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  1. Article ; Online: Editorial: Molecular topology and chemical connectivity.

    Ivanciuc, Ovidiu

    Current computer-aided drug design

    2013  Volume 9, Issue 2, Page(s) 151–152

    MeSH term(s) Computer-Aided Design ; Drug Design ; Quantitative Structure-Activity Relationship
    Language English
    Publishing date 2013-05-21
    Publishing country United Arab Emirates
    Document type Editorial ; Introductory Journal Article
    ISSN 1875-6697
    ISSN (online) 1875-6697
    DOI 10.2174/15734099113099990001
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  2. Article ; Online: Chemical graphs, molecular matrices and topological indices in chemoinformatics and quantitative structure-activity relationships.

    Ivanciuc, Ovidiu

    Current computer-aided drug design

    2013  Volume 9, Issue 2, Page(s) 153–163

    Abstract: Chemical and molecular graphs have fundamental applications in chemoinformatics, quantitative structureproperty relationships (QSPR), quantitative structure-activity relationships (QSAR), virtual screening of chemical libraries, and computational drug ... ...

    Abstract Chemical and molecular graphs have fundamental applications in chemoinformatics, quantitative structureproperty relationships (QSPR), quantitative structure-activity relationships (QSAR), virtual screening of chemical libraries, and computational drug design. Chemoinformatics applications of graphs include chemical structure representation and coding, database search and retrieval, and physicochemical property prediction. QSPR, QSAR and virtual screening are based on the structure-property principle, which states that the physicochemical and biological properties of chemical compounds can be predicted from their chemical structure. Such structure-property correlations are usually developed from topological indices and fingerprints computed from the molecular graph and from molecular descriptors computed from the three-dimensional chemical structure. We present here a selection of the most important graph descriptors and topological indices, including molecular matrices, graph spectra, spectral moments, graph polynomials, and vertex topological indices. These graph descriptors are used to define several topological indices based on molecular connectivity, graph distance, reciprocal distance, distance-degree, distance-valency, spectra, polynomials, and information theory concepts. The molecular descriptors and topological indices can be developed with a more general approach, based on molecular graph operators, which define a family of graph indices related by a common formula. Graph descriptors and topological indices for molecules containing heteroatoms and multiple bonds are computed with weighting schemes based on atomic properties, such as the atomic number, covalent radius, or electronegativity. The correlation in QSPR and QSAR models can be improved by optimizing some parameters in the formula of topological indices, as demonstrated for structural descriptors based on atomic connectivity and graph distance.
    MeSH term(s) Computer Graphics ; Drug Design ; Pharmaceutical Preparations/chemistry ; Quantitative Structure-Activity Relationship ; Small Molecule Libraries/chemistry ; Small Molecule Libraries/pharmacology
    Chemical Substances Pharmaceutical Preparations ; Small Molecule Libraries
    Language English
    Publishing date 2013-05-21
    Publishing country United Arab Emirates
    Document type Journal Article ; Review
    ISSN 1875-6697
    ISSN (online) 1875-6697
    DOI 10.2174/1573409911309020002
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  3. Article ; Online: Machine learning for virtual screening (part 2).

    Ivanciuc, Ovidiu

    Combinatorial chemistry & high throughput screening

    2009  Volume 12, Issue 5, Page(s) 451–452

    MeSH term(s) Artificial Intelligence ; Drug Design ; Structure-Activity Relationship
    Language English
    Publishing date 2009-06-01
    Publishing country United Arab Emirates
    Document type Editorial
    ZDB-ID 2064785-2
    ISSN 1875-5402 ; 1386-2073
    ISSN (online) 1875-5402
    ISSN 1386-2073
    DOI 10.2174/138620709788489091
    Database MEDical Literature Analysis and Retrieval System OnLINE

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    In stock of ZB MED Cologne/Königswinter

    Zs.A 5577: Show issues Location:
    Je nach Verfügbarkeit (siehe Angabe bei Bestand)
    bis Jg. 1994: Bestellungen von Artikeln über das Online-Bestellformular
    Jg. 1995 - 2021: Lesesall (2.OG)
    ab Jg. 2022: Lesesaal (EG)

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  4. Article ; Online: Machine learning for virtual screening (part 1).

