Your search keyword '"*ENANTIOMERS"' showing total 8,185 results

1. Efficient spatial separation for chiral molecules via optically induced forces.

Author

Cheng, Jian-Jian

Subjects

LASER beams, ENANTIOMERS, CENTER of mass, MOLECULES, CHIRAL centers

Abstract

We investigate an efficient spatial enantioseparation method of chiral molecules in cyclic three-level systems coupled with three optical fields using optically induced forces. When the overall phase differs by π between two enantiomers, significant variations in the magnitude and direction of the optically induced forces are observed. The manipulation of the center of mass of chiral molecules in optical fields can be achieved through the induced gauge force, primarily generated from the variations in the chirality-dependent scalar potentials created by the three inhomogeneous laser fields. By appropriately configuring the system, we can completely separate the slow spatial and fast inner dynamics, making instantaneous eigenstates of the inner Hamiltonian independent of the transverse profiles of the laser beams. Compared to previous methods, which required adiabatic conditions to be satisfied, the proposed method overcomes the limitations of the adiabatic approximation by utilizing a specific system configuration. This allows for increased flexibility in the transverse profiles of the laser beams and relaxes the constraints on the velocity of chiral molecules, leading to significantly greater spatial separations achievable across a broader range of parameters. [ABSTRACT FROM AUTHOR]

Published

2024

2. Multi-armed bandit algorithm for sequential experiments of molecular properties with dynamic feature selection.

Author

Abedin, Md. Menhazul, Tabata, Koji, Matsumura, Yoshihiro, and Komatsuzaki, Tamiki

Subjects

FEATURE selection, OPTIMIZATION algorithms, PROBLEM-based learning, REINFORCEMENT learning, ALGORITHMS, CHEMICAL yield, ENANTIOMERS

Abstract

Sequential optimization is one of the promising approaches in identifying the optimal candidate(s) (molecules, reactants, drugs, etc.) with desired properties (reaction yield, selectivity, efficacy, etc.) from a large set of potential candidates, while minimizing the number of experiments required. However, the high dimensionality of the feature space (e.g., molecular descriptors) makes it often difficult to utilize the relevant features during the process of updating the set of candidates to be examined. In this article, we developed a new sequential optimization algorithm for molecular problems based on reinforcement learning, multi-armed linear bandit framework, and online, dynamic feature selections in which relevant molecular descriptors are updated along with the experiments. We also designed a stopping condition aimed to guarantee the reliability of the chosen candidate from the dataset pool. The developed algorithm was examined by comparing with Bayesian optimization (BO), using two synthetic datasets and two real datasets in which one dataset includes hydration free energy of molecules and another one includes a free energy difference between enantiomer products in chemical reaction. We found that the dynamic feature selection in representing the desired properties along the experiments provides a better performance (e.g., time required to find the best candidate and stop the experiment) as the overall trend and that our multi-armed linear bandit approach with a dynamic feature selection scheme outperforms the standard BO with fixed feature variables. The comparison of our algorithm to BO with dynamic feature selection is also addressed. [ABSTRACT FROM AUTHOR]

Published

2024

3. Enantioselective control in chiral crystallization of ethylenediamine sulfate using optical trapping with circularly polarized laser beams.

Author

Sugiyama, Teruki, Lin, Tung-Ming, Su, Hao-Tse, Cheng, An-Chieh, and Sasaki, Keiji

Subjects

LASER beams, CONTINUOUS wave lasers, ETHYLENEDIAMINE, CRYSTALLIZATION, ENANTIOMERS

Abstract

In this study, we conducted successful experiments on ethylenediamine sulfate (EDS), an organic compound, to investigate its enantioselectivity in chiral crystallization. We employed optical trapping with circularly polarized laser beams, using a continuous wave laser at 1064 nm. By focusing the laser at the air–solution interface of a heavy water-saturated EDS solution, the formation of sub-micrometer-sized chiral EDS crystals was verified. Two generated enantiomorphs (d-crystal and l-crystal) were identified by the rotating analyzer method. The enantioselectivity in the chiral crystallization of EDS was assessed through 30 to 60 times experiments conducted under various conditions of laser powers and polarization modes, utilizing the count of generated crystals for each enantiomorph in the evaluation. Circularly polarized lasers at a specific power created an imbalance in the generation probability of the enantiomorphs, resulting in crystal enantiomeric excess values of 23% and −30%. The enantioselectivity mechanism was explored from two perspectives: refractive index differences of two enantiomorphs and 3D helical optical forces. Study of the thermodynamic mechanism was insufficient to explain the outcomes. Conversely, the 3D helical optical force mechanism revealed that the forces acting on EDS clusters in solution induced helical fluid motion, driving EDS nucleation, with the helicity of fluid motion determining the crystal's chirality. This approach will present new insights into chirality in industrial and research fields, with potential applications in regard to improving optical resolution and addressing the origin of homochirality. [ABSTRACT FROM AUTHOR]

Published

2024

4. Chirality Descriptors for Numerical Characterization of Enantiomers and Diastereomers

Author

Natarajan, Ramanathan, Basak, Subhash C., Lungu, Claudiu N., Krantz, Steven G., Series Editor, and Basak, Subhash C., editor

Published

2025

5. Electron spin polarization in supramolecular polymers with complex pathways.

Author

Hong, Kyeong-Im, Kumar, Abhinandan, Garcia, Ana M., Majumder, Subrata, and Ruiz-Carretero, Amparo

Subjects

ELECTRON spin, POLARIZED electrons, SPIN polarization, SCANNING tunneling microscopy, POLYMERS, SUPRAMOLECULAR chemistry, ENANTIOMERS, SUPRAMOLECULAR polymers

Abstract

Mastering the manipulation of the electron spin plays a crucial role in comprehending the behavior of organic materials in several applications, such as asymmetric catalysis, chiroptical switches, and electronic devices. A promising avenue for achieving such precise control lies in the Chiral Induced Spin Selectivity (CISS) effect, where electrons with a favored spin exhibit preferential transport through chiral assemblies of specific handedness. Chiral supramolecular polymers emerge as excellent candidates for exploring the CISS effect due to their ability to modulate their helical structure through noncovalent interactions. In this context, systems capable of responding to external stimuli are particularly intriguing, sometimes even displaying chirality inversion. This study unveils spin selectivity in chiral supramolecular polymers, derived from single enantiomers, through scanning tunneling microscopy conducted in scanning tunneling spectroscopy mode. Following two distinct sample preparation protocols for each enantiomer, we generate supramolecular polymers with opposite handedness and specific spin transport characteristics. Our primary focus centers on chiral π-conjugated building blocks, with the aim of advancing novel systems that can inspire the organic spintronics community from a supramolecular chemistry level. [ABSTRACT FROM AUTHOR]

Published

2023

6. Enantiosensitive growth dynamics of chiral molecules on ferromagnetic substrates and the origin of the CISS effect.

Author

Spilsbury, M. J., Feito, A., Delgado, A., Capitán, M. J., Álvarez, J., and de Miguel, J. J.

Subjects

ELECTRON spin, X-ray photoelectron spectroscopy, CHEMICAL reactions, SINGLE molecule magnets, POLARIZED electrons, ENANTIOMERS

Abstract

The recent demonstration of the existence of an intimate relationship between the chiral structure of some materials and the spin polarization of electrons transmitted through them, what has been called the chirality-induced spin selectivity (CISS) effect, is sparking interest in many related phenomena. One of the most notorious is the possibility of using magnetic materials to apply enantioselective interactions on chiral molecules and chemical reactions involving them. In this work, x-ray photoelectron spectroscopy has been used to characterize the adsorption and growth kinetics of enantiopure organic molecules on magnetic (Co) and non-magnetic (Cu) substrates. While on these latter, no significant enantiosensitive effects are found, on spin-polarized, in-plane magnetized Co surfaces, the two enantiomers have been found to deposit differently. The observed effects have been interpreted as the result of one of the enantiomers being adsorbed in a transient, weakly bound physisorbed-like state with higher mobility due to limited, spin-selective charge transfer between it and the substrate. The study of these phenomena can provide insight into the fundamental mechanisms responsible for the CISS effect. [ABSTRACT FROM AUTHOR]

Published

2023

7. Possibilities and limitations of computer assisted chiral HPLC method development for ozanimod on polysaccharide based chiral stationary phases.

