Abstract
BackgroundBasal stem rot (BSR) caused by hemibiotroph Ganoderma boninense is a devastating disease resulting in a major loss to the oil palm industry. Since there is no physical symptom in oil palm at the early stage of G. boninense infection, characterisation of molecular defense responses in oil palm during early interaction with the fungus is of the utmost importance. Oil palm (Elaeis guineensis) seedlings were artificially infected with G. boninense inoculums and root samples were obtained following a time-course of 0, 3, 7, and 11 days-post-inoculation (d.p.i) for RNA sequencing (RNA-seq) and identification of differentially expressed genes (DEGs).ResultsThe host counter-attack was evidenced based on fungal hyphae and Ganoderma DNA observed at 3 d.p.i which became significantly reduced at 7 and 11 d.p.i. DEGs revealed upregulation of multifaceted defense related genes such as PR-protein (EgPR-1), protease inhibitor (EgBGIA), PRR protein (EgLYK3) chitinase (EgCht) and expansin (EgEXPB18) at 3 d.p.i and 7 d.p.i which dropped at 11 d.p.i. Later stage involved highly expressed transcription factors EgERF113 and EgMYC2 as potential regulators of necrotrophic defense at 11 d.p.i. The reactive oxygen species (ROS) elicitor: peroxidase (EgPER) and NADPH oxidase (EgRBOH) were upregulated and maintained throughout the treatment period. Growth and nutrient distribution were probably compromised through suppression of auxin signalling and iron uptake genes.ConclusionsBased on the analysis of oil palm gene expression, it was deduced that the biotrophic phase of Ganoderma had possibly occurred at the early phase (3 until 7 d.p.i) before being challenged by the fungus via switching its lifestyle into the necrotrophic phase at later stage (11 d.p.i) and finally succumbed the host. Together, the findings suggest the dynamic defense process in oil palm and potential candidates that can serve as phase-specific biomarkers at the early stages of oil palm-G. boninense interaction.
Highlights
Basal stem rot (BSR) caused by hemibiotroph Ganoderma boninense is a devastating disease resulting in a major loss to the oil palm industry
Preliminary screening of early defense response in G. boninense-infected oil palm roots Eighty-four of 4-month-old oil palm seedlings were divided into two treatments which were inoculation with bare RWB as mock treatment (T0) and inoculation with RWB fully colonised with G. boninense (T1)
Based on the preliminary screening, we suggested that there are two plausible phases of defense response primed by oil palm expressing at very early (3 d.p.i) and later (11 d.p.i) interaction with G. boninense
Summary
Basal stem rot (BSR) caused by hemibiotroph Ganoderma boninense is a devastating disease resulting in a major loss to the oil palm industry. Despite the huge export revenue from this commodity, oil palm plantation is facing major predicament due to basal stem rot (BSR) disease which hampers the oil palm production massively. BSR infects mature oil palm trees and seedlings and younger plants where manifestation of the disease occurs earlier and more severe [8]. BSR is manifested by progressive decay of roots that disrupts water and nutrient transport to the upper part of mature oil palm trees which concomitantly will bring about frond wilting, yellowing of frond, un-opening of spear leaves and eventually resulting in stand collapse [10]. Studies on early defense response are not just time and cost effective but provide insightful information on initiation of defense signaling networks upon recognition of pathogen
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