Shuichiro Tomita scite author profile

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review, we have collected detailed data from more than 150 102 experiments including all to date published and many unpublished experiments.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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Exploring systemic RNA interference in insects: a genome-wide survey for RNAi genes in Tribolium

Tomoyasu

et al. 2008

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Background: RNA interference (RNAi) is a highly conserved cellular mechanism. In some organisms, such as Caenorhabditis elegans, the RNAi response can be transmitted systemically. Some insects also exhibit a systemic RNAi response. However, Drosophila, the leading insect model organism, does not show a robust systemic RNAi response, necessitating another model system to study the molecular mechanism of systemic RNAi in insects.

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DPM2 regulates biosynthesis of dolichol phosphate-mannose in mammalian cells: correct subcellular localization and stabilization of DPM1, and binding of dolichol phosphate

et al. 1998

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Biosynthesis of glycosylphosphatidylinositol and N-glycan precursor is dependent upon a mannosyl donor, dolichol phosphate-mannose (DPM). The Thy-1negative class E mutant of mouse lymphoma and Lec15 mutant Chinese hamster ovary (CHO) cells are incapable of DPM synthesis. The class E mutant is defective in the DPM1 gene which encodes a mammalian homologue of Saccharomyces cerevisiae Dpm1p that is a DPM synthase, whereas Lec15 is a different mutant, indicating that mammalian DPM1 is not sufficient for DPM synthesis. Here we report expression cloning of a new gene, DPM2, which is defective in Lec15 cells. DPM2, an 84 amino acid membrane protein expressed in the endoplasmic reticulum (ER), makes a complex with DPM1 that is essential for the ER localization and stable expression of DPM1. Moreover, DPM2 enhances binding of dolichol phosphate, a substrate of DPM synthase. Mammalian DPM1 is catalytic because a fusion protein of DPM1 that was stably expressed in the ER synthesized DPM without DPM2. Therefore, biosynthesis of DPM in mammalian cells is regulated by DPM2.

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Tissue‐Specific and Stage‐Specific Expression of Two Silkworm Ecdysone Receptor Isoforms

Kamimura

Tomita

Kiuchi

et al. 1997

European Journal of Biochemistry

105

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Previously, we isolated a cDNA clone for the ecdysone receptor B1 isoform of the silkworm, Bombyx mori (BmEcR-Bl). Here we report the cloning of a cDNA that encodes the Bombyx ecdysone receptor A isoform (BmEcR-A) and mRNA expression of the two BmEcR isoforms during molting and metamorphosis. At larval-pupal transformation, mRNA expression of BmEcR-B 1 was predominant in most tissues examined, including three larval tissues (midgut, epidermis, and fat body) and the wing imaginal disc. The anterior silk gland was the only tissue where BmEcR-A was predominant. These expression patterns were different from observations demonstrated in Drosophila. In the anterior silk gland, both EcR isoforms were expressed synchronously during the fifth larval instar, while expression of the A isoform preceded that of the B1 isoform by two days in the fourth instar. Precedence of BmEcR-A during the fourth instar and synchronization of both isoforms during the fifth instar were also observed in the middle and posterior silk glands, suggesting that transcription of BmEcR in the silk gland is regulated differently in these two instars. In the cultured anterior silk glands of day 0 of the fifth instar, transcription of BmEcR-A and BmEcR-B1 was induced dose dependently by more than 5 ng/ml 20-hydroxyecdysone. BmEcR-A and BmEcR-B1 mRNAs were induced within 2 h and 1 h, respectively, of the addition of 20-hydroxyecdysone. These results suggest that the increase of BmEcR mRNAs during the fifth instar is induced in vivo by a small increase in ecdysteroids.Keywords: ecdysone receptor; Bombyx mori; ecdysteroid ; silk gland ; isoform.Steroid hormones coordinate a wide array of developmental and physiological processes in higher organisms, through binding with receptor proteins to regulate the stage-specific and tissue-specific transcription of target genes. In insects, ecdysteroids, particularly 20-hydroxyecdysone, are the key steroid hormones. 20-Hydroxyecdysone plays a central role in the orchestration of development during molts and metamorphosis. Ashburner et al. (1974) proposed a model for 20-hydroxyecdysone action based on puffing responses of the polytene chromosomes in the Drosophila salivary gland. In this model, 20-hydroxyecdysone binds with an ecdysone receptor protein and directly activates the transcription of a small set of early genes, which then activate many late genes. Recent molecular analyses characterized the ecdysone receptor gene and some of the early genes, most of which are putative transcriptional factors as predicted by Ashburner's model (reviewed in Henrich and Brown, 1995;Thummel, 1995). The ecdysone receptor (EcR) identified from Drosophila is a member of the nuclear receptor superfamily and has three isoforms (A, B1, and B2) with common DNA and

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Exploring the molecular phylogeny of phasmids with whole mitochondrial genome sequences

Kômoto

Yukuhiro

Ueda

et al. 2011

Molecular Phylogenetics and Evolution

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