Polysaccharide‐based chiral stationary phases as halogen bond acceptors: A novel strategy for detection of stereoselective σ‐hole bonds in solution

Peluso, Paola; Mamane, Victor; Dallocchio, Roberto; Dessì, Alessandro; Villano, Rosaria; Sanna, Daniele; Aubert, Emmanuel; Pale, Patrick; Cossu, Sergio

doi:10.1002/jssc.201701206

Cited by 34 publications

(64 citation statements)

References 41 publications

(61 reference statements)

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“…The extraordinary ability (separation factor value, α, equal to 2.69) exihibited by the glycopeptide‐type chiral selector (SO) in discriminating the two carnosine enantiomers (the selectand, SA) [4], stimulated us to gain more insight into the molecular basis governing the underlying stereorecognition mechanism. A multitude of computational approaches, including docking and molecular dynamic simulations together with descriptive methods, have been so far applied to facilitate the comprehension of the intricate multifactorial process materializing in enantioselective analysis settings [6–10].…”

Section: Introductionmentioning

confidence: 99%

Binding modes identification through molecular dynamic simulations: A case study with carnosine enantiomers and the Teicoplanin A2‐2‐based chiral stationary phase

Sardella

Ianni

Cossignani

et al. 2020

J of Separation Science

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In the present study, an in silico methodology able to define the binding modes adopted by carnosine enantiomers in the setting of the chiral recognition process is described. The inter-and intramolecular forces involved in the enantioseparation process with the Teicoplanin A2-2 chiral selector and carnosine as model compound are successfully identified. This approach fully rationalizes, at a molecular level, the (S) < (R) enantiomeric elution order obtained under reversed-phase conditions. Consistent explanations were achieved by managing molecular dynamics results with advanced techniques of data analysis. As a result, the time-dependent identification of all the interactions simultaneously occurring in the chiral selector-enantiomeric analyte binding process was obtained. Accordingly, it was found that only (R)-carnosine is able to engage a stabilizing charge-charge interaction through its ionized imidazole ring with the carboxylate counter-part on the chiral selector. Instead, (S)-carnosine establishes intramolecular contacts between its ionized functional groups, that limit its conformational freedom and impair the association with the chiral selector unit. K E Y W O R D Smolecular dynamics, binding modes, enantioseparation, chiral chromatography, teicoplanin 1728

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Section: Introductionmentioning

confidence: 99%

Binding modes identification through molecular dynamic simulations: A case study with carnosine enantiomers and the Teicoplanin A2‐2‐based chiral stationary phase

Sardella

Ianni

Cossignani

et al. 2020

J of Separation Science

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“…For the chloro‐substituted CSPs (Chiralpak IC and Chiralpak ID), the presence of chlorine atoms on the phenyl ring may be the reason for their higher enantioselectivity abilities. The chlorine atom was reported to have a double role : (a) the stereoelectronic properties of the chlorine (electron‐withdrawing inductive effect) can influence close sites. In detail, the chloro‐substituted phenyl ring was π‐acidic, and could promote π‐π interaction with π‐basic phenyl ring of the enantiomer, further leading to a better chiral recognition.…”

Section: Resultsmentioning

confidence: 99%

Enantioselective separation of twelve pairs of enantiomers on polysaccharide‐based chiral stationary phases and thermodynamic analysis of separation mechanism