Author

Ferencz, Elek, Szabó, Zoltán-István, Zöldhegyi, Arnold, Dombi, Gergely, Molnár, Gergely, Dobó, Máté, Varga, Erzsébet, Molnár, Imre, and Tóth, Gergő

Subjects

CHIRAL stationary phases, ENANTIOMERIC purity, POLYSACCHARIDES, ENANTIOMERS, HIGH performance liquid chromatography

Abstract

In this study, a direct HPLC method was developed to determine the enantiomeric purity of the immunomodulatory drug, ozanimod. A systematic method development process was followed, incorporating risk assessment, identification of critical analytical procedure parameters, initial screening of stationary phases, and software-assisted optimization of method parameters. Eight different polysaccharide-based chiral columns were selected to assess chiral separation of enantiomers under polar organic elution mode. The most promising results were obtained using a methanol:2-propanol mixture on the amylose-based Chiralpak AD column. Following this, systematic modeling was conducted using DryLab software to optimize method conditions, including isocratic eluent composition, temperature, and flow rate. Baseline separation was achieved within fifteen minutes using the optimized parameters: Chiralpak AD column thermostated at 10 °C, and a mobile phase of methanol:2-propanol: diethylamine, 70:30:0.1 (v/v/v %), delivered at a flow rate of 0.8 mL/min. The developed method was validated according to current guidelines and in silico robustness testing was conducted to determine tolerance limits for critical separation parameters and their impact on enantioresolution. Our findings demonstrate the utility of DryLab, typically employed for reversed-phase achiral separations, in optimizing chiral methods even in polar organic mode. Limitations of the selected approach the development of chiral separation methods are also highlighted. [ABSTRACT FROM AUTHOR]

Published

2024

8. Preparation of D-NCCDs and its application in fluorescent/colorimetric dual-mode discrimination of glutamine enantiomers.

Author

Liao, Xuan, Lu, Cancan, Duan, Yaning, Ren, Cuiling, and Chen, Hongli

Abstract

A new type of carbon dots (D-NCCDs) was synthesized by 3, 5-diaminobenzoic acid, N,N-dimethyl-o-phenylenediamine, and D-cysteine. The morphology and structure of D-NCCDs were investigated by transmission electron microscopy (TEM), X-ray photoelectron spectroscopy (XPS), and FT-IR spectra, and the chirality was characterized by circular dichroism. In the presence of hydrogen peroxide, the fluorescence of D-NCCDs at 487 nm (λex = 410 nm) showed great discrimination ability towards glutamine enantiomers. The ratio of fluorescence intensity (F/F0) to the concentration of D-Gln showed good linearity in the range 0.5–10 mM, with a detection limits of 0.11 mM. Meanwhile, the color of the solution gradually changed from light yellow to yellow–brown. The UV–Vis absorption ratio (A/A0) at 410 nm showed good linearity with the concentration of D-Gln in the range 0.5 to 20 mM; the detection limit is 7.7 μM. But the fluorescence and absorbance of D-NCCDs showed no significant change after the addition of L-glutamine. Thus, fluorescence and colorimetry dual-mode discrimination of glutamine enantiomers was achieved. The fluorescence enantioselectivity of Gln (FL-Gln/FD-Gln) is 1.62, and the colorimetric enantioselectivity of Gln (AD-Gln/AL-Gln) is 2.14. The chiral discrimination mechanism of D-NCCDs to Gln enantiomers was also investigated systematically. This work not only can discriminate glutamine enantiomers with high sensitivity and convenience, but also offers a new strategy for preparing new dual mode chiral nanoprobes. [ABSTRACT FROM AUTHOR]

Published

2024

9. Longitudinal chiral forces in photonic integrated waveguides to separate particles with realistically small chirality.

Author

Martínez-Romeu, Josep, Diez, Iago, Golat, Sebastian, Rodríguez-Fortuño, Francisco J., and Martínez, Alejandro

Subjects

DIELECTRIC waveguides, CHIRALITY, ENANTIOMERS, WAVEGUIDES, NANOPARTICLES

Abstract

Chiral optical forces exhibit opposite signs for the two enantiomeric versions of a chiral molecule or particle. If large enough, these forces might be able to separate enantiomers all optically, which would find numerous applications in different fields, from pharmacology to chemistry. Longitudinal chiral forces are especially promising for tackling the challenging scenario of separating particles of realistically small chiralities. In this work, we study the longitudinal chiral forces arising in dielectric integrated waveguides when the quasi-TE and quasi-TM modes are combined as well as their application to separate absorbing and non-absorbing chiral particles. We show that chiral gradient forces dominate in the scenario of beating of non-denegerate TE and TM modes when considering non-absorbing particles. For absorbing particles, the superposition of degenerate TE and TM modes can lead to chiral forces that are kept along the whole waveguide length. We accompany the calculations of the forces with particle tracking simulations for specific radii and chirality parameters. We show that longitudinal forces can separate non-absorbing chiral nanoparticles in water even for relatively low values of the particle chirality and absorbing particles with arbitrarily low values of chirality can be effectively separated after enough interaction time. [ABSTRACT FROM AUTHOR]

Published

2024

10. Chirality descriptors for structure–activity relationship modeling of bioactive molecules.

Author

Natarajan, Ramanathan, Lungu, Claudiu N., and Basak, Subhash C.

Subjects

CHIRAL centers, BIOMACROMOLECULES, DRUG target, SPATIAL arrangement, DIASTEREOISOMERS, DOPAMINE receptors

Abstract

Owing to the homochirality among the α-amino acids, the building blocks, chiral environmental prevails within the structure of biological macromolecules namely, the proteins, receptors, and enzymes. This results in chiral distinction of the ligands such as drug molecules and toxicants by the biological targets. Chiral distinction of enantiomers is not only important in the biological activity of enantiomers but also in pharmacokinetics and metabolism of chemicals. The molecular descriptors that are based only on the connectivity of atoms cannot differentiate the enantiomers and diastereomers. In order to model the differential activity of enantiomers and diastereomers, molecular descriptors capable of encoding the difference in spatial arrangements of atoms and groups around a chiral center are needed. In this paper we report a modified approach that enables to compute a large pool of chirality descriptors for a given set of molecules. The new chirality descriptors can differentiate enantiomers and diastereomers. Application of the new chiral descriptors in structure–activity modelling of bioactivity of chiral molecules is illustrated for the dopamine (DA) D2 and opiate σ receptor affinities of seven pairs of enantiomers of 3-(3-hydroxyphenyl)piperidines. [ABSTRACT FROM AUTHOR]

Published

2024

11. Hierarchical assembly of Ag40 nanowheel ranging from building blocks to diverse superstructure regulation.

Author

Zhai, Xue-Jing, Luo, Meng-Yu, Luo, Xi-Ming, Dong, Xi-Yan, Si, Yubing, Zhang, Chong, Han, Zhen, Han, Runping, Zang, Shuang-Quan, and Mak, Thomas C. W.

Subjects

CRYSTAL lattices, ENANTIOMERS, NUCLEOTIDES, SILVER, MOLECULES, URIDINE

Abstract

Achieving precise and controllable hierarchical self-assembly of functional nanoclusters within crystal lattices to create distinct architectures is of immense significance, yet it creates considerable challenges. Here we successfully synthesized a silver nanowheel Ag40, along with its optically pure enantiomers S-/R-Ag40. Each species possesses an internal nanospace and exhibits host-guest interactions. These structures are constructed from primary building blocks (Ag9). By manipulating the surface anions and guest molecules, the nanowheels function as secondary building blocks, spontaneously organizing into complex double- and triple-helical crystalline superstructures or one-dimensional chains {Ag41}n through conformational matching and diverse noncovalent interactions. Moreover, we demonstrate that the water-mediated complex specifically assembled with uridine monophosphate nucleotides, resulting in chiral assemblies of Ag40 that exhibit chiroptical activity for specific recognition. Our findings provide insights into the efficient construction of assemblies with hollow frameworks and propose strategies for superstructure engineering by manipulating surface motifs. Achieving precise and controllable hierarchical self-assembly of nanoclusters within crystal lattices is of immense significance yet remains challenging. Here the authors synthesize a silver nanowheel Ag40, along with its optically pure enantiomers S-/R-Ag40, and characterize its self-assembly into double- and triple-helical superstructures. [ABSTRACT FROM AUTHOR]

Published

2024

12. Cu‐Catalyzed Enantioselective Borylative Desymmetrization of 1‐Vinyl Cyclobutanols and Axial‐to‐Point Chirality Transfer in a Diastereoconvergent/Stereoretentive Allylation Scenery.