    Ivanciuc, Ovidiu

    Combinatorial chemistry & high throughput screening

    2009  Volume 12, Issue 4, Page(s) 330–331

    MeSH term(s) Algorithms ; Artificial Intelligence ; Computer Simulation ; Databases, Factual ; Drug Evaluation, Preclinical ; Ligands ; Models, Chemical ; Pharmaceutical Preparations/chemical synthesis ; Pharmaceutical Preparations/chemistry ; Quantum Theory ; Small Molecule Libraries ; Structure-Activity Relationship
    Chemical Substances Ligands ; Pharmaceutical Preparations ; Small Molecule Libraries
    Language English
    Publishing date 2009-04-21
    Publishing country United Arab Emirates
    Document type Editorial ; Introductory Journal Article
    ZDB-ID 2064785-2
    ISSN 1875-5402 ; 1386-2073
    ISSN (online) 1875-5402
    ISSN 1386-2073
    DOI 10.2174/138620709788167999
    Database MEDical Literature Analysis and Retrieval System OnLINE

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    In stock of ZB MED Cologne/Königswinter

    Zs.A 5577: Show issues Location:
    Je nach Verfügbarkeit (siehe Angabe bei Bestand)
    bis Jg. 1994: Bestellungen von Artikeln über das Online-Bestellformular
    Jg. 1995 - 2021: Lesesall (2.OG)
    ab Jg. 2022: Lesesaal (EG)

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  5. Article ; Online: Weka machine learning for predicting the phospholipidosis inducing potential.

    Ivanciuc, Ovidiu

    Current topics in medicinal chemistry

    2008  Volume 8, Issue 18, Page(s) 1691–1709

    Abstract: The drug discovery and development process is lengthy and expensive, and bringing a drug to market may take up to 18 years and may cost up to 2 billion $US. The extensive use of computer-assisted drug design techniques may considerably increase the ... ...

    Abstract The drug discovery and development process is lengthy and expensive, and bringing a drug to market may take up to 18 years and may cost up to 2 billion $US. The extensive use of computer-assisted drug design techniques may considerably increase the chances of finding valuable drug candidates, thus decreasing the drug discovery time and costs. The most important computational approach is represented by structure-activity relationships that can discriminate between sets of chemicals that are active/inactive towards a certain biological receptor. An adverse effect of some cationic amphiphilic drugs is phospholipidosis that manifests as an intracellular accumulation of phospholipids and formation of concentric lamellar bodies. Here we present structure-activity relationships (SAR) computed with a wide variety of machine learning algorithms trained to identify drugs that have phospholipidosis inducing potential. All SAR models are developed with the machine learning software Weka, and include both classical algorithms, such as k-nearest neighbors and decision trees, as well as recently introduced methods, such as support vector machines and artificial immune systems. The best predictions are obtained with support vector machines, followed by perceptron artificial neural network, logistic regression, and k-nearest neighbors.
    MeSH term(s) Algorithms ; Artificial Intelligence ; Computational Biology ; Decision Trees ; Drug Design ; Drug Discovery ; Logistic Models ; Pharmacology, Clinical/methods ; Phospholipids/chemistry ; Phospholipids/metabolism ; Structure-Activity Relationship
    Chemical Substances Phospholipids
    Language English
    Publishing date 2008-12-02
    Publishing country United Arab Emirates
    Document type Journal Article
    ZDB-ID 2064823-6
    ISSN 1873-4294 ; 1568-0266
    ISSN (online) 1873-4294
    ISSN 1568-0266
    DOI 10.2174/156802608786786589
    Database MEDical Literature Analysis and Retrieval System OnLINE

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    In stock of ZB MED Cologne/Königswinter

    Zs.A 5572: Show issues Location:
    Je nach Verfügbarkeit (siehe Angabe bei Bestand)
    bis Jg. 1994: Bestellungen von Artikeln über das Online-Bestellformular
    Jg. 1995 - 2021: Lesesall (2.OG)
    ab Jg. 2022: Lesesaal (EG)

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  6. Article ; Online: Flow network QSAR for the prediction of physicochemical properties by mapping an electrical resistance network onto a chemical reaction poset.

    Ivanciuc, Ovidiu / Ivanciuc, Teodora / Klein, Douglas J

    Current computer-aided drug design

    2013  Volume 9, Issue 2, Page(s) 233–240

    Abstract: Usual quantitative structure-activity relationship (QSAR) models are computed from unstructured input data, by using a vector of molecular descriptors for each chemical in the dataset. Another alternative is to consider the structural relationships ... ...

