Inference of Longevity-Related Genes from a Robust Coexpression Network of Seed Maturation Identifies Regulators Linking Seed Storability to Biotic Defense-Related Pathways.
Karima RighettiJoseph Ly VuSandra PelletierBenoit Ly VuEnrico GlaabDavid LalanneAsher PashaRohan V PatelNicholas J ProvartJerome VerdierOlivier LeprinceJulia BuitinkPublished in: The Plant cell (2015)
Seed longevity, the maintenance of viability during storage, is a crucial factor for preservation of genetic resources and ensuring proper seedling establishment and high crop yield. We used a systems biology approach to identify key genes regulating the acquisition of longevity during seed maturation of Medicago truncatula. Using 104 transcriptomes from seed developmental time courses obtained in five growth environments, we generated a robust, stable coexpression network (MatNet), thereby capturing the conserved backbone of maturation. Using a trait-based gene significance measure, a coexpression module related to the acquisition of longevity was inferred from MatNet. Comparative analysis of the maturation processes in M. truncatula and Arabidopsis thaliana seeds and mining Arabidopsis interaction databases revealed conserved connectivity for 87% of longevity module nodes between both species. Arabidopsis mutant screening for longevity and maturation phenotypes demonstrated high predictive power of the longevity cross-species network. Overrepresentation analysis of the network nodes indicated biological functions related to defense, light, and auxin. Characterization of defense-related wrky3 and nf-x1-like1 (nfxl1) transcription factor mutants demonstrated that these genes regulate some of the network nodes and exhibit impaired acquisition of longevity during maturation. These data suggest that seed longevity evolved by co-opting existing genetic pathways regulating the activation of defense against pathogens.
Keyphrases
- transcription factor
- genome wide
- drosophila melanogaster
- genome wide identification
- arabidopsis thaliana
- network analysis
- single cell
- dna binding
- dna methylation
- squamous cell carcinoma
- functional connectivity
- climate change
- electronic health record
- big data
- inflammatory response
- innate immune
- deep learning
- cell proliferation
- pi k akt
- toll like receptor
- antimicrobial resistance
- artificial intelligence
- cell wall