SEARCH

SEARCH BY CITATION

References

  • Adams, M.D., Celniker, S.E., Holt, R.A., Evans, C.A., Gocayne, J.D., Amanatides, P.G. et al . (2000) The genome sequence of Drosophila melanogaster. Science 287: 21852195.
  • Alken, M., Rutz, C., Köchl, R., Donalies, U., Oueslati, M., Furkert, J. et al . (2005) The signal peptide of the rat corticotropin-releasing factor receptor 1 promotes receptor expression but is not essential for establishing a functional receptor. Biochem J 390: 455464.
  • Appert-Collin, A., Balsamy, L. and Diviani, D. (2006) Regulation of G protein-coupled receptor signaling by A-kinase anchoring proteins. J Receptors Signal Transduction 26: 631646.
  • Audsley, N., Goldsworthy, G.J. and Coast, G.M. (1997a) Circulating levels of Locusta diuretic hormone: the effects of feeding. Peptides 18: 5965.
  • Audsley, N., Goldsworthy, G.J. and Coast, G.M. (1997b) Quantification of Locusta diuretic hormone in the central nervous system and corpora cardiaca: influence of age and feeding status, and mechanism of release. Regul Pept 69: 2532.
  • Bendtsen, J.D., Nielsen, H., Von Heijne, G. and Brunak, S. (2004) Improved prediction of signal peptides: SignalP 3.0. J Mol Biol 340: 783795.
  • Beyenbach, K.W. (2003) Transport mechanisms of diuresis in Malpighian tubules of insects. J Exp Biol 206: 38453856.
  • Beyenbach, K.W., Oviendo, A. and Aneshansley, D.J. (1993) Malpighian tubules of Aedes aegypti: five tubules, one function. J Insect Physiol 39: 639648.
  • Bockaert, J., Fagni, L., Dumuis, A. and Marin, P. (2004) GPCR interacting proteins (GIP). Pharmacol & Ther 103: 203221.
  • Briegel, H. (1980) Determination of uric acid and hematin in a single sample of excreta from blood-fed insects. Experientia 36: 1428.
  • Briegel, H. (1990) Metabolic relationship between female body size, reserves and fecundity of Aedes aegypti. J Insect Physiol 36: 165172.
  • Briegel, H. and Lea, A.O. (1975) Relationship between protein and proteolytic activity in the midgut of mosquitoes. J Insect Physiol 21: 15971604.
  • Brody, T. and Cravchik, A. (2000) Drosophila melanogaster G protein-coupled receptors. J Cell Biol 150: F83F88.
  • Cabrero, P., Radford, J.C., Broderick, K.E., Costes, L., Veenstra, J.A., Spana, E.P. et al . (2002) The Dh gene of Drosophila melanogaster encodes a diuretic peptide that acts through cyclic AMP. J Exp Biol 205: 37993807.
  • Cabrero, P., Pollock, V.P., Davies, S.A. and Dow, J.A.T. (2004) A conserved domain of alkaline phosphatase expression in the Malpighian tubules of dipteran insects. J Exp Biol 207: 32993305.
  • Chintapalli, V.R., Wang, J. and Dow, J.A. (2007) Using FlyAtlas to identify better Drosophila melanogaster models of human disease. Nat Genetics 39: 715720.
  • Clark, T.M. and Bradley, T.J. (1998) Additive effects of 5-HT and diuretic peptide on Aedes Malpighian tubule fluid secretion. Comp Biochem Physiol 119A: 599605.
  • Coast, G.M. (2001a) Diuresis in the housefly (Musca domestica) and its control by neuropeptides. Peptides 22: 153160.
  • Coast, G.M. (2001b) Use of a flow through humidity analyser to measure diuresis in intact insects. In Arthropods: Chemical, Physiological and Environmental Aspects (Konopinska, D., ed.), pp. 2226. Wydawnictwo Universytetu Wroclawskiego, Wroclaw.
  • Coast, G. (2007) The endocrine control of salt balance in insects. Gen Comp Endocrinol 152: 332338.
  • Coast, G.M., Webster, S.G., Schegg, K.M., Tobe, S.S. and Schooley, D.A. (2001) The Drosophila melanogaster homologue of an insect calcitonin-like diuretic peptide stimulates V-ATPase activity in the fruit fly Malpighian tubules. J Exp Biol 204: 17951804.
  • Coast, G.M., Zabrocki, J. and Nachman, R.J. (2002) Diuretic and myotropic activities of N-terminal truncated analogs of Musca domestica kinin neuropeptide. Peptides 23: 701708.
  • Coast, G.M., Garside, C.S., Webster, S.G., Schegg, K.M. and Schooley, D.A. (2005) Mosquito natriuretic peptide identified as a calcitonin-like diuretic hormone in Anopheles gambiae (Giles). J Exp Biol 208: 32813291.
