Response of Three Chloris elata Populations to Herbicides Sprayed in Pre- and Post-Emergence

The spider mite Tetranychus urticae is a cosmopolitan agricultural pest with an extensive host plant range and an extreme record of pesticide resistance. Here we present the completely sequenced and annotated spider mite genome, representing the first complete chelicerate genome. At 90 megabases T. urticae has the smallest sequenced arthropod genome. Compared with other arthropods, the spider mite genome shows unique changes in the hormonal environment and organization of the Hox complex, and also reveals evolutionary innovation of silk production. We find strong signatures of polyphagy and detoxification in gene families associated with feeding on different hosts and in new gene families acquired by lateral gene transfer. Deep transcriptome analysis of mites feeding on different plants shows how this pest responds to a changing host environment. The T. urticae genome thus offers new insights into arthropod evolution and plant–herbivore interactions, and provides unique opportunities for developing novel plant protection strategies.

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RNA interference in Lepidoptera: An overview of successful and unsuccessful studies and implications for experimental design

Terenius

Papanicolaou

Garbutt

et al. 2011

Journal of Insect Physiology

730

681

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Gene silencing through RNA interference (RNAi) has revolutionized the study of gene 98 function, particularly in non-model insects. However, in Lepidoptera (moths and butterflies) 99 RNAi has many times proven to be difficult to achieve. Most of the negative results have been 100 anecdotal and the positive experiments have not been collected in such a way that they are 101 possible to analyze. In this review, we have collected detailed data from more than 150 102 experiments including all to date published and many unpublished experiments. Despite a 103 large variation in the data, trends that are found are that RNAi is particularly successful in the 104 family Saturniidae and in genes involved in immunity. On the contrary, gene expression in 105 epidermal tissues seems to be most difficult to silence. In addition, gene silencing by feeding 106 dsRNA requires high concentrations for success. Possible causes for the variability of success 107 in RNAi experiments in Lepidoptera are discussed. The review also points to a need to further 108 investigate the mechanism of RNAi in lepidopteran insects and its possible connection to the 109 innate immune response. Our general understanding of RNAi in Lepidoptera will be further 110 aided in the future as our public database at http://insectacentral.org/RNAi will continue to 111 gather information on RNAi experiments.

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Comprehensive survey of developmental genes in the pea aphid, Acyrthosiphon pisum: frequent lineage‐specific duplications and losses of developmental genes

Shigenobu

Bickel

Brisson

et al. 2010

Insect Molecular Biology

118

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Abstracti mb_944 47..62Aphids exhibit unique attributes, such as polyphenisms and specialized cells to house endosymbionts, that make them an interesting system for studies at the interface of ecology, evolution and development. Here we present a comprehensive characterization of the developmental genes in the pea aphid, Acyrthosiphon pisum, and compare our results to other sequenced insects. We investigated genes involved in fundamental developmental processes such as establishment of the body plan and organogenesis, focusing on transcription factors and components of signalling pathways. We found that most developmental genes were well conserved in the pea aphid, although many lineage-specific gene duplications and gene losses have occurred in several gene families. In particular, genetic components of transforming growth factor beta (TGFb) Wnt, JAK/STAT (Janus kinase/signal transducer and activator of transcription) and EGF (Epidermal Growth Factor) pathways appear to have been significantly modified in the pea aphid.

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A Halloween gene noppera-bo encodes a glutathione S-transferase essential for ecdysteroid biosynthesis via regulating the behaviour of cholesterol in Drosophila

Enya

Ameku

Igarashi

et al. 2014

Sci Rep

122

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In insects, the precise timing of moulting and metamorphosis is strictly guided by ecdysteroids that are synthesised from dietary cholesterol in the prothoracic gland (PG). In the past decade, several ecdysteroidogenic enzymes, some of which are encoded by the Halloween genes, have been identified and characterised. Here, we report a novel Halloween gene, noppera-bo (nobo), that encodes a member of the glutathione S-transferase family. nobo was identified as a gene that is predominantly expressed in the PG of the fruit fly Drosophila melanogaster. We generated a nobo knock-out mutant, which displayed embryonic lethality and a naked cuticle structure. These phenotypes are typical for Halloween mutants showing embryonic ecdysteroid deficiency. In addition, the PG-specific nobo knock-down larvae displayed an arrested phenotype and reduced 20-hydroxyecdysone (20E) titres. Importantly, both embryonic and larval phenotypes were rescued by the administration of 20E or cholesterol. We also confirm that PG cells in nobo loss-of-function larvae abnormally accumulate cholesterol. Considering that cholesterol is the most upstream material for ecdysteroid biosynthesis in the PG, our results raise the possibility that nobo plays a crucial role in regulating the behaviour of cholesterol in steroid biosynthesis in insects.

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Recent Studies on Insect Hormone Metabolic Pathways Mediated by Cytochrome P450 Enzymes

Iga

Kataoka

2012

Biological & Pharmaceutical Bulletin

152

110

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In insects molting and metamorphosis are primarily under the control of two insect hormones, ecdysone and juvenile hormone (JH). Physiological and biochemical studies of insect hormone metabolic pathways suggested the involvement of P450 (CYP) enzymes in the pathways, but molecular details of the enzymes were unclear. In recent years, the genome information and studies using molecular biology and genetics have allowed us to understand enzymes in the ecdysteroid and JH metabolic pathways. Genome sequencing has been accomplished in several insect species, and has shown the presence of 36-180 CYP enzymes. To date, six and one CYP enzymes have been revealed in the biosynthesis and inactivation pathways of 20-hydroxyecdysone (20E), respectively. In the 20E biosynthetic pathway, correlation among the enzymes, substrates and metabolites is elucidated in the late steps, but the enzyme(s) and intermediates in the early steps have not been fully understood and are referred to as the 'Black Box'. The gene expression of some CYP enzymes in the 20E biosynthesis is modulated by neuropeptides and JH. Furthermore, involvement of a CYP enzyme is found in both JH biosynthesis and inactivation pathways. Thus, recent studies have shown the importance of CYP enzymes in insect hormone metabolisms.

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Masatoshi Iga

The genome of Tetranychus urticae reveals herbivorous pest adaptations

RNA interference in Lepidoptera: An overview of successful and unsuccessful studies and implications for experimental design

Comprehensive survey of developmental genes in the pea aphid, Acyrthosiphon pisum: frequent lineage‐specific duplications and losses of developmental genes

A Halloween gene noppera-bo encodes a glutathione S-transferase essential for ecdysteroid biosynthesis via regulating the behaviour of cholesterol in Drosophila

Recent Studies on Insect Hormone Metabolic Pathways Mediated by Cytochrome P450 Enzymes

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