Author

Hurtado, Josebe, Iragorri, Nerea, Reyes, Efraim, Vicario, Jose L., and Fernández, Elena

Subjects

ALLYLATION, COPPER, CHIRALITY, ENANTIOMERS, BORYLATION

Abstract

Cu‐catalyzed asymmetric allylic borylation of 3,3'‐disubstituted 1‐vinylcyclobutan‐1‐ols renders axially chiral allylborane systems, with high asymmetric induction for both enantiomers, by precise selection of the cis or trans substrate. The enantioenriched alkylidenecyclobutanes served as chiral platform to prove the conceptually challenging transference of the axial‐to‐point chirality through two new stereocenters and one pseudoasymmetric carbon generated via diastereoconvergent allylation of aldehydes, without enantioselective erosion. [ABSTRACT FROM AUTHOR]

Published

2024

13. Overlooked Ionic Contribution of a Chiral Dopant in Cholesteric Liquid Crystals.

Author

Shaban, Hassanein, Wu, Po-Chang, Jia, Yi-Fei, and Lee, Wei

Subjects

CHOLESTERIC liquid crystals, ELECTRIC conductivity, DOPING agents (Chemistry), CELL anatomy, ENANTIOMERS

Abstract

This study focuses on the ionic contribution by a chiral dopant added into a nematic host for preparing cholesteric liquid crystals (CLCs). Chiral structures were designated by individually incorporating two enantiomers, R5011 and S5011, into the nematic E44 to construct right- and left-handed CLCs, respectively. Characterized by the space-charge polarization, the dielectric spectra of the CLCs were investigated in the low-frequency regime, where f  ≤  1 kHz. The role of the individual chiral dopant, R5011 or S5011, at concentrations of 0–4.0 wt.% in altering the ionic properties of the CLC material was analyzed by deducing the electrical conductivity, ion density, and ion diffusivity. Regardless of the cell structure to be antiparallel or twisted by 90°, a significant ionic response was observed in the right-handed CLCs in comparison with the left-handed counterparts, suggesting that excess ions originating from our R5011 were introduced into the mesogenic mixtures. This work alarms the potential contribution of notorious impurity ions by a chiral dopant, which is often ignored in fabricating CLCs for electro-optical applications. [ABSTRACT FROM AUTHOR]

Published

2024

14. Solvent‐Controlled Enantiodivergent Construction of P(V)‐Stereogenic Molecules via Palladium‐Catalyzed Annulation of Prochiral N‐Aryl Phosphonamides with Aromatic Iodides.

Author

Tian, Qingyu, Ge, Jin, Liu, Yaopeng, Wu, Xi, Li, Zhenghao, and Cheng, Guolin

Subjects

ARYLATION, ENANTIOMERS, PALLADIUM, IODIDES, MOLECULES

Abstract

In this work, we describe an efficient and modular method for enantiodivergent accessing P(V)‐stereogenic molecules by utilizing the catalytic atroposelective Catellani‐type C−H arylation/desymmetric intramolecular N‐arylation cascade reaction. The enantioselectivity of this protocol was proved to be tuned by the polarity of the solvent, thus providing a wide range of both chiral P(V)‐stereogenic enantiomers in moderate to good yields with good to excellent enantiomeric excesses. Noteworthy is that the strategy developed herein represents an unprecedented example of solvent‐dictated inversion of the enantioselectivity of P(V)‐stereogenic compounds. [ABSTRACT FROM AUTHOR]

Published

2024

15. Chiral resolution of furofuran lignans and their derivatives from the stems of Dendrobium 'Sonia'.

Author

QIU, Kaimei, QIU, Hao, XIE, Yanqiao, ZHANG, Siyu, ZHANG, Qian, WANG, Zhengtao, HAN, Zhuzhen, and YANG, Li

Abstract

Five new furofuran lignans and their derivatives, (−)-glaberide I 4- O - β -D-glucopyranoside (1a), (+)-glaberide I 4- O - β -D-glucopyranoside (1b), (+)-glaberide I 7'-ethoxy-4- O - β -D-glucopyranoside (2a), (−)-glaberide I 7'-ethoxy-4- O - β -D-glucopyranoside (2b), and (−)-isoeucommin A (3b), along with fifteen known analogs were isolated from the stems of Dendrobium 'Sonia'. These compounds were classified into ten pairs of enantiomers or diastereoisomers via chiral resolution, and their structures were determined based on extensive spectroscopic data. Their absolute configurations were determined by hydrolysis, comparison of experimental and calculated electronic circular dichroism (ECD) data, and single-crystal X-ray diffraction analysis. The isolates were evaluated for their ability to inhibit nitric oxide (NO) production in RAW264.7 cells. Among them, syringaresinol (5) exhibited prominent inhibition activity, with an IC 50 value of 28.4 ± 3.0 μmol·L−1, and there was a slight difference between 5a , 5b and the racemic mixture 5. [ABSTRACT FROM AUTHOR]

Published

2024

16. Enantioselective Binding of Proton Pump Inhibitors to Alpha1-Acid Glycoprotein and Human Serum Albumin—A Chromatographic, Spectroscopic, and In Silico Study.

Author

Dombi, Gergely, Tyukodi, Levente, Dobó, Máté, Molnár, Gergely, Rozmer, Zsuzsanna, Szabó, Zoltán-István, Fiser, Béla, and Tóth, Gergő

Subjects

CARRIER proteins, BLOOD proteins, PROTON pump inhibitors, HIGH performance liquid chromatography, MOLECULAR docking, ENANTIOMERS, CHIRAL stationary phases

Abstract

The enantioselective binding of three proton pump inhibitors (PPIs)—omeprazole, rabeprazole, and lansoprazole—to two key plasma proteins, α1-acid glycoprotein (AGP) and human serum albumin (HSA), was characterized. The interactions between PPI enantiomers and proteins were investigated using a multifaceted analytical approach, including high-performance liquid chromatography (HPLC), fluorescence and UV spectroscopy, as well as in silico molecular docking. HPLC analysis demonstrated that all three PPIs exhibited enantioseparation on an AGP-based chiral stationary phase, suggesting stereoselective binding to AGP, while only lansoprazole showed enantioselective binding on the HSA-based column. Quantitatively, the S-enantiomers of omeprazole and rabeprazole showed higher binding affinity to AGP, while the R-enantiomer of lansoprazole displayed greater affinity for AGP, with a reversal in the elution order observed between the two protein-based columns. Protein binding percentages, calculated via HPLC, were greater than 88% for each enantiomer across both transport proteins, with all enantiomers displaying higher affinity for AGP compared to HSA. Thermodynamic analysis indicated that on the HSA, the more common, enthalpy-controlled enantioseparation was found, while in contrast, on the AGP, entropy-controlled enantioseparation was observed. The study also identified limitations in using fluorescence titration due to the high native fluorescence of the compounds, whereas UV titration was effective for both proteins. The determined logK values were in the range of 4.47–4.83 for AGP and 4.02–4.66 for HSA. Molecular docking supported the experimental findings by revealing the atomic interactions driving the binding process, with the predicted enantiomer elution orders aligning with experimental data. The comprehensive use of these analytical methods provides detailed insights into the enantioselective binding properties of PPIs, contributing to the understanding of their pharmacokinetic differences and aiding in the development of more effective therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2024

17. Enantioselective Separation and Pharmacokinetics of a Chiral 1,4‐Dihydropyrimidine Derivative in Rats: A Combined Chromatography and Docking Approach.

Author

Sri, Chiriki Devi, Faizan, Syed, Chandra, Muttavarapu Rohit, Kumar, B. R. Prashantha, and Gurupadayya, B. M.

Subjects

CHIRAL stationary phases, DRUG efficacy, CHIRAL drugs, ENANTIOMERS, ISOPROPYL alcohol

Abstract

Chirality in 1,4‐Dihydropyrimidines influences their pharmacological properties and synthetic strategies. Enantiomers of chiral drugs often exhibit different pharmacokinetic profiles. Therefore, separating and studying individual enantiomers is crucial to optimize drug efficacy and safety. Enantiomeric separation of ±4‐(4‐chlorophenyl)‐6‐methyl‐2‐oxo‐N‐(O‐toyl)‐1,2,3,4‐tetrahydropyrimidine‐5‐carboxamide (DP‐1), which is a 1,4‐Dihydropyrimidine derivative is achieved on CHIRALCEL® OD‐H column (particle size: 5 μm, inner diameter: 4.6 mm, length:150 mm), following by investigating the kinetic properties of (R) and (S) enantiomers. The separation was achieved with a mobile phase composed of 70% (v/v) isopropyl alcohol and 30% (v/v) n‐hexane. For the bioanalytical study, acetonitrile was used to precipitate the rat plasma samples and validated the method according to USFDA guidelines. The validated bioanalytical method was then successfully applied to determine the pharmacokinetic parameters of the drug in biological samples. Molecular modeling techniques, specifically docking simulations, were employed to predict the elution order of DP‐1 enantiomers. The docking results revealed moderate binding interactions between the enantiomers and the chiral stationary phase (CSP), which aligns with the theoretical expectation that stronger interactions lead to longer retention times on the column. [ABSTRACT FROM AUTHOR]

Published

2024

18. Determination of Ibuprofen Enantiomers in Mouse Blood Using Liquid Chromatography–Tandem Mass Spectrometry and Its Application to a Pharmacokinetic Study.

