Takane Ozawa scite author profile

Takane Ozawa

2Publications

45Citation Statements Received

54Citation Statements Given

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The University of Tokyo

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Histone deacetylases control module-specific phenotypic plasticity in beetle weapons

Ozawa

Mizuhara

Arata

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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Nutritional conditions during early development influence the plastic expression of adult phenotypes. Among several body modules of animals, the development of sexually selected exaggerated traits exhibits striking nutrition sensitivity, resulting in positive allometry and hypervariability distinct from other traits. Using de novo RNA sequencing and comprehensive RNA interference (RNAi) for epigenetic modifying factors, we found that histone deacetylases (HDACs) and polycomb group (PcG) proteins preferentially influence the size of mandibles (exaggerated male weapon) and demonstrate nutrition-dependent hypervariability in the broad-horned flour beetle, Gnatocerus cornutus. RNAi-mediated HDAC1 knockdown (KD) in G. cornutus larvae caused specific curtailment of mandibles in adults, whereas HDAC3 KD led to hypertrophy. Notably, these KDs conferred opposite effects on wing size, but little effect on the size of the core body and genital modules. PcG RNAi also reduced adult mandible size. These results suggest that the plastic development of exaggerated traits is controlled in a module-specific manner by HDACs.phenotypic plasticity | HDAC | Gnatocerus cornutus | exaggerated male weapon | sexual dimorphism

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Environmental Factors Affecting Pupation Decision in the Horned Flour BeetleGnatocerus cornutus

et al. 2015

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Social environments often affect the development of organisms. In Tenebrionidae beetles, larval development can be arrested at the final instar stage in the presence of conspecific larvae. This developmental plasticity is considered to be an anti-cannibalistic strategy but the critical environmental determinants and actual effects remain to be elucidated. In this study, we examined the effects of the heterospecific environment, conspecific sexual environment (i.e., presence of conspecific male or female), and abiotic physical stimulation on the pupation decision of the sexually dimorphic horned-flour beetle Gnatocerus cornutus. Additionally, actual anti-cannibalistic or antipredatory effects of developmental arrest were evaluated by analyzing stage-dependent vulnerabilities. When G. cornutus larvae were maintained with a G. cornutus larva, a G. cornutus adult, or T. castaneum adult, the developmental period up to the prepupal stage was significantly elongated, suggesting that the cue is not species-specific. Sexual environment did not affect the timing of pupation in G. cornutus; however, we found that abiotic tactile stimulations by glass beads could repress pupation. We also discovered that prepupal and pupal stages were more vulnerable to cannibalism and predation than the larval stage. These data suggest that G. cornutus larvae use non-species specific tactile stimulation as a decision cue for pupation and it has broader defensive effects against heterospecific predation as well as conspecific cannibalism.

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Takane Ozawa

Histone deacetylases control module-specific phenotypic plasticity in beetle weapons

Environmental Factors Affecting Pupation Decision in the Horned Flour BeetleGnatocerus cornutus

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