et al. 2018

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The enantioseparation of twelve pairs of structurally related 1-aryl-1-indanone derivatives was studied in the normal-phase mode using three different polysaccharide-type chiral stationary phases, namely Chiralpak IB, Chiralpak IC, and Chiralpak ID. n-Hexane/2-propanol and n-hexane/ethanol were employed as mobile phases. Among all the investigated chiral columns, Chiralpak IC exhibited the most universal and the best enantioseparation ability toward all the racemates, particularly with the mobile phase composed of n-hexane/2-propanol (90/10, v/v). Then the effects of column temperature on retention and enantioselectivity were examined in the range of 25-40°C. Satisfactory enantioseparation was obtained at ambient temperature. The natural logarithm of retention and separation factors (ln k and ln α) versus the reciprocal of absolute temperature (1/T) (Van't Hoff plots) were found to be linear for all racemates, indicating that the retention and separation mechanisms were independent of temperature in the range investigated. Then, the thermodynamic parameters (ΔΔH°, ΔΔS°, and ΔΔG°) were calculated from Van't Hoff plots. These values indicated that the solute transfer from the mobile to stationary phase was enthalpically favorable, and the process of enantioseparation was mainly enthalpy controlled. At last, the impact of small changes in molecular structures of the tested 1-indanone derivatives on enantioseparation was also discussed.

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“…In the last years, our groups investigated the factors governing HPLC enantioseparation of atropisomeric halogenated 4,4’‐bipyridines on polysaccharide‐based CSPs . Following these studies, we have demonstrated the contribution of XB and chalcogen bonds (ChBs) for the enantiorecognition of analytes on CDMPC under NP elution conditions.…”

Section: Molecular Dynamics Simulations Of σ‐Hole‐driven Enantioseparmentioning

confidence: 99%

“…On this basis, we used the ESH concept to model XB in CDMPC‐ and ADMPC‐halobipyridine complexes by MD simulations (10 ns of simulation time) (Fig. ).…”

Section: Molecular Dynamics Simulations Of σ‐Hole‐driven Enantioseparmentioning

confidence: 99%

“…It is worth noting that the rate increases to 75% considering the CDMPC exclusively, whereas it decreases to 37.5% for ADMPC. This evidence could be related to the fact that on ADMPC other entropy‐driven forces had been found to control enantiorecognition along XB . Consequently, it was likely that an exclusive XB model does not adequately describe XB‐driven enantioseparations on the amylose‐based CSP.…”

Section: Molecular Dynamics Simulations Of σ‐Hole‐driven Enantioseparmentioning

confidence: 99%

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Recent studies of docking and molecular dynamics simulation for liquid‐phase enantioseparations

et al. 2019

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Liquid‐phase enantioseparations have been fruitfully applied in several fields of science. Various applications along with technical and theoretical advancements contributed to increase significantly the knowledge in this area. Nowadays, chromatographic techniques, in particular HPLC on chiral stationary phase, are considered as mature technologies. In the last thirty years, CE has been also recognized as one of the most versatile technique for analytical scale separation of enantiomers. Despite the huge number of papers published in these fields, understanding mechanistic details of the stereoselective interaction between selector and selectand is still an open issue, in particular for high‐molecular weight chiral selectors like polysaccharide derivatives. With the ever growing improvement of computer facilities, hardware and software, computational techniques have become a basic tool in enantioseparation science. In this field, molecular docking and dynamics simulations proved to be extremely adaptable to model and visualize at molecular level the spatial proximity of interacting molecules in order to predict retention, selectivity, enantiomer elution order, and profile noncovalent interaction patterns underlying the recognition process. On this basis, topics and trends in using docking and molecular dynamics as theoretical complement of experimental LC and CE chiral separations are described herein. The basic concepts of these computational strategies and seminal studies performed over time are presented, with a specific focus on literature published between 2015 and November 2018. A systematic compilation of all published literature has not been attempted.

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Polysaccharide‐based chiral stationary phases as halogen bond acceptors: A novel strategy for detection of stereoselective σ‐hole bonds in solution

Cited by 34 publications

References 41 publications

Binding modes identification through molecular dynamic simulations: A case study with carnosine enantiomers and the Teicoplanin A2‐2‐based chiral stationary phase

Binding modes identification through molecular dynamic simulations: A case study with carnosine enantiomers and the Teicoplanin A2‐2‐based chiral stationary phase

Enantioselective separation of twelve pairs of enantiomers on polysaccharide‐based chiral stationary phases and thermodynamic analysis of separation mechanism

Recent studies of docking and molecular dynamics simulation for liquid‐phase enantioseparations

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