Author

Li, Yuexin, Li, Jinglai, Yang, Huanhuan, Luo, Huan, Liu, Shiqi, Han, Furong, Ruan, Zhipeng, and Xiong, Zhili

Subjects

PROPIONIC acid, INTRAVENOUS therapy, MASS spectrometry, ANIONS, ENANTIOMERS, LIQUID chromatography-mass spectrometry

Abstract

The aim of this study was to establish a simple, fast, and sensitive method with liquid chromatography–tandem mass spectrometry (LC–MS/MS) for simultaneously determining ibuprofen enantiomers using mouse blood in very small volumes. LC–MS/MS equipped with an electrospray ionization (ESI) source was used in negative ion mode and multiple‐reaction monitoring mode. Enantiomer chromatographic separation was carried out on a Lux® 5 μm Cellulose‐3 (250 × 4.6 mm, 5 μm) column at a flow rate of 0.6 mL/min. Samples were pretreated by extracting only 5 μL of blood with 40 μL of acetonitrile (containing 1.3% formic acid) so that a concentration‐time profile could be completed using a single mouse. 2‐(4‐Propylphenyl) propanoic acid was used as an internal standard. Standard curves for each enantiomer were linear from 0.04 to 80.00 μg/mL, demonstrating a lower limit of quantitation (LLOQ) than all previously reported methods. This method was completely validated and successfully executed to investigate the pharmacokinetics of ibuprofen enantiomers after intravenous administration of racemic ibuprofen, (S)‐(+)‐ibuprofen, and (R)‐(−)‐ibuprofen in Kunming mice, respectively. The results showed that the pharmacokinetic profiles of the (R)‐(−)‐ibuprofen and (S)‐(+)‐ibuprofen were significantly different, indicating the unidirectional inversion of R‐(−)‐ibuprofen to (S)‐(+)‐ibuprofen. [ABSTRACT FROM AUTHOR]

Published

2024

19. Quantification of enantiomers and blind identification of erythro-sphingosine non-racemates by cold ion spectroscopy.

Author

Kopysov, Vladimir, Yamaletdinov, Ruslan, and Boyarkin, Oleg V.

Subjects

SPECTROMETRY, IONS, RACEMIC mixtures, MOLECULES, ENANTIOMERS, LIPIDS

Abstract

Enantiomers of a lipid erythro-sphingosine have been quantified with ≈4% accuracy by UV cold ion spectroscopy of their non-covalent complexes with a chiral aromatic molecule. The diastereomeric configuration of such complexes enables the quantification using just a single enantiomeric lipid standard and the identification of non-racemic solutions with no standards at all. [ABSTRACT FROM AUTHOR]

Published

2024

20. S -(+)-Carvone, a Monoterpene with Potential Anti-Neurodegenerative Activity—In Vitro, In Vivo and Ex Vivo Studies.

Author

Wojtunik-Kulesza, Karolina A., Rudkowska, Monika, Klimek, Katarzyna, Mołdoch, Jarosław, Agacka-Mołdoch, Monika, Budzyńska, Barbara, and Oniszczuk, Anna

Subjects

BUTYRYLCHOLINESTERASE, REACTIVE oxygen species, TRADITIONAL medicine, CARVONE, ENANTIOMERS

Abstract

Carvone, a natural monoterpene, has been identified in various plants, giving them a characteristic scent. Enantiomers (R-(–) and S-(+)) reveal specific biological activities that are successfully used in traditional medicine for their antifungal, antibacterial, antiparasitic, and anti-influenza properties. The presented paper is based on S-(+)-carvone, characterized by a specific caraway scent, which revealed rich biological activities both in vitro and in vivo. Thus, the aim of the study was to evaluate the potential anti-neurodegenerative activity of S-(+)-carvone, including in vitro experiments (butyrylcholinesterase inhibitory, neuro- and hepatotoxicity as well as neuro- and hepatoprotective activity), in vivo (memory acquisition, locomotor activity), and ex vivo (determination of S-(+)-carvone's level in tissues collected from mice). Results revealed the multidirectional character of S-(+)-carvone. It has been shown that S-(+)-carvone is capable of butyrylcholinesterase inhibition (40% for 0.025 mg applied onto the plate), and neuroprotection and hepatoprotection at selective concentrations against reactive oxygen species generation and lipid peroxidation along with non-hepatotoxicity character. Additionally, multiple-dose administration of the monoterpene at a dose of 100 mg/kg had a positive influence on memory acquisition. Gas chromatography–mass spectrometry analysis of the plasma and the brain showed that S-(+)-carvone can cross the blood–brain barrier and accumulate in the hippocampus (0.217 µg/mg of tissue), a crucial part of the brain associated with cognition and mental functions. [ABSTRACT FROM AUTHOR]

Published

2024

21. Mechanistic Insight into the Enantioselective Degradation of Esterase QeH to (R)/(S)–Quizalofop–Ethyl with Molecular Dynamics Simulation Using a Residue-Specific Force Field.

Author

Zhu, Yu-Meng, Yao, Gui, Shao, Song, Liu, Xin-Yu, Xu, Jun, Chen, Chun, Zhang, Xing-Wang, Huang, Zhuo-Ran, Xu, Cheng-Zhen, Zhang, Long, and Wu, Xiao-Min

Subjects

MOLECULAR dynamics, MOLECULAR interactions, SOCIAL interaction, ENANTIOMERS, BENZENE

Abstract

The enantioselective mechanism of the esterase QeH against the two enantiomers of quizalofop–ethyl (QE) has been primitively studied using computational and experimental approaches. However, it is still unclear how the esterase QeH adjusts its conformation to adapt to substrate binding and promote enzyme–substrate interactions in the catalytic kinetics. The equilibrium processes of enzyme–substrate interactions and catalytic dynamics were reproduced by performing independent molecular dynamics (MD) runs on the QeH-(R)/(S)-QE complexes with a newly developed residue-specific force field (RSFF2C). Our results indicated that the benzene ring of the (R)-QE structure can simultaneously form anion–π and cation–π interactions with the side-chain group of Glu328 and Arg384 in the binding cavity of the QeH-(R)-QE complex, resulting in (R)-QE being closer to its catalytic triplet system (Ser78-Lys81-Tyr189) with the distances measured for the hydroxyl oxygen atom of the catalytic Ser78 of QeH and the carbonyl carbon atom of (R)-QE of 7.39 Å, compared to the 8.87 Å for (S)-QE, whereas the (S)-QE structure can only form an anion–π interaction with the side chain of Glu328 in the QeH-(S)-QE complex, being less close to its catalytic site. The computational alanine scanning mutation (CAS) calculations further demonstrated that the π–π stacking interaction between the indole ring of Trp351 and the benzene ring of (R)/(S)-QE contributed a lot to the binding stability of the enzyme–substrate (QeH-(R)/(S)-QE). These results facilitate the understanding of their catalytic processes and provide new theoretical guidance for the directional design of other key enzymes for the initial degradation of aryloxyphenoxypropionate (AOPP) herbicides with higher catalytic efficiencies. [ABSTRACT FROM AUTHOR]

Published

2024

22. MzDOCK: A free ready‐to‐use GUI‐based pipeline for molecular docking simulations.

Author

Kabier, Muzammil, Gambacorta, Nicola, Trisciuzzi, Daniela, Kumar, Sunil, Nicolotti, Orazio, and Mathew, Bijo

Subjects

MOLECULAR docking, BINDING sites, DRUG design, GRAPHICAL user interfaces, SMALL molecules, ENANTIOMERS

Abstract

Molecular docking is by far the most preferred approach in structure‐based drug design for its effectiveness to predict the scoring and posing of a given bioactive small molecule into the binding site of its pharmacological target. Herein, we present MzDOCK, a new GUI‐based pipeline for Windows operating system, designed with the intent of making molecular docking easier to use and higher reproducible even for inexperienced people. By harmonic integration of python and batch scripts, which employs various open source packages such as Smina (docking engine), OpenBabel (file conversion) and PLIP (analysis), MzDOCK includes many practical options such as: binding site configuration based on co‐crystallized ligands; generation of enantiomers from SMILES input; application of different force fields (MMFF94, MMFF94s, UFF, GAFF, Ghemical) for energy minimization; retention of selectable ions and cofactors; sidechain flexibility of selectable binding site residues; multiple input file format (SMILES, PDB, SDF, Mol2, Mol); generation of reports and of pictures for interactive visualization. Users can download for free MzDOCK at the following link: https://github.com/Muzatheking12/MzDOCK. [ABSTRACT FROM AUTHOR]

Published

2024

23. Time-Resolved Circular Dichroism in Molecules: Experimental and Theoretical Advances.

Author

Monti, Marta, Biancorosso, Leonardo, and Coccia, Emanuele

Subjects

CIRCULAR dichroism, MOLECULAR dynamics, ENANTIOMERS, ACCESS to information, CHIRALITY

Abstract

Following changes in chirality can give access to relevant information on the function or reactivity of molecular systems. Time-resolved circular dichroism (TRCD) spectroscopy proves to be a valid tool to achieve this goal. Depending on the class of molecules, different temporal ranges, spanning from seconds to femtoseconds, need to be investigated to observe such chiroptical changes. Therefore, over the years, several approaches have been adopted to cover the timescale of interest, especially based on pump–probe schemes. Moreover, various theoretical approaches have been proposed to simulate and explain TRCD spectra, including linear and non-linear response methods as well as non-adiabatic molecular dynamics. In this review, an overview on both experimental and theoretical advances in the TRCD field is provided, together with selected applications. A discussion on future theoretical developments for TRCD is also given. [ABSTRACT FROM AUTHOR]

Published

2024

24. Considerations and perspectives on the practice of incurred sample reanalysis assessment for chiral drugs.

Author

Srinivas, Nuggehally R., Kallem, Raja Reddy, and Bartlett, Michael G.

