Search results for "Biological network"

showing 10 items of 32 documents

Multifunctionality of F-rich nucleoporins

2020

Nucleoporins (Nups) represent a range of proteins most known for composing the macromolecular assembly of the nuclear pore complex (NPC). Among them, the family of intrinsically disordered proteins (IDPs) phenylalanine-glycine (FG) rich Nups, form the permeability barrier and coordinate the high-speed nucleocytoplasmic transport in a selective way. Those FG-Nups have been demonstrated to participate in various biological processes besides nucleocytoplasmic transport. The high number of accessible hydrophobic motifs of FG-Nups potentially gives rise to this multifunctionality, enabling them to form unique microenvironments. In this review, we discuss the multifunctionality of disordered and …

CytoplasmProtein FoldingDNA RepairPhenylalanineAmino Acid MotifsActive Transport Cell NucleusGlycineIntrinsically disordered proteinsBiochemistryArticle03 medical and health sciences0302 clinical medicineAnimalsHumansCell LineageCiliaNuclear pore030304 developmental biologyCell Nucleus0303 health sciencesChemistryNeurodegenerative DiseasesIntrinsically Disordered ProteinsNuclear Pore Complex ProteinsMacromolecular assemblyProtein TransportGene Expression RegulationNucleocytoplasmic TransportNuclear PoreBiophysicsNucleoporinHydrophobic and Hydrophilic Interactions030217 neurology & neurosurgeryBiological networkBiochemical Society Transactions

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Hub-Centered Gene Network Reconstruction Using Automatic Relevance Determination

2012

Network inference deals with the reconstruction of biological networks from experimental data. A variety of different reverse engineering techniques are available; they differ in the underlying assumptions and mathematical models used. One common problem for all approaches stems from the complexity of the task, due to the combinatorial explosion of different network topologies for increasing network size. To handle this problem, constraints are frequently used, for example on the node degree, number of edges, or constraints on regulation functions between network components. We propose to exploit topological considerations in the inference of gene regulatory networks. Such systems are often…

Dynamic network analysisTranscription GeneticMicroarraysSciencePosterior probabilityGene regulatory networkBiologycomputer.software_genreBioinformaticsNetwork topology03 medical and health sciences0302 clinical medicineYeastsGeneticsComputer SimulationGene Regulatory NetworksGene NetworksBiology030304 developmental biologyRegulatory NetworksHyperparameter0303 health sciencesMultidisciplinaryModels GeneticSystems BiologyQuantitative Biology::Molecular NetworksCell CycleQRComputational BiologyBayesian networkGene Expression RegulationROC CurveMedicineData miningcomputerAlgorithms030217 neurology & neurosurgeryCombinatorial explosionBiological networkResearch ArticlePLoS ONE

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Network pharmacology of cancer: From understanding of complex interactomes to the design of multi-target specific therapeutics from nature

2015

Despite massive investments in drug research and development, the significant decline in the number of new drugs approved or translated to clinical use raises the question, whether single targeted drug discovery is the right approach. To combat complex systemic diseases that harbour robust biological networks such as cancer, single target intervention is proved to be ineffective. In such cases, network pharmacology approaches are highly useful, because they differ from conventional drug discovery by addressing the ability of drugs to target numerous proteins or networks involved in a disease. Pleiotropic natural products are one of the promising strategies due to their multi-targeting and d…

EpigenomicsProteomics0301 basic medicineDrugmedia_common.quotation_subjectSystems biologyGene regulatory networkSynthetic lethalityDiseaseComputational biologyBiologyPharmacology03 medical and health sciencesNeoplasmsDrug DiscoveryBiomarkers TumormedicineAnimalsHumansMetabolomicsGene Regulatory NetworksMolecular Targeted TherapyProtein Interaction Mapsmedia_commonPharmacologyPlants MedicinalDrug discoveryGene Expression ProfilingSystems BiologyCancermedicine.diseaseAntineoplastic Agents PhytogenicGene Expression Regulation Neoplastic030104 developmental biologyBiological networkPhytotherapySignal TransductionPharmacological Research

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DIAMIN: a software library for the distributed analysis of large-scale molecular interaction networks

2022

AbstractBackgroundHuge amounts of molecular interaction data are continuously produced and stored in public databases. Although many bioinformatics tools have been proposed in the literature for their analysis, based on their modeling through different types of biological networks, several problems still remain unsolved when the problem turns on a large scale.ResultsWe propose , that is, a high-level software library to facilitate the development of applications for the efficient analysis of large-scale molecular interaction networks. relies on distributed computing, and it is implemented in Java upon the framework Apache Spark. It delivers a set of functionalities implementing different ta…

Large scale networksDatabases FactualApplied MathematicsBiological networksComputational BiologyBiochemistryBig data analyticsComputer Science ApplicationsStructural BiologyMolecular interactionsMolecular BiologySoftwareAlgorithmsGene Library

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(Discriminative) Pattern Discovery on Biological Networks

2017

This work provides a review of biological networks as a model for analysis, presenting and discussing a number of illuminating analyses. Biological networks are an effective model for providing insights about biological mechanisms. Networks with different characteristics are employed for representing different scenarios. This powerful model allows analysts to perform many kinds of analyses which can be mined to provide interesting information about underlying biological behaviors. The text also covers techniques for discovering exceptional patterns, such as a pattern accounting for local similarities and also collaborative effects involving interactions between multiple actors (for example …

Pattern discovery Biological networks Subgraph extraction

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Synchronization of Bioelectric Oscillations in Networks of Nonexcitable Cells: From Single-Cell to Multicellular States.

