Identification and functional characterization of an ovarian aquaporin from the cockroach<i>Blattella germanica</i>L. (Dictyoptera, Blattellidae)

Herraiz, Alba; Chauvigné, François; Cerdà, Joan; Bellés, Xavier; Piulachs, María‐Dolors

doi:10.1242/jeb.057406

Cited by 29 publications

(24 citation statements)

References 55 publications

(91 reference statements)

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“…Aquaporins are indispensable water and solute channels needed to maintain homeostasis in living organisms. In insects, aquaporins relieve pressure imposed by osmotically imbalanced diets, remove excess fluids and excretions, maintain fluid homeostasis during oogenesis, stabilize membranes and enzymes for anhydrobiosis and cryoprotection, are involved in water movement in respiration, and prevent desiccation during molting and egg hatching (Campbell et al, 2008;Drake et al, 2010, Duchesne et al, 2003, Fabrick et al, 2014Goto et al, 2011Goto et al, , 2015Herraiz et al, 2011;Kikawada et al, 2008;Le Cahérec et al, 1997;Liu et al, 2011;Martini et al, 2004;Maruyama et al, 2015;Mathew et al, 2011;Nagae et al, 2013;Philip et al, 2011;Spring et al, 2009;Staniscuaski et al, 2013;Yi et al, 2011). Because of their major importance in these physiological processes, aquaporins may serve as potential targets for insect pest management, especially in phloem-feeding hemipterans where imbibition of large volumes of liquid diet is required to meet nutrient requirements (Douglas, 2006;Ibanez et al, 2014;Mathew et al, 2011;Shakesby et al, 2009;Tzin et al, 2015;Wallace et al, 2012).…”

Section: Discussionmentioning

confidence: 99%

“…In other insects, Prips have a variety of physiological functions. For example, Blattella germanica Prip is present in the adult ovary, fat body, and muscles, and plays a role in fluid homeostasis during oogenesis (Herraiz et al, 2011). The Bombyx mori Prip is found in the oocyte plasma membrane within ovaries and functions during oocyte growth (Maruyama et al, 2015).…”

Section: Discussionmentioning

confidence: 99%

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Molecular and functional characterization of Bemisia tabaci aquaporins reveals the water channel diversity of hemipteran insects

Ekert

Chauvigné

Finn

et al. 2016

Insect Biochemistry and Molecular Biology

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The Middle East-Asia Minor 1 (MEAM1) whitefly, Bemisia tabaci (Gennadius) is an economically important pest of food, fiber, and ornamental crops. This pest has evolved a number of adaptations to overcome physiological challenges, including 1) the ability to regulate osmotic stress between gut lumen and hemolymph after imbibing large quantities of a low nitrogen, sugar-rich liquid diet; 2) the ability to avoid or prevent dehydration and desiccation, particularly during egg hatching and molting; and 3) to be adapted for survival at elevated temperatures. One superfamily of proteins involved in the maintenance of fluid homeostasis in many organisms includes the aquaporins, which are integral membrane channel proteins that aid in the rapid flux of water and other small solutes across biological membranes. Here, we show that B. tabaci has eight aquaporins (BtAqps), of which seven belong to the classical aquaporin 4-related grade of channels, including Bib, Drip, Prip, and Eglps and one that belongs to the unorthodox grade of aquaporin 12-like channels. B. tabaci has further expanded its repertoire of water channels through the expression of three BtDrip2 amino-terminal splice variants, while other hemipteran species express amino- or carboxyl-terminal isoforms of Drip, Prip, and Eglps. Each BtAqp has unique transcript expression profiles, cellular localization, and/or substrate preference. Our phylogenetic and functional data reveal that hemipteran insects lost the classical glp genes, but have compensated for this by duplicating the eglp genes early in their evolution to comprise at least three separate clades of glycerol transporters.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Molecular and functional characterization of Bemisia tabaci aquaporins reveals the water channel diversity of hemipteran insects