Abstract

Given the inherent complexities of bioanalysis, the role of incurred sample reanalysis (ISR) is increasingly appreciated in regulatory bioanalysis. Incurred sample reanalysis has evolved as an integral part of an assay to ensure method reproducibility. The current regulatory ISR guidelines do not provide clarity regarding ISR assessment for chiral drugs comprising enantiomers. Because chiral assays evaluate two enantiomers, there are additional complexities associated with the ISR data generation and interpretation. Based on the current literature, the practices for conducting ISR in chiral methods were reviewed and assessed. While ISR was conducted in chiral methods for both enantiomers using the acceptance criteria prescribed for non‐chiral methods, there may be a need to streamline the nuances of ISR data interpretation and define the ISR requirements for chiral methods. The article provides perspectives on the ISR of enantiomeric drugs, including strategy development, by providing various hypothetical scenarios and possible considerations for defining ISR evaluation for chiral assays. [ABSTRACT FROM AUTHOR]

Published

2024

25. Enantiomer Recognition by the Difference in Adsorption Rates on the Surfaces of Chiral Crystals.

Author

Belonogov, Eduard, Ermolaeva, Ekaterina, Zinoviev, Ilya, Zhang, Zhi‐hui, and Guskov, Vladimir

Subjects

ADSORPTION kinetics, CRYSTAL surfaces, ENANTIOMERS, CHIRALITY, MENTHOL

Abstract

The chirality of biopolymers remains one of the mysteries of Life. For such objects, the phenomenon of supramolecular chirality (SMC) is vital. Enantiomers can be recognized by the adsorption on surfaces with SMC. However, the mechanisms of such chiral recognition are still unknown. In this work, the adsorption kinetics of menthol test enantiomers on the surfaces of γ‐glycine and NiSO4•6H2O chiral crystals was studied. It was found that the difference in adsorption was observed in nonequilibrium state more often than in equilibrium. If the enantioselectivity in equilibrium state was observed, the enantioselectivity coefficient α at nonequilibrium conditions was higher. The maximum α in nonequilibrium state was 2.44 for γ‐glycine crystals and 2.12 for NiSO4•6H2O crystals. Even if no differences in adsorption were observed under adsorption–desorption equilibrium conditions, a significant enantioselectivity at nonequilibrium conditions was found. This has proved the possibility of chiral recognition on surfaces with SMC by the differences in adsorption rates. Such novel chiral recognition mechanism can provide enhanced enantioselectivity in adsorption, catalysis, chromatographic separation, and chemical sensing. [ABSTRACT FROM AUTHOR]

Published

2024

26. Design, Synthesis, and Applications of Bis‐Amido HPLC Pirkle‐Type Chiral Stationary Phases.

Author

Guarducci, Maria Aurora, Manetto, Simone, Pierini, Marco, Mazzoccanti, Giulia, and Villani, Claudio

Subjects

STACKING interactions, NUCLEAR magnetic resonance spectroscopy, MOLECULAR docking, HIGH performance liquid chromatography, ENANTIOMERS

Abstract

Two different types of chiral stationary phases, based on Pirkle's design, were created by attaching chiral selectors to 3‐mercapto silica gel. To prepare the enantiomeric selectors, 3,5‐dinitrobenzoyl and naphthyl groups were sequentially added to a chiral 1,2‐diaminocyclohexane core. The chiral selectors demonstrated enantioselectivity towards ibuprofen enantiomers in solution, as confirmed by 1H NMR spectroscopy, and in initial HPLC testing, the enantiomeric selectors showed enantioselectivity for selected racemic solutes (viz., α = 1.27 for1,1′‐bi‐(2‐naphthol)). Molecular docking studies revealed that the chiral selectors had a bent structure and a cleft‐like cavity where the analyte could be held during complexation while establishing H‐bonding and π–π stacking interactions. [ABSTRACT FROM AUTHOR]

Published

2024

27. Molecular Docking of Chiral Drug Enantiomers With Different Bioactivities.

Author

Semenova, Ekaterina V., Belova, Ekaterina V., Sulimov, Alexey V., and Sulimov, Vladimir B.

Subjects

CHIRAL drugs, MOLECULAR docking, QUANTUM chemistry, CHEMICAL models, DRUG design

Abstract

Chirality has an important role in the drug design because enantiomers may exhibit different bioactivity when interacting with macromolecules of a living organism. In our previous work, based on the analysis of a set of 100 chiral drugs, a relationship was established between the sign of chirality of enantiomers and their bioactivity. To understand the reasons for the observed patterns of chiral specificity of drug enantiomers, the interaction of 10 enantiomeric pairs of chiral drugs with the corresponding target proteins has been considered using molecular docking and further postprocessing by quantum chemistry methods. The data obtained confirm that the energetic aspect of the interaction between opposite enantiomers and target protein affects the enantiomer biological activity. In addition, the results show that molecular docking is able to distinguish between bioactive and inactive/less active enantiomers, although many docking programs are not accurate enough to distinguish a weak inhibitor from a strong one. [ABSTRACT FROM AUTHOR]

Published

2024

28. 从酒石酸中探寻手性的奥秘.

Author

瞿科颖, 李杰, 赖紫秋, and 陈凯

Subjects

OPTICAL rotation, TARTARIC acid, ACID solutions, MOLECULAR models, ENANTIOMERS

Abstract

Copyright of University Chemistry is the property of Peking University, College of Chemistry & Molecular Engineering and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

29. Diastereomers of the Anticancer Peptide CIGB-300 with Altered β-Turn Structures.

Author

Moya, Celia G., Rodriguez, Rafael, Perez, Carlos S., Garay, Hilda, Wiesent, Julian, Gröger, Stefan, Masforrol, Yordanka, Perera, Yasser, Perea, Silvio E., and Balbach, Jochen

Abstract

Purpose: The next-generation anti-tumor drug peptide CIGB-300, developed by the Center for Genetic Engineering and Biotechnology (CIGB), targets casein kinase 2 (CK2) and its substrates, implicating significant therapeutic potential in cancer treatment. A key focus of this study was to compare CIGB-300 and a primary synthetic byproduct, CIGB-300iso, which shares the amino acid sequence with CIGB-300 but was proposed to differ due to racemization. Methods: This study explores the synthesis, characterization, and structural elucidation of CIGB-300 and its isomer CIGB-300iso by a comprehensive NMR analysis of seven synthesized diastereomers including amino acid residues C15, H21, and C25. Results: This study revealed that CIGB-300iso contains one D enantiomer at position H21. The structures of both isoforms derived from NMR constraints disclosed that the L and D enantiomers have an altered peptide supersecondary structure, with a β-turn type IV3 found in CIGB-300 and a type I β-turn in CIGB-300iso. Conclusion: The configuration of H21 significantly impacts the peptide’s conformations, sidechain orientations and, potentially, its biological activity. These findings highlight the importance of enantiomerically pure peptides for the design and synthesis of drug peptides. [ABSTRACT FROM AUTHOR]

Published

2025

30. Evaluation of chiral organosulfur compounds on their activity against the malaria parasite 'Plasmodium falciparum'

Author

Ngwa, Che Julius, Stratmann, Rabea, Musabyimana, Jean Pierre, Pannen, Kristina, Schobel, Jan-Hendrik, Frings, Marcus, Schiffers, Ingo, Quaranta, Calogero, Koschmieder, Steffen, Chatain, Nicolas, Pradel, Gabriele, and Bolm, Carsten

Published

2022

31. Quasi-relativistic approach to analytical gradients of parity violating potentials.

Author

Brück, Sascha A., Sahu, Nityananda, Gaul, Konstantin, and Berger, Robert

Subjects

VIBRATIONAL spectra, ENANTIOMERS, MOLECULES

Abstract

An analytic gradient approach for the computation of derivatives of parity-violating (PV) potentials with respect to displacements of the nuclei in chiral molecules is described and implemented within a quasirelativistic mean-field framework. Calculated PV potential gradients are utilized for estimating PV frequency splittings between enantiomers in rotational and vibrational spectra of four chiral polyhalomethanes, i.e., CHBrClF, CHClFI, CHBrFI, and CHAtFI. Values calculated within the single-mode approximation for frequency shifts agree well with previously reported theoretical values. The influence of non-separable anharmonic effects (multi-mode effects) on vibrational frequency shifts, which are readily accessible with the present analytic derivative approach, is estimated for the C–F stretching fundamental of all four molecules and computed for each of the fundamentals in CHBrClF and CHAtFI. Multi-mode effects are found to be significant, in particular, for C–F stretching modes, being for some modes and cases of similar size as the single-mode contribution. [ABSTRACT FROM AUTHOR]

Published

2023

32. Stereodivergent Construction of 1,5/1,7‐Nonadjacent Tetrasubstituted Stereocenters Enabled by Pd/Cu‐Cocatalyzed Asymmetric Heck Cascade Reaction.

