Transcriptionally active gene fragments derived from potentially fast-evolving donor genes in the rice genome.
Xiangfeng WangZhihui YuXiaozeng YangXing Wang DengLei LiPublished in: Bioinform. (2009)
Keyphrases
- escherichia coli
- sequenced genomes
- genomic sequences
- gene expression
- comparative genomics
- regulatory networks
- genome scale
- gene expression data
- coding regions
- microarray expression data
- genome rearrangements
- evolutionary history
- post transcriptional
- gene sets
- genome sequences
- gene ontology
- essential genes
- microarray
- gene prediction
- metabolic pathways
- gene regulation
- gene clusters
- microarray data
- microarray technology
- gene regulatory networks
- cis regulatory
- human genome
- gene selection
- sequence data
- gene expression analysis
- genome annotation
- gene function
- dna sequences
- dna microarray
- single nucleotide polymorphisms
- gene expression patterns
- gene expression levels
- high throughput sequencing
- feature selection
- biological processes
- cell cycle
- gene networks
- genomic data
- previously unknown
- sequence alignment
- high throughput
- alternative splicing
- saccharomyces cerevisiae
- signaling pathways
- gene expression profiles
- microarray datasets
- transcriptional regulation
- protein protein interactions
- data sets