16.3.1 COARSE-GRAINING FOR SIMULATING CONFORMATIONAL TRANSITIONS IN PROTEINS 289 18.3.2 THEMOSTABILIZATION OF PROTEINS 290 18.3.3 FLEXIBILITY OF ANTIBIOTICS BINDING SITES AND AUOSTERIC SIGNAL TRANSMISSION IN RIBOSOMAL STRUCTURES 291 18.3.3.1 DERIVING A NEW CONSTRAINT NETWORK PARAMETERIZATION FOR RNA STRUCTURES 291 18.3.3.2 ANALYZING THE RIBOSOMAL EXIT TUNNEL 292 18.4 CONCLUSIONS 294 REFERENCES 294 19 STRAINED MOLECULES: INSIGHTS FROM FORCE DISTRIBUTION ANALYSIS 301 FRAUKE GRAETER 19.1 STRAIN IN MOLECULES 301 19.1.1 STRAINED RINGS: STRUCTURE AND REACTIVITY 302 19.1.2 MOLECULES UNDER TENSILE FORCES 303 19.2 FORCE DISTRIBUTION ANALYSIS 303 19.2.1 CONCEPT 304 19.2.2 APPLICATIONS 306 19.2.2.1 MUSCLE: TITIN IMMUNOGLOBULIN 307 19.2.2.2 MATERIALS: SILK 308 19.2.2.3 BLOOD: VON WILLEBRAND FACTOR 308 19.2.2.4 GENE EXPRESSION: METJ REPRESSOR 308 19.3 OUTLOOK 309 REFERENCES 309 20 MERCURY DETOXIFICATION BY BACTERIA: SIMULATIONS OF TRANSCRIPTION ACTIVATION AND MERCURY-CARBON BOND CLEAVAGE 311 HAO-BO GUO, JERRY M. PARKS, ALEXANDERJOHS, AND JEREMY C. SMITH 20.1 INTRODUCTION 311 20.2 TRANSCRIPTION ACTIVATION OF MEROP BY MERR UPON HG(II)-BINDING 312 20.2.1 COMPARISONS BETWEEN MD AND SAXS 314 20.2.2 GLOBAL DYNAMICS OF HG(II)-MERR IN SOLUTION 314 20.2.3 OPENING-AND-CLOSING DYNAMICS OF HG(II)-MERR 315 20.2.4 DISCUSSION AND IMPLICATIONS OF MD SIMULATIONS 317 20.3 HG-C BOND CLEAVAGE CATALYZED BY THE MERB 318 20.3.1 BACKGROUND 318 20.3.2 METHODS FOR DFT CALCULATIONS 320 20.3.3 RESULTS OF THE DFT CALCULATIONS 320 IMAGE 9 CONTENTS XIII 20.4 SUMMARY AND CONCLUSIONS 322 REFERENCES 323 21 ELUCIDATION OF THE CONFORMATIONAL FREEDOM OF FERROCENE AMINO ACID (BIO)CONJUGATES: A COMPLEMENTARY THEORETICAL AND EXPERIMENTAL APPROACH 325 KATJA HEINZE, KRISTINA HUETTINGER, AND DANIEL SIEBLER 21.1 INTRODUCTION 325 21.2 SIMPLE FERROCENE AMINO ACID (BIO)CONJUGATES 328 21.3 SYSTEMS WITH AMIDE-BRIDGED FCA UNITS 336 21.4 MODELING RESPONSES TO EXTERNAL STIMULI 341 21.5 CONCLUSIONS 344 REFERENCES 345 PART FOUR APPLICATIONS IN MAIN CROUP, ORGANIC, AND ORGANOMETALLIC CHEMISTRY 347 22 THEORETICAL INVESTIGATION OF THE 13C NMR CHEMICAL SHIFT-NCN ANGLE CORRELATION IN N-HETEROCYCLIC CARBENES 349 MICHAEL NONNENMACHER AND DORIS KUNZ 22.1 INTRODUCTION 349 22.2 METHOD VALIDATION 350 22.3 "C-NMR CHEMICAL SHIFT -N-C-N ANGLE CORRELATION WITHIN VARIOUS CARBENE TYPES 351 22.4 N-C-N ANGLE-SHIELDING TENSOR CORRELATIONS: CARBENE A 353 22.5 CORRELATION BETWEEN N-C-N ANGLE AND HOMO-LUMO GAP AE: CARBENE A 356 22.6 CORRELATIONS IN N-HETEROCYCLIC CARBENES 359 REFERENCES 362 23 STRUCTURES OF AZOLE-CONTAINING MACROCYCLIC PEPTIDES 365 ARON PINTER AND GEBHARD HABERHAUER 23.1 AZOLES IN NATURE AND CIVILIZATION 365 23.2 AZOLE-CONTAINING MACROCYCLIC PEPTIDES IN NATURE: OPENING NEW BOUNDARIES IN SCIENCE 366 23.3 ACHIRAL APPLICATIONS OF LISSOCLINUM-REHTED MACROCYCLIC PEPTIDES 386 23.4 APPLICATIONS OF LISSOCLINUM- RELATED MACROCYCLIC