Author

Li, Panpan, Liu, Zijiao, Huo, Xiaohong, and Zhang, Wanbin

Subjects

HECK reaction, METAL catalysts, OXINDOLES, FUNCTIONAL groups, ENANTIOMERS

Abstract

The construction of chiral motifs containing nonadjacent stereocenters in an enantio‐ and diastereoselective manner has long been a challenging task in synthetic chemistry, especially with respect to their stereodivergent synthesis. Herein, we describe a protocol that enables the enantio‐ and diastereoselective construction of 1,5/1,7‐nonadjacent tetrasubstituted stereocenters through a Pd/Cu‐cocatalyzed Heck cascade reaction. Notably, a C=C bond relay strategy involving the shift of the π‐allyl palladium intermediate was successfully applied in the asymmetric construction of 1,7‐nonadjacent stereocenters. The current method allows for the efficient preparation of chiral molecules bearing two privileged scaffolds, oxindoles and non‐natural α‐amino acids, with good functional group tolerance. The full complement of the four stereoisomers of products bearing 1,5/1,7‐nonadjacent stereocenters could be readily accessed by a simple combination of two chiral metal catalysts with different enantiomers. [ABSTRACT FROM AUTHOR]

Published

2024

33. Chiral Self‐Discrimination Induced Luminescence Vapochromism of Binaphthol Imides for Anti‐Counterfeiting and Data Encryption.

Author

Zhang, Yang, Chen, Hong‐Ming, and Lin, Mei‐Jin

Subjects

DATA encryption, REVERSIBLE phase transitions, BINAPHTHOL, LUMINESCENCE, MATERIALS science, ENANTIOMERS, CHIRAL recognition, BISIMIDES

Abstract

Chiral self‐discrimination plays a critical role in supramolecular chemistry and materials science. However, an ideal strategy for achieving chiral self‐discrimination remains elusive due to the inevitable nonspecific binding of incorrect enantiomers, and insufficient intrinsic optical activity of chiral molecules. Herein, a novel 1,1′‐binaphthol (BINOL) derivative with an imide group fused at the peri‐position of one naphthol scaffold is developed, which combines the dual functionalities of aggregation‐induced emission characteristic of BINOLs, and high emission of 1,8‐naphthalimides. The multiple molecular recognition between two hydroxyl groups in BINOL units and two carbonyl groups in 1,8‐naphthalimide moieties endows the precise chiral self‐discrimination behaviors. As expected, the homochiral aggregates exhibit reversible phase transitions, switching from non‐emission to bright green emission upon absorption and desorption of methanol vapor. In contrast, the heterochiral conglomerates exhibit irreversible yellow emission changes due to the impact of chiral self‐discrimination. Such chiral self‐discrimination‐induced luminescence vapochromism can be further applied to high‐level anti‐counterfeiting and data encryption. This work provides a new perspective on smart chiral organic materials based on chiral self‐discrimination. [ABSTRACT FROM AUTHOR]

Published

2024

34. Chiral resolution of ketoprofen by modified polymethyl methacrylate microspheres.

Author

Zhang, Runfeng, Yuan, Lin, He, Xiangqiong, Cong, Hailin, Yu, Bing, and Shen, Youqing

Subjects

RESOLUTION (Chemistry), CHIRAL stationary phases, MICROSPHERES, SILICA gel, METHACRYLATES, HIGH performance liquid chromatography, NONSTEROIDAL anti-inflammatory agents

Abstract

Due to unique structural characteristics and chiral environment, β‐cyclodextrin (β‐CD) has a strong chiral separation ability. 4‐Chlorophenyl isocyanate (4CPI) also plays an important role in separating chiral drugs. In this paper, a chiral stationary phase: 4‐CPI‐β‐CD stationary phase (4CPI‐β‐CD@PMMA) was designed and prepared. Polymethyl methacrylate (PMMA) microspheres with uniform particle size and good monodispersity were prepared by modified seed polymerization and seed expansion methods. Using diazo resin as a coupling agent, PMMA microspheres were connected with 4CPI‐β‐CD to prepare a stationary phase with chiral recognition ability. PMMA microspheres and 4CPI‐β‐CD were also characterized. Compared with the traditional silica gel column, PMMA microspheres have higher preparation efficiency, better monodispersity, and better mechanical properties as chromatographic fillers. Finally, the chiral separation of ketoprofen was carried out by reversed‐phase high‐performance liquid chromatography, and the separation conditions were optimized. This paper is a good idea for the preparation of the chiral stationary phase. [ABSTRACT FROM AUTHOR]

Published

2024

35. Simultaneous and in situ syntheses of an enantiomeric pair of homochiral polymers as their perfect stereocomplex in a crystal.

Author

Khazeber, Ravichandran, Pathak, Sourav, and Sureshan, Kana M.

Subjects

ENANTIOMERS, X-ray diffraction, CHIRALITY, RING formation (Chemistry), MONOMERS, POLYMERS

Abstract

Circumventing the issues of conventional stereocomplexation of preformed polymers, herein, we synthesize two enantiopure polymers of opposite chirality simultaneously and in situ as their 1:1 stereocomplex via topochemical polymerization. We design and synthesize an inositol-based achiral monomer for topochemical ene-azide cycloaddition (TEAC) polymerization. In the crystal, the monomer exhibits conformational enantiomerism, and its conformational enantiomers are self-sorted in an arrangement for TEAC polymerization to yield two enantiopure polymers of opposite chirality. Upon heating the monomer crystals, each self-sorted set of conformational enantiomers undergoes regio- and stereospecific polymerization in a single-crystal-to-single-crystal fashion, generating two 1, 4-triazolinyl-linked polymers of opposite chirality simultaneously. The new chiral carbons in all the triazoline rings of a particular polymer chain have the same absolute configuration. These homochiral polymer strands align parallelly, forming a layer, and such enantiopure layers of opposite chirality stack alternately, forming a perfect 1:1 stereocomplex, which we confirmed using single-crystal XRD analysis. Stereocomplexation is a powerful strategy for improving polymer properties but inefficient complexation remains a major challenge in stereocomplex formation. Here, the authors circumvent the difficulties of conventional stereocomplexation of preformed polymers and, synthesize two enantiopure polymers of opposite chirality simultaneously and in situ as their stereocomplex via topochemical polymerization. [ABSTRACT FROM AUTHOR]

Published

2024

36. 葡萄酒加工过程中己唑醇对映体的选择性降解及 其对酿酒酵母生长的影响.

Author

张金旭, 李福敏, 王梦涛, and 孙大利

Subjects

LIQUID chromatography-mass spectrometry, SACCHAROMYCES cerevisiae, GRAPES, STANDARD deviations, ENANTIOMERS

Abstract

Copyright of Chinese Journal of Pesticide Science / Nongyaoxue Xuebao is the property of Chinese Journal of Pesticide Science and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

37. Two pairs of new isobenzofuranone enantiomers from a soil-derived fungus Penicillium canescens DWS225.

Author

Wang, Jing, Wu, Xiao-Qian, Mo, Ji-Song, Tan, Yu-Fen, Long, Hong-Ping, Zhou, Si-Qian, Liu, Shao, Li, Jing, and Wang, Wen-Xuan

Subjects

ENANTIOMERS, PENICILLIUM, REPERFUSION injury, FUNGI, FERMENTATION

Abstract

Two pairs of new isobenzofuranone derivative enantiomers, (±)-penicifurans E (1) and (±)-penicifurans F (2), together with four know compounds (3–6) were isolated from the solid fermentation of Penicillium canescens DWS225. The structures of these enantiomers were elucidated by extensive NMR spectroscopic data, and their absolute configurations were assigned by the experimental and calculated ECD data. The neuroprotective effects of all the isolates against oxygen-glucose deprivation/reperfusion injury in pheochromocytoma-12 cells (PC12) were investigated. [ABSTRACT FROM AUTHOR]

Published

2024

38. Chiral Heterometallic Cu8Ln4 Complexes with Enantiopure Schiff Base Ligands: Synthesis, Structural, Spectroscopic and Magnetic Studies.

Author

Dermitzaki, Despina, Panagiotopoulou, Angeliki, Pissas, Michael, Psycharis, Vassilis, and Raptopoulou, Catherine P.

