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Cited by 8 publications
(9 citation statements)
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“…The process of preparing electrostatic potential surfaces in this way, especially with protein/active-substance complexes, is known as comparative molecular field analysis (CoMFA); [150] . [152] Combinatorial syntheses that take advantage of dynamic libraries [153] (for an example see Scheme S6 in the Supporting Information) increase the amount of experimentally accessible data by orders of magnitude; this technique is also being used more and more for the exploration of intermolecular forces. [152] Combinatorial syntheses that take advantage of dynamic libraries [153] (for an example see Scheme S6 in the Supporting Information) increase the amount of experimentally accessible data by orders of magnitude; this technique is also being used more and more for the exploration of intermolecular forces.…”
Section: Lfer and Qspr/qsar Experiments Analyses With Protein Complexesmentioning
confidence: 99%
See 1 more Smart Citation
“…The process of preparing electrostatic potential surfaces in this way, especially with protein/active-substance complexes, is known as comparative molecular field analysis (CoMFA); [150] . [152] Combinatorial syntheses that take advantage of dynamic libraries [153] (for an example see Scheme S6 in the Supporting Information) increase the amount of experimentally accessible data by orders of magnitude; this technique is also being used more and more for the exploration of intermolecular forces. [152] Combinatorial syntheses that take advantage of dynamic libraries [153] (for an example see Scheme S6 in the Supporting Information) increase the amount of experimentally accessible data by orders of magnitude; this technique is also being used more and more for the exploration of intermolecular forces.…”
Section: Lfer and Qspr/qsar Experiments Analyses With Protein Complexesmentioning
confidence: 99%
“…With programs such as GRID, [151] surfaces are "felt" in computer simulations by, for example, hydrophobic or hydrophilic test molecules. [152] Combinatorial syntheses that take advantage of dynamic libraries [153] (for an example see Scheme S6 in the Supporting Information) increase the amount of experimentally accessible data by orders of magnitude; this technique is also being used more and more for the exploration of intermolecular forces. [154] A comprehensive analysis of a great many complexes with biopolymers gave, for the "best" ligands, a rough correlation with the increasing number of non-hydrogen atoms, thereby leading to an affinity of about 6 kJ mol À1 per heavy atom with ligands that were not too large.…”
Section: Lfer and Qspr/qsar Experiments Analyses With Protein Complexesmentioning
confidence: 99%
“…B. mit hydrophoben oder hydrophilen Testmolekülen "abgetastet". [152] Kombinatorische Synthesen unter Einschluss dynamischer Bibliotheken [153] (Beispiel Schema S6) ermöglichen die Potenzierung des experimentell zugänglichen Datenmaterials, was zunehmend auch für die Explorierung zwischenmolekularer Kräfte genutzt wird. [154] Eine zusammenfassende Analyse zahlreicher Komplexe mit Biopolymeren ergab für die "besten" Liganden eine ungefähre Korrelation mit der zunehmenden Zahl von NichtWasserstoffatomen, mit einer Affinität von etwa 6 kJ mol…”
Section: Quantifizierung Von Bindungsbeiträgen In Lösungunclassified
“…The first type is well known; it comes from the many‐body character of the solvation energy, mentioned above. This effect has already been studied, and approximate pairwise decomposition methods have been proposed for both SA and GB terms, and also for PB terms . Here, to make the solvation energy pairwise additive, we use a GB “Native Environment” approximation (NEA), presented earlier, and an improved pairwise decomposition for the SA terms, presented here.…”
Section: Introductionmentioning
confidence: 99%