Commentaries on quantum similarity (1): Density gradient quantum similarity

Carbó‐Dorca, Ramon; Mercado, Luz Dary

doi:10.1002/jcc.21510

Cited by 46 publications

(38 citation statements)

References 135 publications

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“…The similarity indexes were introduced by Carbó-Dorca and coworkers almost thirty years ago [63,[70][71][72][73][74][75][76][77][78]; they defined the quantum similarity measure Z AB between molecules A and B with the electronic densities A ( 1 ) and B ( 2 ) based on the idea of minimizing the expression for the Euclidean distance as…”

Section: Similarity Indexesmentioning

confidence: 99%

Understanding the Polar Character Trend in a Series of Diels-Alder Reactions Using Molecular Quantum Similarity and Chemical Reactivity Descriptors

Morales-Bayuelo

Vivas‐Reyes

2014

Journal of Quantum Chemistry

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In molecular similarity there is a premise "similar molecules tend to behave similarly"; however in the actual quantum similarity field there is no clear methodology to describe the similarity in chemical reactivity, and with this end an analysis of charge-transfer (CT) processes in a series of Diels-Alder (DA) reactions between cyclopentadiene (Cp) and cyano substitutions on ethylene has been studied. The CT analysis is performed in the reagent assuming a grand canonical ensemble and the considerations for an electrophilic system using B3LYP/6-31 ( ) and M06-2X/6-311 + ( , ) methods. An analysis for CT was performed in agreement with the experimental results with a good statistical correlation ( 2 = 0.9118) relating the polar character to the bond force constants in DA reactions. The quantum distortion analysis on the transition states (TS) was performed using molecular quantum similarity indexes of overlap and coulomb showing good correlation ( 2 = 0.8330) between the rate constants and quantum similarity indexes. In this sense, an electronic reorganization based on molecular polarization in terms of CT is proposed; therefore, new interpretations on the electronic systematization of the DA reactions are presented, taking into account that today such electronic systematization is an open problem in organic physical chemistry. Additionally, one way to quantify the similarity in chemical reactivity was shown, taking into account the dependence of the molecular alignment on properties when their position changes; in this sense a possible way to quantify the similarity of the CT in systematic form on these DA cycloadditions was shown.

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Section: Similarity Indexesmentioning

confidence: 99%

Understanding the Polar Character Trend in a Series of Diels-Alder Reactions Using Molecular Quantum Similarity and Chemical Reactivity Descriptors

Morales-Bayuelo

Vivas‐Reyes

2014

Journal of Quantum Chemistry

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“…The field of the quantum similarity was introduced by Carbó-Dorca and co-workers; [22][23][24][25][26][27][28] they defined the quantum similarity measurements Z AB between molecules A and B with the electronic density r A (r) and r B (r) taking into account the minimizing of the expression for the Euclidean distance as: (1) Considering the overlap integral involving the Z AB between the electronic density of the molecule A and B, where Z AA and Z BB represent the Self-similarity. 29 Using the cosine of the angle between the density functions 30 can be expressed mathematically as:…”

Section: Introductionmentioning

confidence: 99%

Computational study of the interaction between indene pyrazole and cyclin dependent kinase 2

et al. 2017

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Proteins have been traditionally out of reach of electronic structure methods. But with technological advances in the development of powerful computers and the need to extend the methods of computational chemistry to problems of biological interest, such as the rational design of drugs, new technologies in silico have been developed that allow to study condensed systems of phase, which consist of thousands of atoms. Here, there are some techniques that combine two or more methods of calculating in a calculation that allows precise chemical exploration of very large systems. The aim of this work is to find the binding affinity of CDK2 inhibitors calculating their electronic densities and then comparing the similarities of these with the biological activity of ligands developing a QSAR in order to establish correlations between quantum similarity, which is a physical-chemical property and biological activity of said set of molecules that change their properties by varying any of their substituents.

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“…First, one can hope that theoretical descriptors based on quantum similarity (QS) [17][18][19][20][21][22][23][24] and the Density Functional Theory (DFT) [25] can be used to get insights into the factors determining exact nature of the biological activity and selectivity of cholinesterase/monoamine oxidase inhibition and its interactions or at least trends, as to what factors affect the structural properties of these inhibitors molecules.…”

Section: Introductionmentioning

confidence: 99%

“…The similarity index concept was originally proposed from the perspective of quantum chemistry by Carbó and coworkers [17][18][19][20][21][22][23][24]. Similarity concepts is an omnipresent concept that permeates almost every chemistry field and other scientific fields such as physics, biology, and biochemistry among others.…”

Section: Introductionmentioning

confidence: 99%

“…From the similarity or dissimilarity concept it is possible to obtain vital information of molecular designers, who are molecular designers within the drugdevelopment context, and the molecular similarity formalism has been proved to be one of the most significant computational tools that can be used to supply novel design ideas in order to get new drugs. The present work is concerned with such methodology that is based on similarity indexes computed from molecular fields using Carbó approach [17][18][19][20][21][22][23][24].…”

Section: Introductionmentioning

confidence: 99%

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Scale Alpha and Beta of Quantitative Convergence and Chemical Reactivity Analysis in Dual Cholinesterase/Monoamine Oxidase Inhibitors for the Alzheimer Disease Treatment Using Density Functional Theory (DFT)

Morales-Bayuelo

Baldiris

Vivas‐Reyes

2013

Journal of Theoretical Chemistry

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Molecular quantum similarity descriptors and Density Functional Theory (DFT) based reactivity descriptors were studied for a series of cholinesterase/monoamine oxidase inhibitors used for the Alzheimer's disease treatment (AD). This theoretical study is expected to shed some light onto some molecular aspects that could contribute to the knowledge of the molecular mechanics behind interactions of these molecules with acetylcholinesterase (AChE) and butyrylcholinesterase (BuChE), as well as with monoamine oxidase (MAO) A and B. The Topogeometrical Superposition Algorithm to handle flexible molecules (TGSA-Flex) alignment method was used to solve the problem of the relative orientation in the quantum similarity (QS) field. Using the molecular quantum similarity (MQS) field and reactivity descriptors supported in the DFT was possible the quantification of the steric and electrostatic effects through of the Coulomb and Overlap quantitative convergence scales (alpha and beta). In addition, an analysis of reactivity indexes is development, using global and local descriptors, identifying the binding sites and selectivity in the (cholinesterase/monoamine oxidase) inhibitors, understanding the retrodonor process, and showing new insight for drugs design in a disease of difficult control as Alzheimer.

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Commentaries on quantum similarity (1): Density gradient quantum similarity

Cited by 46 publications

References 135 publications

Understanding the Polar Character Trend in a Series of Diels-Alder Reactions Using Molecular Quantum Similarity and Chemical Reactivity Descriptors

Understanding the Polar Character Trend in a Series of Diels-Alder Reactions Using Molecular Quantum Similarity and Chemical Reactivity Descriptors

Computational study of the interaction between indene pyrazole and cyclin dependent kinase 2

Scale Alpha and Beta of Quantitative Convergence and Chemical Reactivity Analysis in Dual Cholinesterase/Monoamine Oxidase Inhibitors for the Alzheimer Disease Treatment Using Density Functional Theory (DFT)

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