Transcriptomics

Biography

Biography: Byung Wook Yun

Abstract

Forest trees, including poplar, have evolved to overcome harsh environmental conditions including drought stress. Populus trichocarpa has been studied as a model poplar species through biomolecular approaches and is the first tree species to be genome sequenced. In contrast, the genome of P. davidiana, the Korean aspen, has not been sequenced and is considered highly tolerant to drought stress. In this study, we used high throughput RNA-Seq mediated leaf transcriptome analysis to investigate the response of 4 different P. davidiana cultivars to drought stress. Based upon preliminary studies including H₂O₂ measurements and histological staining, the cultivars were divided into two major groups “drought-tolerant (Seogwang9, Palgong2)” and “drought-susceptible (Palgong1, Junguk6-2)”. P. davidiana plants grown on MS (Murashige and Skoog) media for 8 weeks were air-dried for 10 minutes and leaves were harvested for transcriptome analysis along with untreated control samples. Following RNA-Seq, we compared the transcriptome profiles between the two groups for DEGs (Differentially Expressed Gene), GO (Gene Ontology) enrichment analysis, and identified common drought stress marker genes. Further analysis identified two distinct DEGs with contrasting expression patterns in the drought-sensitive and tolerant groups i.e. up-regulated in the drought-tolerant group while down-regulated in the sensitive group. BLAST analysis showed that both these genes encode 9-cis-epoxycarotenoid dioxygenase (NCED), a key enzyme required for ABA biosynthesis. This suggests a significant role of these two genes in conferring drought tolerance to P. davidiana cultivars in the drought-tolerant group. This study presents the first evidence of a significant role of NCED genes in regulating ABA-dependent drought stress responses in P. davidiana as it has already been shown that NCED regulate ABA-dependent drought adaptation via mRNA de-capping machinery in certain varieties of some plant species. We therefore, suggest the utility of these genes as genetic markers for differentiating drought tolerant and sensitive poplar cultivars.