SelenoDB 2.0: annotation of selenoprotein genes in animals and their genetic diversity in humans.
Frédéric RomagnéDidac SantesmassesLouise WhiteGaurab K. SarangiMarco MariottiRon HüblerAntje WeihmannGenis ParraVadim N. GladyshevRoderic GuigóSergi CastellanoPublished in: Nucleic Acids Res. (2014)
Keyphrases
- gene function
- complex diseases
- gene gene interactions
- gene gene
- gene products
- gene expression
- genome wide
- microarray
- human beings
- genetic regulatory networks
- gene ontology
- microarray data
- gene networks
- metadata
- gene expression data
- decision trees
- human genome
- gene ontology terms
- high throughput
- semantic annotation
- genetic algorithm
- gene regulatory networks
- linkage disequilibrium
- active learning
- genome annotation
- gene selection
- microarray gene expression data
- biological processes
- human behavior
- microarray data analysis
- metabolic pathways
- textual information
- biological knowledge
- dna microarray
- single nucleotide polymorphisms
- candidate genes
- automatic annotation
- genome wide association studies
- genomic data
- network model
- human subjects
- text mining
- feature selection