Parallelizing genetic linkage analysis: A case study for applying parallel computation in molecular biology
Miller P, Nadkarni P, Gelernter J, Carriero N, Pakstis A, Kidd K. Parallelizing genetic linkage analysis: A case study for applying parallel computation in molecular biology. Journal Of Biomedical Informatics 1991, 24: 234-248. PMID: 1868693, DOI: 10.1016/0010-4809(91)90046-y.Peer-Reviewed Original ResearchMeSH KeywordsChromosome MappingForecastingGenetic LinkageLod ScoreMolecular BiologyProgramming LanguagesSoftwareSoftware DesignConceptsParallel computersSequential programsMachine-independent parallel programming languageParallel programming languageDifferent parallel machinesLengthy computation timeParallel programsProgramming languageAvailable processorsDifferent processorsParallel computationParallel machinesSequential versionParallel versionComputational loadComputation timePerformance benchmarksComputerProcessorsCase studyDifferent piecesIterative programsLINKMAPComputationParallel formsSENEX: a computer-based representation of cellular signal transduction processes in the central nervous system
Ball S, Mah V, Miller P. SENEX: a computer-based representation of cellular signal transduction processes in the central nervous system. Bioinformatics 1991, 7: 175-187. PMID: 2059842, DOI: 10.1093/bioinformatics/7.2.175.Peer-Reviewed Original ResearchConceptsCellular signal transduction processesSignal transduction processesTransduction processesSerine/threonine kinasePossible signal transduction pathwaysSignal transduction pathwaysMammalian central nervous systemThreonine kinaseTransduction pathwaysMultisubunit proteinProtein kinaseTyrosine kinaseKinaseCentral nervous systemNervous systemSenexEnzymeInheritance of attributesEnzymatic reactionsSubunitsProteinSpecific retrievalInheritancePathwayFunction