Transcriptome analysis of oil palm (Elaeis guineensis Jacq.) roots under waterlogging stress

Abstract

Waterlogging seriously constrains growth and yields in oil palm. To date, the responsive molecular changes caused by waterlogging in oil palm remain elusive. To elucidate the molecular genetic mechanisms of waterlogging stress, two varieties of oil palm Deli x Lamé and Deli x Ghana were used. The transcriptome profiles of the roots under waterlogging stress and normal conditions were compared via Ion Torrent Sequencing. Four libraries (GNR, GSR, SNR, and SSR) of oil palm roots after 45 days of normal watering and waterlogging stress were constructed. Approximately 6.2 million sequenced reads per library were obtained, with 5.5 million mapped reads (88.64%) similar to the oil palm genome in the GenBank database. A comparison of GNR/GSR showed a high of 3,289 DEGs with most genes up-regulated (1,863 DEGs). The GO analysis revealed the distribution of the DEGs among various pathways, suggesting a wide spectrum of physiological processes impacted by waterlogging stress. Moreover, qRT-PCR showed strong expression of all selected RNA-seq genes in waterlogged Deli x Ghana (GSR), especially GST, SAPK10 and NAC29 that are reported for the time to respond to waterlogging stress. Thus, this study not only reveals the comprehensive mechanisms of waterlogging responsive transcription in oil palm, but also establishes Deli x Ghana as a highly-adaptable variety to waterlogging conditions.