PEPTIDES AS CHIRAL TOOLS 387 REFERENCES 393 24 MODELING OF COMPLEX POLYKETIDES: STEREOCHEMICAL DETERMINATION BY A COMBINATION OF COMPUTATIONAL AND NMR METHODS 397 DIRK MENCHE AND SANDRA DREISIGACKER 24.1 MYXOBACTERIAL POLYKETIDES 397 IMAGE 10 XIV CONTENTS 24.2 DEVELOPMENT OF COMPUTATIONAL AND NMR METHODS FOR STEREOCHEMICAL DETERMINATION: CASE STUDIES WITH THE ARCHAZOLIDS 399 24.2.1 J-BASED CONFIGURATIONAL METHODS AND MOLECULAR MECHANICS STUDIES 399 24.2.2 RESTRAINED MOLECULAR MODELING 403 24.2.3 CALCULATION AND DETERMINATION OF RESIDUAL DIPOLAR COUPLINGS 403 24.3 SELECTED APPLICATIONS OF COMBINED COMPUTATIONAL AND NMR METHODS FOR STEREOCHEMICAL DETERMINATION 406 24.3.1 ETNANGIEN 406 24.3.2 RHIZOPODIN 408 24 A CONCLUSION AND PERSPECTIVES 410 REFERENCES 410 25 QUANTIFYING BUILDING PRINCIPLES OF BORANE CLUSTERS 413 MATTHIAS HOFMANN 25.1 INTRODUCTION 413 25.2 STRUCTURAL FEATURES AND ENERGY PENALTIES 414 25.2.1 SIX-VERTEX NIDO-CLUSTER 414 25.2.2 TEN-VERTEX NIDO-CLUSTER 416 25.2.3 ELEVEN-VERTEX NIDO-CLUSTER 416 25.2.4 TWELVE-VERTEX CLOSO-CLUSTER 418 25.3 MACROPOLYHEDRAL BORANES 419 25.3.1 WHEN IS A MACROPOLYHEDRON PREFERRED? 420 25.3.2 WHAT IS THE "BEST" CLUSTER FRAGMENT FOR MACROPOLYHEDRA? 421 25.3.3 WHAT IS THE MOST STABLE MACROPOLYHEDRON FOR A GIVEN FORMULA? 421 25.4 CONCLUSIONS 423 REFERENCES 423 26 HYDROGENATION AND DEHYDROGENATION OF DINUCLEAR BORON- AND GALLIUM HYDRIDES: QUANTUM CHEMICAL CALCULATIONS AND EXPERIMENTS 425 HANS-JOERG HIMMEL 26.1 DIHYDROGEN ACTIVATION WITH MAIN-GROUP ELEMENT COMPOUNDS 425 26.2 PRELIMINARY QUANTUM CHEMICAL CALCULATIONS 426 26.3 EXPERIMENTAL STUDIES IN CONCERT WITH QUANTUM CHEMICAL CALCULATIONS 430 26.3.1 STEPL: ADDUCTS OF BORANES AND GALLANES TO BICYCLIC GUANIDINES 430 26.3.2 STEP 2: DEHYDROGENATION TO GIVE THE DINUCLEAR HYDRIDES [H 2 E(N-GUANIDINATE)] 2 434 IMAGE 11 CONTENTS XV 26.3.3 STEP3: REPEATED DEHYDROGENATION LEADING TO DOUBLE-BASE-STABILIZED DIBORANE(4) OR DIGALLANE(4) MOLECULES [HE(N-GUANIDINATE)] 2 437 26.3.4 QUANTUM CHEMICAL CALCULATIONS ON THE POSSIBLE REACTION MECHANISM 440 26.3.5 OXIDATIVE INSERTION REACTIONS INTO THE B-B BOND OF DOUBLE-BASE-STABILIZED DIBORANE(4) MOLECULES 443 26.3.5.1 SULFURATION AND REACTION WITH DISULFIDES 443 26.3.5.2 B-B BOND PROTONATION 446 26.3.6 ALTERNATIVE ACCESS ROUTES TO DOUBLE-BASE-STABILIZED DIBORANE(4) MOLECULES 450 REFERENCES 452 27 CAGES AND CLUSTERS OF INDIUM: SPHERICAL AROMATICITY? 455 GERALD LINTI, MARTINA BUEHLER, KIRILL MONAKHOV, AND THOMAS ZESSIN 27.1 INTRODUCTION 455 27.2 SYNTHESIS OF POLYHEDRAL INDIUM CLUSTERS 456 27.3 QUANTUM CHEMICAL CALCULATIONS 459 27.3.1 METHODS 459 27.3.2 DFT-CALCULATIONS ON [E 8 H 8 ] N ~ CLUSTERS 459 27.3.3 AROMATICITY OF [E N H N ] 2 " CLUSTERS 460 27.4 SUMMERY 462 REFERENCES 466 28 LIPOPHILIC ANIONS 469 BERND F. STRAEUB AND MICHAEL WREDE REFERENCES 472 INDEX 473
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discipline	Chemie / Pharmazie Chemie
