RNA interference‐mediated functional characterization of aquaporin genes in Tribolium castaneum

An obvious challenge faced by most terrestrial insects is maintaining water homeostasis in an arid environment. Current research suggests aquaporins may be evolved to meet the challenge. However, up to now, this suggestion has not been verified in any insect that feeds upon solid food with mandibula...

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Veröffentlicht in:Insect molecular biology 2018-04, Vol.27 (2), p.234-246
Hauptverfasser: Yao, X.‐X., Meng, Q.‐W., Li, G.‐Q.
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Sprache:eng
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Zusammenfassung:An obvious challenge faced by most terrestrial insects is maintaining water homeostasis in an arid environment. Current research suggests aquaporins may be evolved to meet the challenge. However, up to now, this suggestion has not been verified in any insect that feeds upon solid food with mandibulate mouthparts. In the present paper, nine putative aquaporin genes [Tribolium castaneum big brain, T. castaneum Drosophila integral protein (TcDrip), T. castaneum Pyrocoelia rufa integral protein (TcPrip), T. castaneum aquaporin 12‐like, T. castaneum entomoglyceroporin 1 (TcEglp1), TcEglp2, TcEglp3, TcEglp4 and TcEglp5] were identified in T. castaneum. The transcripts of the nine genes were easily detectable in the foregut, midgut, hindgut–Malpighian tubule complex, fat body and carcass (except gut and fat body). Amongst them TcDrip, TcPrip, TcEglp1, TcEglp3 and TcEglp5 were highly transcribed in the hindgut–Malpighian tubule complex; TcEglp4 was abundantly expressed in both the fat body and hindgut–Malpighian tubule complex. RNA interference (RNAi)‐mediated knockdown of TcEglp3 caused a grey larval cuticle, in contrast to a smooth and bright cuticle in control larvae. Approximately 40% of the TcEglp3 RNAi larvae had their hindguts protruding from the anus; their fresh wet faeces were attached to the hindgut. Another 20% of these treated larvae did not defaecate normally; wet brown faeces were adhered to the anal area. As a result, the larval growth was inhibited and about 60% larval lethality occurred. Silencing of TcEglp4 or TcDrip exhibited similar but weaker defective phenotypes as those of the TcEglp3‐silenced larvae. Therefore, Eglp3, Eglp4 and Drip may contribute to the conductance of water in the alimentary canal and Malpighian tubules in T. castaneum.
ISSN:0962-1075
1365-2583
DOI:10.1111/imb.12367