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Ferguson, A. M.; Heritage, Trevor; Jonathon, P.; Pack, Simon E.; Phillips, L.; Rogan, José; Snaith, P.J.

doi:10.1023/a:1008026308790

Cited by 118 publications

(58 citation statements)

References 3 publications

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“…EVA, and its associated data standardisation technique described below, was originally developed by workers at Shell Research Limited [18,19]. The rationale behind the use of such information as a molecular descriptor was "that a significant amount of information pertaining to molecular properties, in particular biological activity, might be contained within the molecular vibration wave-function, of which the vibrational spectrum is a fingerprint" [19].…”

Section: Calculation Of the Eva Descriptormentioning

confidence: 99%

“…The rationale behind the use of such information as a molecular descriptor was "that a significant amount of information pertaining to molecular properties, in particular biological activity, might be contained within the molecular vibration wave-function, of which the vibrational spectrum is a fingerprint" [19]. It is also the case that there is a close, albeit complex, relationship between molecular 3D structure and the corresponding IR spectrum, a characteristic that has made IR spectroscopy an extremely powerful tool for determining and identifying chemical structures.…”

Section: Calculation Of the Eva Descriptormentioning

confidence: 99%

“…There has thus been much interest in either tackling the alignment issue head-on [9,[11][12][13][14][15] or in seeking alternative molecular descriptors that are both sensitive to 3D-structure but that do not require structural superposition [11,13,14]. EVA [18][19][20][21][22][23] is one example of such a descriptor, based as it is upon molecular vibrations the characteristics of which are, in the absence of an external modifying influence such as a receptor, invariant to rotation and translation of the structures concerned. However, whilst EVA removes the need for superposition the method is sensitive to 3D structure although not to such an extent as a "true" 3D method such as CoMFA.…”

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confidence: 99%

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The EVA spectral descriptor

Turner

Willett

2000

European Journal of Medicinal Chemistry

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− The EVA descriptor is derived from fundamental IR-and Raman range molecular vibrational frequencies. EVA is sensitive to 3D structure but has an advantage over field-based 3D-QSAR methods inasmuch as it is invariant to both translation and rotation of the structures concerned and thus structural superposition is not required. The latter property and the demonstration of the effectiveness of the descriptor for QSAR means that EVA has been the subject of a great deal of interest from the modelling community. This review describes the derivation of the descriptor, details its main parameters and how to apply them, and provides an overview of the validation that has been done with the descriptor. A recent enhancement to the technique is described which involves the localised adjustment of variance in such a way that enhanced internal and external predictivity may be obtained. Despite the statistical quality of EVA QSAR models the main draw-back to the descriptor at present is the difficulty associated with back-tracking from a PLS model to an EVA pharmacophore. Brief comment is made on the use of the EVA descriptor for diversity studies and the similarity searching of chemical structure databases.

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Section: Calculation Of the Eva Descriptormentioning

confidence: 99%

Section: Calculation Of the Eva Descriptormentioning

confidence: 99%

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confidence: 99%

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The EVA spectral descriptor

Turner

Willett

2000

European Journal of Medicinal Chemistry

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“…The EVA descriptor [1,2] is derived from fundamental molecular vibrational frequencies of which there are 3N-6 (or 3N-5 for a linear compound such as acetylene) for an N-atom structure. The frequency values are projected onto a linear bounded frequency scale covering the range 1 to 4,000 cm -1 and then smeared out, and therefore overlapped, through the application of Gaussian kernels to each and every frequency value.…”

Section: Classical Evamentioning

confidence: 99%

“…and an L of 5 cm -1 resulting in 800 (4,000/L) descriptor variables [1]. The number of variables is thus very much larger than the number of compounds in a standard QSAR dataset and the Partial least squares to Latent Structures (PLS) technique [5] has been used to provide a robust regression analysis.…”

Section: Classical Evamentioning

confidence: 99%

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Turner

Willett

2000

Journal of Computer-Aided Molecular Design

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SummaryThe EVA structural descriptor, based upon calculated fundamental molecular vibrational frequencies, has proved to be an effective descriptor for both QSAR and database similarity calculations. The descriptor is sensitive to 3D structure but has an advantage over fieldbased 3D-QSAR methods inasmuch as structural superposition is not required. The original technique involves a standardisation method wherein uniform Gaussians of fixed standard deviation (σ) are used to smear out frequencies projected onto a linear scale. This smearing function permits the overlap of proximal frequencies and thence the extraction of a fixed dimensional descriptor regardless of the number and precise values of the frequencies. It is proposed here that there exist optimal localised values of σ in different spectral regions; that is, the overlap of frequencies using uniform Gaussians may, at certain points in the spectrum, either be insufficient to pick up relationships where they exist or mix up information to such an extent that significant correlations are obscured by noise. A genetic algorithm is used to search for optimal localised σ values using crossvalidated PLS regression scores as the fitness score to be optimised. The resultant models are then validated against a previously unseen test set of compounds. The performance of EVA_GA is compared to that of EVA and analogous CoMFA studies.

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Calculation of Structure Descriptors

Terfloth

2003

Chemoinformatics

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Cited by 118 publications

References 3 publications

The EVA spectral descriptor

The EVA spectral descriptor

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Calculation of Structure Descriptors

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