METHODS: The genome sequence was used as a reference to study gene expression during growth in a starved carbon (C) and nitrogen (N) environment with minimal sugar and sawdust as initial energy sources. This study was conducted to mimic possible limitations of the C-N nutrient sources during the growth of G. boninense in oil palm plantations.
RESULTS: Genome sequencing of an isolate collected from a palm tree in West Malaysia generated an assembly of 67.12 Mb encoding 19,851 predicted genes. Transcriptomic analysis from a time course experiment during growth in this starvation media identified differentially expressed genes (DEGs) that were found to be associated with 29 metabolic pathways. During the active growth phase, 26 DEGs were related to four pathways, including secondary metabolite biosynthesis, carbohydrate metabolism, glycan metabolism and mycotoxin biosynthesis. G. boninense genes involved in the carbohydrate metabolism pathway that contribute to the degradation of plant cell walls were up-regulated. Interestingly, several genes associated with the mycotoxin biosynthesis pathway were identified as playing a possible role in pathogen-host interaction. In addition, metabolomics analysis revealed six metabolites, maltose, xylobiose, glucooligosaccharide, glycylproline, dimethylfumaric acid and arabitol that were up-regulated on Day2 of the time course experiment.
CONCLUSIONS: This study provides information on genes expressed by G. boninense in metabolic pathways that may play a role in the initial infection of the host.
RESULTS: Using a combination of short (10X Genomics) and long read (PacBio HiFi, PacBio CLR) sequencing and a genetic map for the GIFT strain, we generated a chromosome level genome assembly for the GIFT. Using genomes of two closely related species (O. mossambicus, O. aureus), we characterised the extent of introgression between these species and O. niloticus that has occurred during the breeding process. Over 11 Mb of O. mossambicus genomic material could be identified within the GIFT genome, including genes associated with immunity but also with traits of interest such as growth rate.
CONCLUSION: Because of the breeding history of elite strains, current reference genomes might not be the most suitable to support further studies into the GIFT strain. We generated a chromosome level assembly of the GIFT strain, characterising its mixed origins, and the potential contributions of introgressed regions to selected traits.
METHODS AND RESULTS: Total nucleic acids were extracted from leaf samples harvested from frond 20 of seven Dura × Pisifera (D × P) African oil palm (Elaeis guineensis Jacq.) aged between 13 and 21 years old collected from local plantations. The nucleic acids were fractionated using 5% non-denaturing polyacrylamide gel electrophoresis (PAGE) before being subjected to detection by reverse transcribed polymerase chain reaction (RT-PCR). The PCR products were cloned into a plasmid vector and the sequence of the clones was analyzed. CCCVd variants were quantified using real-time qPCR assay with CCCVd specific primers. Sixteen randomly selected clones of (OP246) had an arbitrary 100% identity with CCCVdOP246 (GeneBank Accession No: HQ608513). Meanwhile, four clones had >93% similarity with several minor sequence variations forming variants of OP234, OP235, OP251 and OP279.
CONCLUSION: The OS symptoms observed in the field were characterized into three categories based on the size and morphology of the orange spots on the affected fronds. In addition, there was no direct correlation between disease severity and the accumulation of CCCVd variants in oil palm. This finding is the first report describing the sequence variation of the CCCVd RNA and symptom variation in OS oil palm field samples.