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Neuroendocrine Roles of the Brain in the Regulation of 20-Hydroxyecdysone Responsiveness in Two Types of Diapaus Pupae of the Cabbage Armyworm, Mamestra brassicae

Authors :
Reza Md. Shahjahan
Nami Nankaku
Yukie Marui
Weihua Kong
A. T. M. Fayezul Islam
Katsuhiko Endo
Akira Yamanaka
Source :
Zoological Science. 22:775-781
Publication Year :
2005
Publisher :
Zoological Society of Japan, 2005.

Abstract

The cabbage armyworm, Mamestra brassicae, has winter-and aestival- diapause pupae (WD- and AD-pupae) showing differences in the strength of diapause. We tried to quantify diapause-strength by measuring the doses of 20-hydroxyecdysone (20-E) required to induce adult development in WD-, AD- and decerebrated non-diapause pupae (ND-pupae). The role of the brain in the regulation of diapause-strength was studied through the decerebration and brain-reimplantation of WD-and AD-pupae. The 20-E doses required for adult development were small within the first 2 days of pupation, and increased thereafter to reach a constant level about 10 days after pupation in AD- and decerebrated ND-pupae. The required 20-E doses in WD-pupae increased for more than 40 days after pupation. When 0-day-old WD- and 0-day-old AD-pupae were decerebrated, required 20-E doses increased after pupation and reached a constant about 10 days later. The required 20-E dose reached a constant level in decerebrated WD-pupae that was smaller than that observed for decerebrated ND- and WD-pupae. Furthermore, the required doses increased when 0-day-old WD-pupal brains were reimplanted into decerebrated WD- and decerebrated ND-pupae. In WD-, AD- and decerebrated ND-pupae, diapause-strength can be represented as the 20-E dose required for adult development. Diapause-strength is weak after pupation, increases thereafter, and reaches a constant about 10 days later in AD- and decerebrated ND-pupae. In WD-pupae, diapause-strength increases for more than 40 days after pupation and reaches a level that is twice that estimated for AD-pupae. Brains of diapausing WD-pupae may secrete a factor that suppresses the 20-E responsiveness of pupal organs, for the purpose of maintaining winter-diapause.

Details

ISSN :
02890003
Volume :
22
Database :
OpenAIRE
Journal :
Zoological Science
Accession number :
edsair.doi.dedup.....2ea315f41c04d84589b0aa40831d07fb
Full Text :
https://doi.org/10.2108/zsj.22.775