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The what, where, how and why of gene ontology--a primer for bioinformaticians

The what, where, how and why of gene ontology--a primer for bioinformaticians

http://www.wikidata.org/entity/Q24595988

about

Resolving the ortholog conjecture: orthologs tend to be weakly, but significantly, more similar in function than paralogs The Confidence Information Ontology: a step towards a standard for asserting confidence in annotations SEE: structured representation of scientific evidence in the biomedical domain using Semantic Web techniques Toward community standards in the quest for orthologs Evaluation of research in biomedical ontologies Zebrafish Expression Ontology of Gene Sets (ZEOGS): a tool to analyze enrichment of zebrafish anatomical terms in large gene sets.Connecting gene expression data from connectivity map and in silico target predictions for small molecule mechanism-of-action analysis.Phylogenetic profiling: how much input data is enough?Optimization of gene set annotations via entropy minimization over variable clusters (EMVC).Phylogenetic-based propagation of functional annotations within the Gene Ontology consortium Quality of computationally inferred gene ontology annotations.The mammalian adult neurogenesis gene ontology (MANGO) provides a structural framework for published information on genes regulating adult hippocampal neurogenesis.Functional networking of human divergently paired genes (DPGs).Ortholog identification in the presence of domain architecture rearrangement.GRYFUN: a web application for GO term annotation visualization and analysis in protein sets.Molecular architecture of the stria vascularis membrane transport system, which is essential for physiological functions of the mammalian cochlea.Interlog protein network: an evolutionary benchmark of protein interaction networks for the evaluation of clustering algorithms.GOTA: GO term annotation of biomedical literature.Medical Subject Heading (MeSH) annotations illuminate maize genetics and evolution.An Independent Filter for Gene Set Testing Based on Spectral Enrichment.What to compare and how: Comparative transcriptomics for Evo-Devo.Transcriptomic Analysis of the Endangered Neritid Species Clithon retropictus: De Novo Assembly, Functional Annotation, and Marker Discovery One stop shop for everything Dictyostelium: dictyBase and the Dicty Stock Center in 2012.Identifying essential cell types and circuits in autism spectrum disorders.GoMapMan: integration, consolidation and visualization of plant gene annotations within the MapMan ontology.Understanding how and why the Gene Ontology and its annotations evolve: the GO within UniProt.Annotated genes and nonannotated genomes: cross-species use of Gene Ontology in ecology and evolution research.Advances in urinary proteome analysis and applications in systems biology.Exploring Approaches for Detecting Protein Functional Similarity within an Orthology-based Framework.Mapping genes for calcium signaling and their associated human genetic disorders.Working with Ontologies.Visualizing GO Annotations.An association analysis between psychophysical characteristics and genome-wide gene expression changes in human adaptation to the extreme climate at the Antarctic Dome Argus.Complementary Sources of Protein Functional Information: The Far Side of GO.Inferring gene function from evolutionary change in signatures of translation efficiency.Towards refactoring the Molecular Function Ontology with a UML profile for function modeling.Methods for detection of horizontal transfer of transposable elements in complete genomes.Protein Function Prediction.Target Safety Assessment: Strategies and Resources.The evolutionary signal in metagenome phyletic profiles predicts many gene functions

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The what, where, how and why of gene ontology--a primer for bioinformaticians

http://www.wikidata.org/entity/Q24595988

description

2011 nî lūn-bûn

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2011 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած

@hyw

2011 թվականի նոյեմբերին հրատարակված գիտական հոդված

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2011年の論文

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2011年論文

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2011年論文

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2011年論文

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2011年論文

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2011年論文

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2011年论文

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name

The what, where, how and why of gene ontology--a primer for bioinformaticians

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The what, where, how and why of gene ontology--a primer for bioinformaticians

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The what, where, how and why of gene ontology--a primer for bioinformaticians

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type

label

The what, where, how and why of gene ontology--a primer for bioinformaticians

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The what, where, how and why of gene ontology--a primer for bioinformaticians

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The what, where, how and why of gene ontology--a primer for bioinformaticians

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The what, where, how and why of gene ontology--a primer for bioinformaticians

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The what, where, how and why of gene ontology--a primer for bioinformaticians

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The what, where, how and why of gene ontology--a primer for bioinformaticians

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Briefings in Bioinformatics

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The what, where, how and why of gene ontology--a primer for bioinformaticians

@en

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Nives Skunca

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The OBO Foundry: coordinated evolution of ontologies to support biomedical data integration

Annotation error in public databases: misannotation of molecular function in enzyme superfamilies

Semantic similarity in biomedical ontologies

Linking human diseases to animal models using ontology-based phenotype annotation

Gene ontology: tool for the unification of biology

The Pfam protein families database

InterPro: the integrative protein signature database

GOtcha: a new method for prediction of protein function assessed by the annotation of seven genomes

Probabilistic annotation of protein sequences based on functional classifications.

Ontology engineering.

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723-35

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scholarly article

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4439417

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10.1093/BIB/BBR002

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6

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12

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Christophe Dessimoz

Louis du Plessis

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2011-11-01T00:00:00Z

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49844729

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21330331

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information system

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3220872

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