Subjects

RELAXATION phenomena, MAGNETIC relaxation, SPACE groups, MAGNETIC measurements, MIRROR images

Abstract

The enantiomerically pure Schiff base ligands H2L‐S and H2L‐R yield chiral heterometallic dodecanuclear complexes of the form [Cu8Ln4(OH)8(OMe)4(O2CBut)8(L‐S or L‐R)4(H2O)4] where LnIII=Gd (1S), Tb (2S), Dy (3S, 3R), Ho (4S, 4R), Er (5S) or Y (6S, 6R) and H2L=(S or R)‐2‐{[(1‐hydroxypropan‐2‐yl)imino]methyl}‐6‐methoxyphenol. The complexes are isomorphous and crystallize in the non‐centrosymmetric polar space group C2 in enantiomeric conformation. The chirality of the Schiff base ligands originates from the respective S‐ or R‐ enantiomer of 2‐aminopropan‐1‐ol, is imparted to the complexes and to the crystals that belong to non‐centrosymmetric space group. The chirality and enantiomeric conformation of all complexes are retained in dmso solutions as confirmed by Circular Dichroism spectra which consist of mirror images, expected for enantiomeric pairs. All complexes consist of four distorted cubane‐like subunits [Cu2Ln2(μ3‐OH)2(μ3‐OMe)(μ3‐OR)], which share the LnIII ions and result in a cyclic distorted tetragonal arrangement; each edge of the {LnIII4} quadrilateral is occupied by two μ‐OH− ions that further bridge to a CuII ion. Magnetic susceptibility measurements revealed ferromagnetic interactions for 3S with LnIII=Dy and antiferromagnetic interactions for all other complexes. AC susceptibility data of 3S under 1 kOe external dc field indicate slow magnetic relaxation phenomena below 2 K. [ABSTRACT FROM AUTHOR]

Published

2024

39. Preparation and study of a capillary electrochromatographic column prepared by conjugating β-CD COFs and gold-poly glycidyl methacrylate nanoparticles.

Author

Long, Ke, Guan, Jin, Yu, Jiatong, Zhang, Dongxiang, and Shi, Shuang

Subjects

CAPILLARY electrochromatography, GLYCIDYL methacrylate, FOURIER transform infrared spectroscopy, CAPILLARY columns, ISOMERS, OMEPRAZOLE

Abstract

A new enantioselective open-tubular capillary electrochromatography (OT-CEC) was developed employing β-cyclodextrin covalent organic frameworks (β-CD COFs) conjugated gold-poly glycidyl methacrylate nanoparticles (Au-PGMA NPs) as a stationary phase. The resulting coating layer on the inner wall of the fabricated capillary column was characterized by scanning electron microscopy (SEM), Fourier transform infrared spectroscopy (FT-IR), energy dispersive spectroscopy (EDS), and electroosmotic flow (EOF) experiments. The performance of the fabricated capillary column was evaluated by CEC using enantiomers of seven model analytes, including two proton pump inhibitors (PPIs, omeprazole and tenatoprazole), three amino acids (AAs, tyrosine, phenylalanine, and tryptophan), and two fluoroquinolones (FQs, gatifloxacin and sparfloxacin). The influences of coating time, buffer concentration, buffer pH, and applied voltage on enantioseparation were investigated to obtain satisfactory enantioselectivity. In the optimum conditions, the enantiomers of seven analytes were fully resolved within 10 min with high resolutions of 3.03 to 5.25. The inter- to intra-day and column-to-column repeatabilities of the fabricated capillary column were lower than 4.26% RSD. Furthermore, molecular docking studies were performed based on the chiral fabricated column and as ligand isomers of analytes using Auto Dock Tools. The binding energies and interactions acquired from docking results of analytes supported the experimental data. [ABSTRACT FROM AUTHOR]

Published

2024

40. Magneto-electrochemical method for chiral recognition of amino acid enantiomers.

Author

Jia, Yueqian, Wu, Wubin, Chen, Rui, Wang, Hong, Zhang, Chuang, Chen, Lili, and Yao, Jiannian

Subjects

ENANTIOMERS, AMINO acids, MOLECULAR structure, CHIRAL recognition, MAGNETIC field effects, CHIRALITY of nuclear particles, MAGNETIC fields

Abstract

Chiral recognition of enantiomers with identical mirror-symmetric molecular structures is important for the analysis of biomolecules, and it conventionally relies on stereoselective interactions in chiral chemical environments. Here, we develop a magneto-electrochemical method for the enhanced detection of chiral amino acids (AAs), that combines the advantages of the high sensitivity of electrochemiluminescent (ECL) biosensors and chirality-induced effects under a magnetic field. The ECL difference between L - and D -enantiomers can be amplified over 35-fold under a field of 3.5 kG, and the chiral discrimination can be achieved in dilute AA solutions down to the nM level. The field-dependent ECL and chronocoulometry measurements suggest that chiral AAs can lock the spins on their radicals and thus enlarge the ECL change under applied magnetic fields (magneto-ECL, MECL), which explains the field-enhanced chiral discrimination of AA enantiomers. Finally, a detailed protocol is demonstrated for the identification of unknown AA solutions, in which the species, chirality and concentration of AAs can be determined simultaneously from the 2D plots of the ECL and MECL results. This work benefits the development of field-assisted detection methods and represents a promising and universal strategy for the comprehensive analysis of chiral biomolecules. [ABSTRACT FROM AUTHOR]

Published

2024

41. Enzymatic and Chemo–catalytic Redox Deracemization: Recent Progress.

Author

Wan, Qian, Wang, Zehua, Sun, Huairi, Song, Di, Wang, Xiaojing, and Liu, Lei

Subjects

DERACEMIZATION, OXIDATION-reduction reaction, ASYMMETRIC synthesis, SMALL molecules, BIOCATALYSIS, ENANTIOMERS, RACEMIC mixtures

Abstract

The precise synthesis of chiral small molecules is a core research area in chemical science. Deracemization, an appealing technology that converts racemate to its single enantiomer with the same constitution in theoretical 100 % yield, appears as a straightforward and efficient strategy in asymmetric synthesis. A cascading redox sequence was the most employed approach to drive deracemization through destroy and recreate the stereocenter in a given molecule. This review mainly focuses on the progress of redox deracemization driven by respective biocatalysis and chemo–catalysis. In particular, each section will be subdivided according to the action modes, the respective substrate classes and perspectives on future development. [ABSTRACT FROM AUTHOR]

Published

2024

42. New alkaloids from Polygonatum zanlanscianense Pamp.

Author

Zhang, Xue-Ke, Han, Zhu-Zhen, Yang, Li, Zhang, Peng-Fei, Zhang, Hong, and Liu, Shou-Jin

Subjects

ALKALOIDS, ENANTIOMERS

Abstract

Sixteen alkaloid compounds were isolated from the dried rhizomes of P. zanlanscianense, including a pair of new enantiomers (R/S)-7'-ethoxy-trans-p-couma-royltyramine (1a/1b) and 14 known compounds (2-14) isolated from this plant for the first time. The structures of new compounds were identified by IR, NMR and MS spectroscopic analysis, and their absolute configurations were determined by comparison of the experimental and calculated ECD data. [ABSTRACT FROM AUTHOR]

Published

2024

43. Chiral Selectivities of Permethylated α-, β-, and γ-Cyclodextrins Containing Gas Chromatographic Stationary Phases towards Ibuprofen and Its Derivatives.

Author

Juvancz, Zoltan, Bodane-Kendrovics, Rita, Agoston, Csaba, Czegledi, Balazs, Kaleta, Zoltan, Jicsinszky, Laszlo, and Riszter, Gergo

Subjects

IBUPROFEN, CHIRAL stationary phases, OPTICAL isomers, CYCLODEXTRINS, ENANTIOMERS, ISOMERS, GASES, ANALGESICS

Abstract

Ibuprofen is a well-known and broadly used, nonsteroidal anti-inflammatory and painkiller medicine. Ibuprofen is a chiral compound, and its two isomers have different biological effects, therefore, their chiral separation is necessary. Ibuprofen and its derivatives were used as model compounds to establish transportable structure chiral selectivity relationships. Chiral selectors were permethylated α-, β-, and γ-cyclodextrins containing gas chromatographic stationary phases. The chiral selectivity of ibuprofen as a free acid and its various alkyl esters (methyl, ethyl, propyl, isopropyl, butyl, isobutyl, and isoamyl esters) derivatives were tested at different temperatures. Every tested stationary phase was capable of the chiral separations of ibuprofen in its free acid form. The less strong included S optical isomers eluted before R optical isomers in every separate case. The results offer to draw transportable guidelines for the chiral selectivity vs. analyte structures. It was recognized that the S isomers of free ibuprofen acid showed an overloading phenomenon, but the R isomer did not. The results were supported by molecular modeling studies. [ABSTRACT FROM AUTHOR]

Published

2024

44. BINOL‐Based Chiral Macrocycles and Cages.

Author

Yu, Yabing, Hu, Yaning, Ning, Chengbing, Shi, Wudi, Yang, Ao, Zhao, Yibo, Cao, Zhong‐Yan, Xu, Youzhi, and Du, Pingwu