    Abstract Usual quantitative structure-activity relationship (QSAR) models are computed from unstructured input data, by using a vector of molecular descriptors for each chemical in the dataset. Another alternative is to consider the structural relationships between the chemical structures, such as molecular similarity, presence of certain substructures, or chemical transformations between compounds. We defined a class of network-QSAR models based on molecular networks induced by a sequence of substitution reactions on a chemical structure that generates a partially ordered set (or poset) oriented graph that may be used to predict various molecular properties with quantitative superstructure-activity relationships (QSSAR). The network-QSAR interpolation models defined on poset graphs, namely average poset, cluster expansion, and spline poset, were tested with success for the prediction of several physicochemical properties for diverse chemicals. We introduce the flow network QSAR, a new poset regression model in which the dataset of chemicals, represented as a reaction poset, is transformed into an oriented network of electrical resistances in which the current flow results in a potential at each node. The molecular property considered in the QSSAR model is represented as the electrical potential, and the value of this potential at a particular node is determined by the electrical resistances assigned to each edge and by a system of batteries. Each node with a known value for the molecular property is attached to a battery that sets the potential on that node to the value of the respective molecular property, and no external battery is attached to nodes from the prediction set, representing chemicals for which the values of the molecular property are not known or are intended to be predicted. The flow network QSAR algorithm determines the values of the molecular property for the prediction set of molecules by applying Ohm's law and Kirchhoff's current law to the poset network of electrical resistances. Several applications of the flow network QSAR are demonstrated.
    MeSH term(s) Algorithms ; Benzene/chemistry ; Electric Impedance ; Models, Chemical ; Quantitative Structure-Activity Relationship
    Chemical Substances Benzene (J64922108F)
    Language English
    Publishing date 2013-05-21
    Publishing country United Arab Emirates
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ISSN 1875-6697
    ISSN (online) 1875-6697
    DOI 10.2174/1573409911309020008
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  7. Article ; Online: Similarity Matrices Quantitative Structure-Activity Relationships for Anticonvulsant Phenylacetanilides

    Ovidiu Ivanciuc

    Internet Electronic Journal of Molecular Design, Vol 3, Iss 7, Pp 426-

    2004  Volume 442

    Abstract: Molecular graph descriptors are used in developing structure-property models, in drug design, virtual synthesis, similarity and diversity assessment. We present a new application of topological indices in computing similarity matrices that are ... ...

    Abstract Molecular graph descriptors are used in developing structure-property models, in drug design, virtual synthesis, similarity and diversity assessment. We present a new application of topological indices in computing similarity matrices that are subsequently used to develop quantitative structure-property relationship and quantitative structure-activity relationship models. The molecular structure is described by similarity matrices obtained from similarity indices calculations, when each molecule is compared to every other from the data set. Four similarity indices are introduced for the computation of the molecular similarity from a set of topological indices that numerically characterize the structure of chemical compounds. Using the multilinear regression model, the significant columns from the similarity matrices are selected as independent variables in a structure-activity study of anticonvulsant phenylacetanilides. The results obtained show that similarity matrices derived from molecular graph descriptors can provide the basis for the investigation of quantitative structure-activity relationships.
    Keywords QSAR ; quantitative structure-activity relationships ; similarity matrices ; molecular graph ; topological indices ; molecular graph operators ; Biochemistry ; QD415-436 ; Organic chemistry ; QD241-441 ; Chemistry ; QD1-999 ; Science ; Q ; DOAJ:Biochemistry ; DOAJ:Life Sciences ; DOAJ:Biology and Life Sciences
    Subject code 540
    Language English
    Publishing date 2004-07-01T00:00:00Z
    Publisher BioChem Press
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  8. Book: Graph theory in chemistry and drug design

    Ivanciuc, Ovidiu Ioan

    2007  

    Author's details Ovidiu Ioan Ivanciuc
    Language English
    Publisher Taylor & Francis
    Publishing place Boca Raton, FL
    Document type Book
    ISBN 1420043242 ; 9781420043242
    Database Library catalogue of the German National Library of Science and Technology (TIB), Hannover

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  9. Article ; Online: Support Vector Machines Classification of Black and Green Teas Based on Their Metal Content

    Ovidiu Ivanciuc

    Internet Electronic Journal of Molecular Design, Vol 2, Iss 5, Pp 348-

    2003  Volume 357

    Abstract: Green and black teas are made from the processed leaves of Camellia sinensis . The metal content (Zn, Mn, Mg, Cu, Al, Ca, Ba, and K) of commercial tea samples, determined by inductively coupled plasma atomic emission spectroscopy, can be used in pattern ... ...