  • Cole, S.J. and Gillett, J.D. (1979) The influence of the brain hormone on retention of blood in the mid-gut of the mosquito Aedes aegypti (L.). Proc R Soc Lond B 205: 411422.
  • Colless, D.H. and Chellapah, W.T. (1960) Effects of body weight and size of blood-meal upon egg production in Aedes aegypti (Linnaeus) (Diptera, Culicidae). Ann Trop Med Parasitol 54: 475482.
  • Couvineau, A., Lacapère, J.-J., Tan, Y.-V., Rouyer-Fessard, C., Nicole, P. and Laburthe, M. (2003) Identification of cytoplasmic domains of hVPAC1 receptor required for activation of adenylyl cyclase. J Biol Chem 278: 2475924766.
  • Davies, S.A., Huesmann, G.R., Maddrell, S.H.P., Odonnell, M.J., Skaer, N.J.V., Dow, J.A.T. et al . (1995) Cap(2b), a cardioacceleratory peptide, is present in Drosophila and stimulates tubule fluid secretion via cGMP. Am J Physiol Regul Integr Comp Physiol 38: R1321R1326.
  • Donini, A., Patrick, M., Bijelic, G., Christensen, R.J., Ianowski, J.P., Rheault, M.R. et al . (2006) Secretion of water and ions by Malpighian tubules of larval mosquitoes: effects of diuretic factors, second messengers and salinity. Physiol Biochem Zool 79: 645655.
  • Dow, J.A.T. and Davies, S.A. (2001) The Drosophila melanogaster Malpighian tubule. Adv Insect Physiol 28: 183.
  • Dow, J.A.T. and Davies, S.A. (2003) Integrative physiology and functional genomics of epithelial function in a genetic model organism. Physiol Rev 83: 687729.
  • Von Dungern, P. and Briegel, H. (2001a) Enzymatic analysis of uricotelic protein catabolism in the mosquito Aedes aegypti. J Insect Physiol 47: 7382.
  • Von Dungern, P. and Briegel, H. (2001b) Protein catabolism in mosquitoes: ureotely and uricotely in larval and imaginal Aedes aegypti. J Insect Physiol 47: 131141.
  • Feitosa, F.M., Calvo, E., Merino, E.F., Durham, A.M., James, A.A., De Bianchi, A.G. et al . (2006) A transcriptome analysis of the Aedes aegypti vitellogenic fat body. J Insect Sci 6: 26.
  • Finn, R.D., Mistry, J., Schuster-Böckler, B., Griffiths-Jones, S., Hollich, V., Lassmann, T. et al . (2006) Pfam: clans, web tools and services. Nucleic Acids Res 34, Database issue: D247D251.
  • Fredriksson, R. and Schiöth, H.B. (2005) The repertoire of G-protein-coupled receptors in fully sequenced genomes. Mol Pharmacol 67: 14141425.
  • Gäde, G. (2004) Regulation of intermediary metabolism and water balance by insect neuropeptides. Annu Rev Entomol 2004: 93113.
  • Gillett, J.D. (1982) Diuresis in newly emerged, unfed mosquitoes. I. Fluid loss in normal females and males during the first 20 hours of adult life. Proc R Soc Lond B Biol Sci 216: 201207.
  • Gillett, J.D. (1983) Diuresis in the newly emerged, unfed mosquitoes. II. The basic pattern in relation to escape from the water, preparation for mature flight, mating and the first blood meal. Proc R Soc Lond B Biol Sci 217: 237242.
  • Ha, S.-D., Kataoka, H., Suzuki, A., Kim, B.-J., Kim, H.-J., Hwang, S.-H. et al . (2000) Cloning and sequence analysis of cDNA for diuretic hormone receptor from the Bombyx mori. Mol Cells 10: 1317.
  • Harmar, A.J. (2001) Family-B G-protein-coupled receptors. Genome Biol 2: 3013.1–3013.10.
  • Hauger, R.L., Olivares-Reyes, J.A., Braun, S., Catt, K.J. and Dautzenberg, F.M. (2003) Mediation of corticotropin releasing factor type I receptor phosphorylation and desensitization by protein kinase C: a possible role in stress adaptation. J Pharmacol Exp Ther 306: 794803.
  • Hauser, F., Cazzamali, G., Williamson, M., Blenau, W. and Grimmelikhuijzen, C. (2006) A review of neurohormone GPCRs present in the fruitfly Drosophila melanogaster and the honey bee Apis mellifera. Progr Neurobiol 80: 119.
  • Hauser, F., Cazzamali, G., Williamson, M., Park, Y., Li, B., Tanaka, Y. et al . (2008) A genome-wide inventory of neurohormone GPCRs in the red flour beetle Tribolium castaneum. Front Neuroendocrinol 29: 142165.
