Adaptation of a polyphagous herbivore to a novel host plant extensively shapes the transcriptome of herbivore and host

@article{Wybouw2015AdaptationOA,
  title={Adaptation of a polyphagous herbivore to a novel host plant extensively shapes the transcriptome of herbivore and host},
  author={Nicky Wybouw and Vladimir Zhurov and Catherine de Martel and Kristie Bruinsma and Frederik Hendrickx and Vojislava Grbi{\'c} and Thomas Van Leeuwen},
  journal={Molecular Ecology},
  year={2015},
  volume={24}
}
Generalist arthropod herbivores rapidly adapt to a broad range of host plants. However, the extent of transcriptional reprogramming in the herbivore and its hosts associated with adaptation remains poorly understood. Using the spider mite Tetranychus urticae and tomato as models with available genomic resources, we investigated the reciprocal genomewide transcriptional changes in both spider mite and tomato as a consequence of mite's adaptation to tomato. We transferred a genetically diverse… 
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Rapid specialization of counter defenses enables two-spotted spider mite to adapt to novel plant hosts
TLDR
It is shown that cytochrome P450 monooxygenases are required for mite adaptation to Arabidopsis, demonstrating that specialization to plant resistance traits can occur within the ecological timescale, enabling the two-spotted spider mite to shift to novel plant hosts.
Rapid specialization of counter defenses enables two-spotted spider mite to adapt to novel plant hosts
TLDR
It was shown that cytochrome P450 monooxygenases are required for mite adaptation to Arabidopsis, demonstrating that specialization to plant resistance traits can occur within the ecological timescale.
The role of horizontally transferred genes in the xenobiotic adaptations of the spider mite Tetranychus urticae
TLDR
This work successfully identified the gene of which the protein product (B-cyanoalanine synthase) detoxifies plant synthesized cyanide and uncovered that this gene was horizontally transferred from a bacterial species.
Rapid host-plant adaptation in the herbivorous spider mite Tetranychus urticae occurs at low cost.
The generalist herbivore Tetranychus urticae (Koch) adapts to novel plant hosts through rapid evolution of metabolic resistance
TLDR
This work examined the long-term response of an extreme generalist, the two-spotted spider mite, to the shift to the non-preferred and novel host plant Arabidopsis thaliana and identified the key requirement of two tiers of cytochrome P450 monooxygenases for TSSM adaptation toArabidopsis.
The transcriptome response of Heliconius melpomene larvae to a novel host plant
TLDR
It is suggested that transcriptional plasticity of genes in a herbivore may play an important role in adaptation to a new host plant.
Comparative genome-wide transcriptome analysis of Vitis vinifera responses to adapted and non-adapted strains of two-spotted spider mite, Tetranyhus urticae
TLDR
This study describes the genome-wide grapevine transcriptional responses to herbivory of mite strains that differ in their ability to use grapevine as a host and raises hypotheses whose testing will lead to the understanding of grapevine defenses and mite adaptations to them.
Genome streamlining in a minute herbivore that manipulates its host plant
TLDR
In accordance with ecological specialization theory, this defense-suppressing herbivore has extremely reduced environmental response gene families such as those involved in chemoreception and detoxification, and other losses associate with this species’ highly derived body plan.
Transcriptomic Plasticity in the Arthropod Generalist Tetranychus urticae Upon Long-Term Acclimation to Different Host Plants
TLDR
Analysis at the gene family level uncovered overlapping functional processes, highlighting a possible detoxification role for Tetranychus-specific short-chain dehydrogenases and single PLAT domain proteins, and manual genome annotation showed that both families are expanded in T. urticae.
Long-term population studies uncover the genome structure and genetic basis of xenobiotic and host plant adaptation in the herbivore Tetranychus urticae
TLDR
It is shown that the short generation time and high fecundity of T. urticae can be readily exploited in experimental evolution designs for high-resolution mapping of quantitative traits, and that a limited number of loci could explain quantitative resistance to this compound.
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