Subjects

ENANTIOSELECTIVE catalysis, GLYCOLS, BINAPHTHOL, LUMINESCENCE, ENANTIOMERS

Abstract

Chirality, a fundamental principle in chemistry, biology, and medicine, is prevalent in nature and in organisms. Chiral molecules, such as DNA, RNA, and proteins, are crucial in biomolecular synthesis, as well as in the development of functional materials. Among these, 1,1′‐binaphthyl‐2,2′‐diol (BINOL) stands out for its stable chiral configuration, versatile functionality, and commercial availability. BINOL is widely employed in asymmetric catalysis and chiral materials. This review mainly focuses on recent research over the past five years concerning the use of BINOL derivatives for constructing chiral macrocycles and cages. Their contributions to chiral luminescence, enantiomeric separation, transmembrane transport, and asymmetric catalysis were examined. [ABSTRACT FROM AUTHOR]

Published

2024

45. Cellulose derivative hybrid porous polydivinylbenzene microspheres for chiral chromatography separation.

Author

Yang, Yang, Bi, Yujie, Zhao, Yang, Cai, Changyu, Liang, Xinmiao, and Ke, Yanxiong

Subjects

HIGH performance liquid chromatography, CHEMICAL structure, CELLULOSE, ENANTIOMERS, MICROSPHERES

Abstract

In this work, a modified suspension polymerization method was developed to synthesize cellulose derivative hybrid polydivinylbenzene (PDVB) microspheres with particle sizes of 7–12 μm. Cellulose tris(4-methylbenzoate) (CTMB) and cellulose tris(3,5-dimethylphenylcarbamate) (CDMPC) hybrid PDVB were incorporated and well distributed in the microspheres. The chiral recognition ability of the chiral stationary phases (CSP) was evaluated by chiral high-performance liquid chromatography (HPLC) separation of 38 enantiomers with widely varied chemical structures. The influence of pore size and the loading of chiral selectors were investigated. The chiral recognition ability of the columns is comparable to that of the CHIRALCEL® OD column and CHIRALCEL® OJ column. For some enantiomers, the chiral selectivity of the prepared columns is even better than CHIRALPAK®IB column and CHIRALPAK®IJ column. In addition, the columns showed excellent stability in the basic mobile phase and organic solvents such as tetrahydrofuran (THF) and ethyl acetate (EA). This work enabled the synthesized polysaccharide-based CSPs with good chiral recognition ability and high stability. [ABSTRACT FROM AUTHOR]

Published

2024

46. Regulation of chiral structure and spin polarization by circularly polarized light and electric field in copolymers.

Author

Hu, Renjie, Lu, Xiangqian, and Qin, Wei

Subjects

SPIN polarization, ELECTRIC lighting, ELECTRIC fields, CHIRALITY of nuclear particles, COPOLYMERS, ENANTIOMERS, ELECTRON-phonon interactions, ELECTRON spin states

Abstract

Combining chirality with ferromagnetism is challenging in organic materials and may bring potential application for the cross-integration of multiple disciplines. In this work, we achieved the intrinsic coexistence of chirality and spontaneous spin polarization in the diblock copolymers, where left-handed and right-handed circularly polarized lights present tunability on both the circular dichroism and spin polarization. Without electron dependence of transport in chiral copolymer, chirality is still coupled with spin. The phenomenon observed here is not the traditional chirality induced spin selectivity effect. Moreover, the electric field could also effectively tune the chirality dependence of circular dichroism to further affect the magnitude of spin polarization. Thus, a strong relationship between the chirality and spin polarization is formed in chiral copolymers. In addition, because of the different molecular packing for chiral enantiomers, electron–phonon coupling strengths are different to lead to a difference in spin polarization. Overall, the properties of chirality, spontaneous spin polarization, and photon-chirality-spin coupling are developed and studied, which effectively promotes the ability of potential applications of chiral copolymers. [ABSTRACT FROM AUTHOR]

Published

2024

47. A porous aromatic cage-based electrochemical sensor for enantioselective recognition of DOPA.

Author

Kou, Junning, Zhu, Ziyu, Jiang, Jianzhu, Chen, Li, Zhang, Kunhao, Shan, Guogang, Wang, Xinlong, Su, Zhongmin, and Sun, Chunyi

Subjects

ELECTROCHEMICAL sensors, DOPA, INTERMOLECULAR interactions, ENANTIOMERS, CHARGE transfer

Abstract

An electrochemical sensor based on porous aromatic cages was reported, which can achieve chiral sensing of DOPA enantiomers. The prepared sensor can achieve a recognition efficiency of up to 2.6 for DOPA enantiomers. The enhanced recognition efficiency could be attributed to the cooperation of intermolecular interactions, and the efficient charge transfer process. [ABSTRACT FROM AUTHOR]

Published

2024

48. Catabolism of 2-keto-3-deoxy-galactonate and the production of its enantiomers.

Author

Yun, Eun Ju, Lee, Sun-Hee, Kim, Subin, Ryu, Hae Seul, and Kim, Kyoung Heon

Subjects

CATABOLISM, ENANTIOMERS, RED algae, PECTINS, BIOLOGICAL systems, TRICHODERMA reesei, GALACTOSE, INDUSTRIAL capacity

Abstract

2-Keto-3-deoxy-galactonate (KDGal) serves as a pivotal metabolic intermediate within both the fungal d-galacturonate pathway, which is integral to pectin catabolism, and the bacterial DeLey-Doudoroff pathway for d-galactose catabolism. The presence of KDGal enantiomers, l-KDGal and d-KDGal, varies across these pathways. Fungal pathways generate l-KDGal through the reduction and dehydration of d-galacturonate, whereas bacterial pathways produce d-KDGal through the oxidation and dehydration of d-galactose. Two distinct catabolic routes further metabolize KDGal: a nonphosphorolytic pathway that employs aldolase and a phosphorolytic pathway involving kinase and aldolase. Recent findings have revealed that l-KDGal, identified in the bacterial catabolism of 3,6-anhydro-l-galactose, a major component of red seaweeds, is also catabolized by Escherichia coli, which is traditionally known to be catabolized by specific fungal species, such as Trichoderma reesei. Furthermore, the potential industrial applications of KDGal and its derivatives, such as pyruvate and d- and l-glyceraldehyde, are underscored by their significant biological functions. This review comprehensively outlines the catabolism of l-KDGal and d-KDGal across different biological systems, highlights stereospecific methods for discriminating between enantiomers, and explores industrial application prospects for producing KDGal enantiomers. Key points: • KDGal is a metabolic intermediate in fungal and bacterial pathways • Stereospecific enzymes can be used to identify the enantiomeric nature of KDGal • KDGal can be used to induce pectin catabolism or produce functional materials [ABSTRACT FROM AUTHOR]

Published

2024

49. Structure Formation during the Synthesis of Chitosan L- and D-Asparaginate Nanoparticles.

Author

Shipenok, X. M., Lugovitskaya, T. N., and Shipovskaya, A. B.

Abstract

Structure formation in the chitosan + L-(D-)aspartic acid + water system during the spontaneous formation of polymer nanoparticles is discussed. The molar electric conductivity of chitosan L-(D-)asparaginate solutions in Kohlrausch coordinates decreases with increasing polymer concentration due to a decrease in the mobility of the ions of the acid residue under the action of the electrostatic potential of the macroion. The concentration dependence of the specific electric conductivity and the hydrodynamic parameters indicate partial compensation of the charges of macrochains through the formation of –anion ion pairs. The discovered tendencies are a complex function of association of counterions with the polycation, leading to phase segregation of the polymer substance at the nanoparticle level. The counterionic condensation effects and the diameter of the formed nanoparticles are largely determined by the [acid] : [~–NH2] molar ratio and the enantiomeric form of the acid residue. [ABSTRACT FROM AUTHOR]

Published

2024

50. Dielectric Modes in Antiferroelectric and Ferroelectric Liquid Crystals in a Pure Enantiomeric Version and a Racemic Mixture.

Author

Perkowski, Paweł and Urbańska, Magdalena

Subjects

FERROELECTRIC liquid crystals, ANTIFERROELECTRIC liquid crystals, FERROELECTRIC polymers, SMECTIC liquid crystals, DIELECTRICS, DIELECTRIC properties, ENANTIOMERS, RACEMIC mixtures

Abstract

The dielectric properties of synclinic (ferroelectric SmC*) and anticlinic (antiferroelectric SmCA*) smectic liquid crystals composed of molecules of one chiral version (S) are presented and compared with properties of racemic mixture (R, S), showing SmC and SmCA phases. The racemic mixture completely loses its ferroelectric and antiferroelectric properties. Surprisingly, only one dielectric mode observed in the antiferroelectric SmCA* phase disappeared in the dielectric response of the racemic SmCA phase. Additionally, we observed that in the SmC phase, seen in the racemic mixture, the weak dielectric mode (named the X mode) is detected, which seems to be the continuation of the PL mode existing in the racemic SmCA. Moreover, this mode in the racemic SmC has nothing to do with the Goldstone mode, typical for the SmC* phase. This paper describes in detail the real and imaginary parts of dielectric permittivity in smectic phases for the enantiomer and racemate with and without a DC field, compares the properties of the X and PL modes, and discusses the full scheme of dielectric modes in enantiomer and racemate. [ABSTRACT FROM AUTHOR]

Published

2024