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id	DE-604.BV039521843
illustrated	Illustrated
indexdate	2024-07-21T00:06:42Z
institution	BVB
isbn	3527330216 9783527330218 9783527636402
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-024374312
oclc_num	725019867
open_access_boolean
owner	DE-91G DE-BY-TUM DE-11 DE-20 DE-703 DE-19 DE-BY-UBM DE-83
owner_facet	DE-91G DE-BY-TUM DE-11 DE-20 DE-703 DE-19 DE-BY-UBM DE-83
physical	XXV, 485 S. Ill., graph. Darst.
publishDate	2011
publishDateSearch	2011
publishDateSort	2011
publisher	Wiley-VCH
record_format	marc
spelling	Modeling of molecular properties ed. by Peter Comba Weinheim Wiley-VCH 2011 XXV, 485 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Hier auch später erschienene, unveränderte Nachdrucke Molekül (DE-588)4039972-2 gnd rswk-swf Struktur-Aktivitäts-Beziehung (DE-588)4183784-8 gnd rswk-swf Simulation (DE-588)4055072-2 gnd rswk-swf Molekulardesign (DE-588)4265444-0 gnd rswk-swf Modellierung (DE-588)4170297-9 gnd rswk-swf Molekulardesign (DE-588)4265444-0 s Struktur-Aktivitäts-Beziehung (DE-588)4183784-8 s DE-604 Molekül (DE-588)4039972-2 s Modellierung (DE-588)4170297-9 s Simulation (DE-588)4055072-2 s Comba, Peter 1953- (DE-588)122976843 edt Erscheint auch als Online-Ausgabe, EPUB 978-3-527-63641-9 Erscheint auch als Online-Ausgabe, MOBI 978-3-527-63643-3 Erscheint auch als Online-Ausgabe, PDF 978-3-527-63642-6 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3702210&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024374312&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Modeling of molecular properties Molekül (DE-588)4039972-2 gnd Struktur-Aktivitäts-Beziehung (DE-588)4183784-8 gnd Simulation (DE-588)4055072-2 gnd Molekulardesign (DE-588)4265444-0 gnd Modellierung (DE-588)4170297-9 gnd
subject_GND	(DE-588)4039972-2 (DE-588)4183784-8 (DE-588)4055072-2 (DE-588)4265444-0 (DE-588)4170297-9
title	Modeling of molecular properties
title_auth	Modeling of molecular properties
title_exact_search	Modeling of molecular properties
title_full	Modeling of molecular properties ed. by Peter Comba
title_fullStr	Modeling of molecular properties ed. by Peter Comba
title_full_unstemmed	Modeling of molecular properties ed. by Peter Comba
title_short	Modeling of molecular properties
title_sort	modeling of molecular properties
topic	Molekül (DE-588)4039972-2 gnd Struktur-Aktivitäts-Beziehung (DE-588)4183784-8 gnd Simulation (DE-588)4055072-2 gnd Molekulardesign (DE-588)4265444-0 gnd Modellierung (DE-588)4170297-9 gnd
topic_facet	Molekül Struktur-Aktivitäts-Beziehung Simulation Molekulardesign Modellierung
url	http://deposit.dnb.de/cgi-bin/dokserv?id=3702210&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024374312&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT combapeter modelingofmolecularproperties

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