Nonbonding interactions of organic halogens in biological systems: implications for drug discovery and biomolecular design

Lu, Yunxiang; Wang, Yong; Zhu, Weiliang

doi:10.1039/b926326h

Cited by 344 publications

(334 citation statements)

References 110 publications

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“…In view of the above, it is of interest to note that for the complexes with toluene, all calculations lead to an equilibrium structure in which the X-atom is pointing towards the ortho carbon atom C 2 , and that for none of the halogen donors studied, secondary minima on the PES could be located for the ipso, meta or para carbon atoms C 1 , C 3 or C 4 . For the complexes of toluene with CF 3 Br and CF 3 I, the geometry optimizations also lead to eclipsed orientation of the methyl group in which one hydrogen atom is situated in the plane of the aromatic ring and the other two are situated on both sides of the plane.…”

Section: Ab Initio Calculationsmentioning

confidence: 99%

“…Apart from interactions where the donor atom is an oxygen, a nitrogen or a sulphur atom, an important role is assigned to the interactions of organic halogen atoms with aromatic amino acid side chains [4,5], the relative importance derived from a recent survey of protein databases being in the order of 53%, 9% and 5% for C-X···O, C-X···N and C-X···S interactions, respectively, and up to 33% for C-X···π interactions [4].…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Exploring the C-X…π Halogen Bonding Motif: An Infrared and Raman Study of the Complexes of CF3X (X = Cl, Br and I) with the Aromatic Model Compounds Benzene and Toluene

2013

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Abstract:The formation of halogen bonded complexes formed between the trifluorohalomethanes CF 3 Cl, CF 3 Br and CF 3 I and the Lewis bases benzene and toluene at temperatures below 150K was investigated using FTIR and Raman spectroscopy. Experiments using liquid krypton as solvent show that for both CF 3 Br and CF 3 I substantial fractions of the monomers can be involved in 1:1 complexes. In addition, weak absorptions illustrating the formation of 2:1 complexes between CF 3 I and benzene are observed. Using spectra recorded at temperatures between 120 and 140 K, observed information on the relative stability was obtained for all complexes by determining the complexation enthalpies in solution. The resulting values for CF 3 Br . benzene, CF 3 I . benzene and (CF 3 I) 2 . benzene are −6.5(3), −7.6(2) and −14.5(9) kJ mol

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Section: Ab Initio Calculationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Exploring the C-X…π Halogen Bonding Motif: An Infrared and Raman Study of the Complexes of CF3X (X = Cl, Br and I) with the Aromatic Model Compounds Benzene and Toluene

2013

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“…3, it is natural to consider the interaction between fluorine atoms and hydrated surface caused by hydrogen bonds (HB). Subsequently, we identify the hydrogen bond formed between the F atoms of PFSA À and the O atoms of the hydrated hematite surface using the following geometric criteria to determine whether an HB was formed: d F / O 3.5 Å and 120 q O-H/F 180 (Lu et al, 2010). The HBs from 400 stable adsorbed frames during 1 ns of the simulations were counted.…”

Section: Hydrogen Bondmentioning

confidence: 99%

In silico approach to investigating the adsorption mechanisms of short chain perfluorinated sulfonic acids and perfluorooctane sulfonic acid on hydrated hematite surface

et al. 2017

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a b s t r a c tShort chain perfluorinated sulfonic acids (PFSAs) that were introduced as alternatives for perfluorooctane sulfonic acid (PFOS) have been widely produced and used. However, few studies have investigated the environmental process of short chain PFSAs, and the related adsorption mechanisms still need to be uncovered. The water-oxide interface is one of the major environmental interfaces that plays an important role in affecting the adsorption behaviour and transport potential of the environmental pollutant. In this study, we performed molecular dynamics simulations and quantum chemistry calculations to investigate the adsorption mechanisms of five PFSAs and their adsorption on hydrated hematite surface as well. Different to the vertical configuration reported for PFOS on titanium oxide, all PFSAs share the same adsorption configuration as the long carbon chains parallel to the surface. The formation of hydrogen bonds between F and inter-surface H helps to stabilize the unique configuration. As a result, the sorption capacity increases with increasing C-F chain length. Moreover, both calculated adsorption energy and partial density of states (PDOS) analysis demonstrate a PFSAs adsorption mechanism in between physical and chemical adsorption because the hydrogen bonds formed by the overlap of F (p) orbital and H (s) orbital are weak intermolecular interactions while the physical adsorption are mainly ascribed to the electrostatic interactions. This massive calculation provides a new insight into the pollutant adsorption behaviour, and in particular, may help to evaluate the environmental influence of pollutants.

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“…In recent years, the role of halogens especially fluorine in medicinal chemistry and drug design has been studied extensively [33][34][35][36], as fluorine show quite distinct qualities than other halogens due to its high electronegativity and low polarisability. According to the SAR fundamental theory, similar structures should have similar activities, but in the present dataset, compounds 10 and 14, two highly potent inhibitors, are somewhat dissimilar as also shown by their presence in two distinct clusters (Fig.…”

Section: Molecular Dynamicsmentioning

confidence: 99%

3D-QSAR studies of triazolopyrimidine derivatives of Plasmodium falciparum dihydroorotate dehydrogenase inhibitors using a combination of molecular dynamics, docking, and genetic algorithm-based methods

Shah

Kumar

Tiwari³

et al. 2012

J Chem Biol

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A series of 35 triazolopyrimidine analogues reported as Plasmodium falciparum dihydroorotate dehydrogenase (PfDHODH) inhibitors were optimized using quantum mechanics methods, and their binding conformations were studied by docking and 3D quantitative structure-activity relationship studies. Genetic algorithm-based criteria was adopted for selection of training and test sets while maintaining structural diversity of training and test sets, which is also very crucial for model development and validation. Both the comparative molecular field analyses (q 2 LOO ¼ 0:841, r 2 ncv ¼ 0:99) and comparative molecular similarity indices analyses (q 2 LOO ¼ 0:757, r 2 ncv ¼ 0:943) show excellent correlation and high predictive power. Furthermore, molecular dynamics simulations were performed to explore the binding mode of the two of the most active compounds of the series, 10 and 14. Harmonization in the two simulation results validate the analysis and therefore applicability of docking parameters based on crystallographic conformation of compound 14 bound to receptor molecule. This work provides useful information about the inhibition mechanism of this class of molecules and will assist in the design of more potent inhibitors of PfDHODH.

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Nonbonding interactions of organic halogens in biological systems: implications for drug discovery and biomolecular design

Cited by 344 publications

References 110 publications

Exploring the C-X…π Halogen Bonding Motif: An Infrared and Raman Study of the Complexes of CF3X (X = Cl, Br and I) with the Aromatic Model Compounds Benzene and Toluene

Exploring the C-X…π Halogen Bonding Motif: An Infrared and Raman Study of the Complexes of CF3X (X = Cl, Br and I) with the Aromatic Model Compounds Benzene and Toluene

In silico approach to investigating the adsorption mechanisms of short chain perfluorinated sulfonic acids and perfluorooctane sulfonic acid on hydrated hematite surface

3D-QSAR studies of triazolopyrimidine derivatives of Plasmodium falciparum dihydroorotate dehydrogenase inhibitors using a combination of molecular dynamics, docking, and genetic algorithm-based methods

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