    Abstract Green and black teas are made from the processed leaves of Camellia sinensis . The metal content (Zn, Mn, Mg, Cu, Al, Ca, Ba, and K) of commercial tea samples, determined by inductively coupled plasma atomic emission spectroscopy, can be used in pattern recognition models to discriminate between the two tea types. We have investigated the application of SVM (support vector machines) for the classification of 44 tea samples (26 black tea and 18 green tea) based on the metal content. An efficient algorithm was tested for the selection of input parameters for the SVM models, in order to find the minimum metal profile that provides a good separation of the two classes. Using the hierarchical descriptor selection procedure, the initial group of eight metals was reduced to a set of three metals, namely Al, Ba, and K. The classification of the green and black teas was done with the dot, polynomial, radial basis function, neural, and anova kernels. The calibration and leave-20%-out cross-validation results show that the statistical performances of SVM models depend strongly on input descriptors, kernel type and various parameters that control the kernel shape. Several SVM models obtained with the anova kernel offered the best results, all with no error in calibration and one error in prediction (for a green tea sample). The hierarchical descriptor selection algorithm is an effective procedure to identify the optimum set of input variables for an SVM model. Using the Al, Ba, and K content determined with the inductively coupled plasma atomic emission spectroscopy, a highly predictive SVM model was developed for the classification of green and black teas.
    Keywords support vector machines ; SVM ; tea classification ; Biochemistry ; QD415-436 ; Organic chemistry ; QD241-441 ; Chemistry ; QD1-999 ; Science ; Q ; DOAJ:Biochemistry ; DOAJ:Life Sciences ; DOAJ:Biology and Life Sciences
    Subject code 540
    Language English
    Publishing date 2003-05-01T00:00:00Z
    Publisher BioChem Press
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

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  10. Article ; Online: Aquatic Toxicity Prediction for Polar and Nonpolar Narcotic Pollutants with Support Vector Machines

    Ovidiu Ivanciuc

    Internet Electronic Journal of Molecular Design, Vol 2, Iss 3, Pp 195-

    2003  Volume 208

    Abstract: Narcotic pollutants, that act by nonspecifically disrupting the functioning of cell membranes, are categorized as polar and nonpolar compounds. The toxicity prediction of narcotic pollutants with QSAR (quantitative structure-activity relationships) ... ...

    Abstract Narcotic pollutants, that act by nonspecifically disrupting the functioning of cell membranes, are categorized as polar and nonpolar compounds. The toxicity prediction of narcotic pollutants with QSAR (quantitative structure-activity relationships) depends on the reliable determination of the mechanism of toxic action. The classification of the chemical compounds as polar and nonpolar narcotic pollutants based on structural characteristics is of utmost importance in predicting the aquatic toxicity for new chemicals. Support vector machine (SVM) is a new machine learning algorithm that proved to be reliable in the classification of organic and bioorganic compounds. In this study we have investigated the application of SVM for the classification of 190 narcotic pollutants (76 polar and 114 nonpolar). Using an efficient descriptor selection algorithm, the energy of the highest occupied molecular orbital, the energy of the lowest unoccupied molecular orbital, and the most negative partial charge on any non-hydrogen atom in the molecule, all computed with the AM1 method, were found to be necessary for the discrimination of the polar and nonpolar compounds. The prediction power of each SVM model was evaluated with a leave-20%-out cross-validation procedure. The classification performances of SVM models generated with the dot, polynomial, radial basis function, neural, and anova kernels, show that the statistical performances of SVM depend strongly on the kernel type and various parameters that control the kernel shape. An SVM model obtained with the anova kernel offered the best results, with three errors in calibration and four errors in prediction, all for nonpolar chemicals. SVM is a powerful and flexible classification algorithm, with many potential applications in molecular design, optimization of chemical libraries, and QSAR. In the present study we have demonstrated such an application for the identification of the aquatic toxicity mechanism.
    Keywords support vector machines ; structure-toxicity relationships ; aquatic toxicity ; mechanism of action ; Biochemistry ; QD415-436 ; Organic chemistry ; QD241-441 ; Chemistry ; QD1-999 ; Science ; Q ; DOAJ:Biochemistry ; DOAJ:Life Sciences ; DOAJ:Biology and Life Sciences
    Subject code 540
    Language English
    Publishing date 2003-03-01T00:00:00Z
    Publisher BioChem Press
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

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