2019

Biological networks use collective oscillations for information processing tasks. In particular, oscillatory membrane potentials have been observed in nonexcitable cells and bacterial communities where specific ion channel proteins contribute to the bioelectric coordination of large populations. We aim at describing theoretically the oscillatory spatiotemporal patterns that emerge at the multicellular level from the single-cell bioelectric dynamics. To this end, we focus on two key questions: (i) What single-cell properties are relevant to multicellular behavior? (ii) What properties defined at the multicellular level can allow an external control of the bioelectric dynamics? In particular,…

PhysicsMembrane potential010304 chemical physicsCellsCell010402 general chemistry01 natural sciencesModels Biological0104 chemical sciencesSurfaces Coatings and FilmsCollective communicationMulticellular organismmedicine.anatomical_structure0103 physical sciencesSynchronization (computer science)Materials ChemistrymedicinePhysical and Theoretical ChemistryNeurosciencePhysiological PhenomenonIon channelBiological networkPhysiological PhenomenaThe journal of physical chemistry. B

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A general strategy to determine the congruence between a hierarchical and a non-hierarchical classification

2007

This article is available from: http://www.biomedcentral.com/1471-2105/8/442

Saccharomyces cerevisiae ProteinsComputer scienceDecision treecomputer.software_genrelcsh:Computer applications to medicine. Medical informaticsInteractomeBiochemistryPattern Recognition AutomatedMitochondrial ProteinsUser-Computer InterfaceSimilarity (network science)Structural BiologyArtificial IntelligenceSequence Analysis ProteinProtein Interaction MappingCluster AnalysisDatabases Proteinlcsh:QH301-705.5Molecular BiologyOligonucleotide Array Sequence AnalysisApplied MathematicsMethodology ArticleDendrogramDecision TreesReproducibility of ResultsClassificationPartition (database)Computer Science ApplicationsTree (data structure)Rankinglcsh:Biology (General)Pattern recognition (psychology)lcsh:R858-859.7Data miningcomputerBiological networkBMC Bioinformatics

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Discriminating Graph Pattern Miningfrom Gene Expression Data

2016

We consider the problem of mining gene expression data in order to single out interesting features characterizing healthy/unhealthy samples of an input dataset. We present an approach based on a network model of the input gene expression data, where there is a labelled graph for each sample. To the best of our knowledge, this is the first attempt to build a different graph for each sample and, then, to have a database of graphs for representing a sample set. Our main goal is that of singling out interesting differences between healthy and unhealthy samples, through the extraction of "discriminative patterns" among graphs belonging to the two different sample sets. Differently from the other…

Settore INF/01 - InformaticaBiological networkPattern miningGene expression dataSoftware

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Knowledge Extraction from Biological and Social Graphs

2022

Many problems from the real life deal with the generation of enormous, varied, dynamic, and interconnected datasets coming from different and heterogeneous sources. This PhD Thesis focuses on the proposal of novel knowledge extraction techniques from graphs, mainly based on Big Data methodologies. Two application contexts are considered: Biological and Medical data, with the final aim of identifying biomarkers for diagnosis, treatment, prognosis, and prevention of diseases. Social data, for the optimization of advertising campaigns, the comparison of user profiles, and neighborhood analysis.

Settore INF/01 - InformaticaBiological networks Social networks Big data

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Algorithms for Graph and Network Analysis: Graph Alignment

2019

In this article we discuss the problem of graph alignment, which has been longly referred to for the purpose of analyzing and comparing biological networks. In particular, we describe different facets of graph alignment, according to the number of input networks, the fixed output objective, the possible heterogeneity of input data. Accordingly, we will discuss pairwise and multiple alignment, global and local alignment, etc. Moreover, we provide a comprehensive overview of the algorithms and techniques proposed in the literature to solve each of the specific considered types of graph alignment. In order to make the material presented here complete and useful to guide the reader in the use o…

Smith–Waterman algorithmSoftwareMultiple sequence alignmentAsymmetric alignmentBiological networksCellular interactionsGlobal alignmentGraph alignmentLocal alignmentMolecular componentsMultiple alignmentPairwise alignmentProtein-protein interactionsComputer sciencebusiness.industryGraph alignmentGraph (abstract data type)Pairwise comparisonbusinessAlgorithmBiological networkNetwork analysis

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