Using RNA-Seq for Genomic Scaffold Placement, Correcting Assemblies, and Genetic Map Creation in a Common Brassica rapa Mapping Population.
R J Cody MarkelzMichael F CovingtonMarcus T BrockUpendra Kumar DevisettyDaniel J KliebensteinCynthia WeinigJulin N MaloofPublished in: G3 (Bethesda, Md.) (2017)
Brassica rapa is a model species for agronomic, ecological, evolutionary, and translational studies. Here, we describe high-density SNP discovery and genetic map construction for a B. rapa recombinant inbred line (RIL) population derived from field collected RNA sequencing (RNA-Seq) data. This high-density genotype data enables the detection and correction of putative genome misassemblies and accurate assignment of scaffold sequences to their likely genomic locations. These assembly improvements represent 7.1-8.0% of the annotated B. rapa genome. We demonstrate how using this new resource leads to a significant improvement for QTL analysis over the current low-density genetic map. Improvements are achieved by the increased mapping resolution and by having known genomic coordinates to anchor the markers for candidate gene discovery. These new molecular resources and improvements in the genome annotation will benefit the Brassicaceae genomics community and may help guide other communities in fine-tuning genome annotations.
Keyphrases
- high density
- rna seq
- single cell
- genome wide
- copy number
- genome wide analysis
- high throughput
- dna methylation
- electronic health record
- healthcare
- big data
- genome wide identification
- high resolution
- single molecule
- air pollution
- gene expression
- tissue engineering
- data analysis
- mental health
- ultrasound guided
- artificial intelligence
- transcription factor
- real time pcr