Project description:Orgyia antiqua (rusty tussock moth)

Project description:Orgyia antiqua (vapourer moth) genome assembly, ilOrgAnti1, alternate haplotype

Project description:Orgyia antiqua (rusty tussock moth), genomic and transcriptomic data

Project description:Orgyia antiqua overview

Project description:<p> The casuarina moth (Lymantria xylina) is a notorious forestry pest, posing severe ecological and economic threats due to its destructive defoliation outbreaks and high invasive potential. Despite its significance, a high-quality reference genome has been lacking, limiting molecular-level investigations into its biology and hindering the development of effective pest management strategies.&nbsp;In this study, we report the first chromosome-level genome assembly&nbsp;of L. xylina&nbsp;generated through a combination of illumina short-reads, Oxford Nanopore long-reads, and Hi-C scaffolding. The final assembly spans 977.74 Mb, with 95.17% anchored to 31 pseudo-chromosomes, achieving a scaffold N50 of 34.15 Mb. Importantly, telomeric sequences were identified at both ends of all 31 pseudo-chromosomes, underscoring the exceptional quality and completeness of this reference genome. Quality assessment further revealed a BUSCO completeness of 94.5% and a consensus QV of 31.72. We also annotated 18,484 protein-coding genes, 95.21% of which were functionally assigned, and characterized genome-wide repetitive elements (77.18%).</p><p> Beyond the genome assembly, we generated comprehensive RNA-seq and metabolomic datasets&nbsp;across multiple diapause stages, enabling insights into gene expression dynamics and metabolic regulation during egg development. Together, these resources provide a valuable foundation for studying the genetic basis of host adaptation, invasiveness, and interactions with natural enemies such as nucleopolyhedrovirus and Beauveria bassiana.</p>

Project description:Trichomes are specialised epidermal cells that generally play a role in reducing transpiration and act as a deterrent to herbivory. In a screen of activation tagged Populus tremula x P. alba 717-1B4 trees, we identified a mutant line, fuzzy, with increased foliar trichome density. This mutant also had a 35% increase in growth rate and a 200% increase in the rate of photosynthesis as compared to wild-type poplar. The fuzzy mutant had significant resistance to feeding by larvae of the white spotted tussock moth (Orgyia leucostigma), a generalist insect pest of poplar trees. The fuzzy phenotype is attributable to activation tagging and increased expression of the gene encoding PtaMYB186, which is related to Arabidopsis thaliana MYB106, a known regulator of trichome initiation. The fuzzy phenotype can be recapitulated by overexpressing PtaMYB186 in poplar. PtaMYB186 overexpression results in reconfiguration of the poplar transcriptome, with changes in the transcript abundance of suites of genes that are related to trichome differentiation. It is notable that this gene responsible for trichome development also altered traits related to growth rate and pest resistance, suggesting that non-intuitive facets of plant development might be useful targets for plant improvement.

Project description:Using 4 replicate males and 4 replicate females this experiment examined dosage compensation and sex-biased gene expression. Briefly we performed a de novo assembly of the Manduca sexta transcriptome using all sequenced libraries, quantified genes expression, identified the physical locations of genes through orthology to the moth Bombyx mori and examine expression differences between autosomal and Z-linked genes between males and females. Further, we examined sex-biased gene expression using the replicated data.

Project description:Trichomes are specialised epidermal cells that generally play a role in reducing transpiration and act as a deterrent to herbivory. In a screen of activation tagged Populus tremula x P. alba 717-1B4 trees, we identified a mutant line, fuzzy, with increased foliar trichome density. This mutant also had a 35% increase in growth rate and a 200% increase in the rate of photosynthesis as compared to wild-type poplar. The fuzzy mutant had significant resistance to feeding by larvae of the white spotted tussock moth (Orgyia leucostigma), a generalist insect pest of poplar trees. The fuzzy phenotype is attributable to activation tagging and increased expression of the gene encoding PtaMYB186, which is related to Arabidopsis thaliana MYB106, a known regulator of trichome initiation. The fuzzy phenotype can be recapitulated by overexpressing PtaMYB186 in poplar. PtaMYB186 overexpression results in reconfiguration of the poplar transcriptome, with changes in the transcript abundance of suites of genes that are related to trichome differentiation. It is notable that this gene responsible for trichome development also altered traits related to growth rate and pest resistance, suggesting that non-intuitive facets of plant development might be useful targets for plant improvement. 6 arrays total. 2 genotypes – WT, FUZZY – PtaMYB186 OE

Project description:Developmental and adult Lepidoptera RNAseq from Orgyia antiqua, Lymantria monacha, Nymphula nitidulata, Noctua pronuba Raw sequence reads

Project description:Orgyia leucostigma genome sequence