Ekert

Chauvigné

Finn

et al. 2016

Insect Biochemistry and Molecular Biology

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“…However, only a very small fraction of insect aquaporins have been functionally characterized by sensitivity to mercuric ions, knockout (aquaporin-deficient) organisms and functional system assays (Kaufmann et al, 2005;Cohen, 2012;Tzin et al, 2015;Van Ekert et al, 2016). Insect Drips (Kaufmann et al, 2005;Raza et al, 2016;Shakesby et al, 2009;Tzin et al, 2015;Van Ekert et al, 2016), Prips (Kikawada et al, 2008;Herraiz et al, 2011;Tzin et al, 2015;Van Ekert et al, 2016) and Eglps (Van Ekert et al, 2016) have been confirmed to be involved in water permeability. Moreover, using in vivo RNA interference (RNAi; knockdown) techniques, inhibitory or modified effects have been documented in plant sap-sucking and blood-feeding insect species (Cohen, 2013;Jing et al, 2016;Van Ekert et al, 2016;Tsujimoto et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

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

Yao

Meng

2017

Insect Molecular Biology

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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.

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“…The one C. merolae homologue most closely resembles aquaporin‐1 of Bemisia tabaci (Sweet potato whitefly; TC# 1.A.8.8.15) which has specificity for water and perhaps small neutral solutes such as urea (Herraiz et al. , Mathew et al. ).…”

Section: Resultsmentioning

confidence: 99%

Comparative genomic analyses of transport proteins encoded within the red algae Chondrus crispus, Galdieria sulphuraria, and Cyanidioschyzon merolae¹¹

Lee

Ghosh

Saier

2017

Journal of Phycology

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Galdieria sulphuraria and Cyanidioschyzon merolae are thermo-acidophilic unicellular red algal cousins capable of living in volcanic environments, although the former can additionally thrive in the presence of toxic heavy metals. Bioinformatic analyses of transport systems were carried out on their genomes, as well as that of the mesophilic multicellular red alga Chondrus crispus (Irish moss). We identified transport proteins related to the metabolic capabilities, physiological properties, and environmental adaptations of these organisms. Of note is the vast array of transporters encoded in G. sulphuraria capable of importing a variety of carbon sources, particularly sugars and amino acids, while C. merolae and C. crispus have relatively few such proteins. C. crispus may prefer short chain acids to sugars and amino acids. Additionally, the number of encoded proteins pertaining to heavy metal ion transport is highest in G. sulphuraria and lowest in C. crispus. All three organisms preferentially utilize secondary carriers over primary active transporters, suggesting that their primary source of energy derives from electron flow rather than substrate-level phosphorylation. Surprisingly, the percentage of inorganic ion transporters encoded in C. merolae more closely resembles that of C. crispus than G. sulphuraria but only C. crispus appears to signal via voltage-gated cation channels and possess a Na+, K+-ATPase and a Na+-exporting pyrophosphatase. The results presented in this report further our understanding of the metabolic potential and toxic compound resistances of these three organisms.

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Identification and functional characterization of an ovarian aquaporin from the cockroachBlattella germanicaL. (Dictyoptera, Blattellidae)

Cited by 29 publications

References 55 publications

Molecular and functional characterization of Bemisia tabaci aquaporins reveals the water channel diversity of hemipteran insects

Molecular and functional characterization of Bemisia tabaci aquaporins reveals the water channel diversity of hemipteran insects

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

Comparative genomic analyses of transport proteins encoded within the red algae Chondrus crispus, Galdieria sulphuraria, and Cyanidioschyzon merolae¹¹

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Identification and functional characterization of an ovarian aquaporin from the cockroachBlattella germanicaL. (Dictyoptera, Blattellidae)

Cited by 29 publications

References 55 publications

Molecular and functional characterization of Bemisia tabaci aquaporins reveals the water channel diversity of hemipteran insects

Molecular and functional characterization of Bemisia tabaci aquaporins reveals the water channel diversity of hemipteran insects

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

Comparative genomic analyses of transport proteins encoded within the red algae Chondrus crispus, Galdieria sulphuraria, and Cyanidioschyzon merolae11

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Comparative genomic analyses of transport proteins encoded within the red algae Chondrus crispus, Galdieria sulphuraria, and Cyanidioschyzon merolae¹¹