  • Hayes, T.K., Pannabecker, T.L., Hinckley, D.J., Holman, G.M., Nachman, R.J., Petzel, D.H. et al . (1989) Leucokinins, a new family of ion transport stimulators and inhibitors in insect Malpighian tubules. Life Sci 44: 12591266.
  • Hewes, R.S. and Taghert, P.H. (2001) Neuropeptides and neuropeptide receptors in the Drosophila melanogaster genome. Genome Res 11: 11261142.
  • Hill, C.A., Fox, A.N., Pitts, R.J., Kent, L.B., Tan, P.L., Chrystal, M.A. et al . (2002) G-protein coupled receptors in Anopheles gambiae. Science 298: 176178.
  • Hoare, S.R.J. (2005) Mechanisms of peptide and nonpeptide ligand binding to Class B G-protein-coupled receptors. Drug Discov Today 10: 417427.
  • Hofmann, B.A., Sydow, S., Jahn, O., Van Werven, L., Liepold, T., Eckart, K. et al . (2001) Functional and protein chemical characterization of the N-terminal domain of the rat corticotropin-releasing factor receptor 1. Protein Sci 10: 20502052.
  • Holmes, S.P., He, H., Chen, A.C., Ivie, G.W. and Pietrantonio, P.V. (2000) Cloning and transcriptional expression of a leucokinin-like peptide receptor from the southern cattle tick, Boophilus microplus (Acari: Ixodidae). Insect Molec Biol 9: 457465.
  • Holt, R.A., Subramanian, G.M., Halpern, A., Sutton, G.G. and et al . (2002) The genome sequence of the malaria mosquito Anopheles gambiae. Science 298: 129149.
  • Huang, Z.C.Y., Pratt, S., Chen, T.-H., Bambino, T., Nissenson, R.A. and Shoback, D.M. (1996) The N-terminal region of the third intracellular loop of the parathyroid hormone (PTH)/PTH-related peptide receptor is critical for coupling to cAMP and inositol phosphate/Ca2+ signal transduction pathways. J Biol Chem 271: 3338233389.
  • Jackson, R.R., Nelson, X.J. and Sune, G.O. (2005) A spider that feeds indirectly on vertebrate blood by choosing female mosquitoes as prey. Proc Natl Acad Sci USA 102: 1515515160.
  • Johnson, E.C., Bohn, L.M. and Taghert, P.H. (2004) Drosophila CG8422 encodes a functional diuretic hormone receptor. J Exp Biol 207: 743748.
  • Johnson, E.C., Shafer, O.T., Trigg, J.S., Park, J., Schooley, D.A., Dow, J.A.T. et al . (2005) A novel diuretic hormone receptor in Drosophila: evidence for conservation of CGRP signaling. J Exp Biol 208: 12391246.
  • Kim, Y.J., Zitnan, D., Galizia, C.G., Cho, K.H. and Adams, M.E. (2006a) A command chemical triggers and innate behavior by sequential activation of multiple peptidergic ensembles. Curr Biol 16: 13951407.
  • Kim, Y.-J., Žitnan, D., Cho, K.-H., Schooley, D.A., Mizoguchi, A. and Adams, M.E. (2006b) Central peptidergic ensembles associated with organization of an innate behavior. Proc Natl Acad Sci USA 103: 1421114216.
  • Lange, A.B., Orchard, I. and Barrett, F.M. (1989) Changes in haemolymph serotonin levels associated with feeding in the blood sucking bug, Rhodnius prolixus. J Insect Physiol 35: 393399.
  • Lee, D.-W. and Pietrantonio, P.V. (2003) In vitro expression and pharmacology of the 5HT7-like receptor present in the mosquito Aedes aegypti tracheolar cells and hindgut associated nerves. Insect Mol Biol 12: 561569.
  • Lovejoy, D.A. and Jahan, S. (2006) Phylogeny of the corticotropin-releasing factor family of peptides in the Metazoa. Gen Comp Endocrinol 146: 18.
  • Maudsley, S., Martin, B. and Luttrell, L.M. (2005) The origins of diversity and specificity in G protein-coupled receptor signaling. J Pharmacol Exp Ther 314: 485494.
  • Nelson, X.J. and Jackson, R.R. (2006) A predator from East Africa that chooses malaria vectors as preferred prey. PLOS One 1: e132-doi:10.1371/journal.pone.0000132.
  • Nene, V., Wortman, J.R., Lawson, D., Haas, B. and et al . (2007) Genome sequence of Aedes aegypti, a major arbovirus vector. Science 316: 17181723.
  • Nijhout, H.F. and Carrow, G.M. (1978) Diuresis after a bloodmeal in female Anopheles freeborni. J Insect Physiol 24: 293298.
  • O'Donnell, M.J. and Spring, J.H. (2000) Modes of control of insect Malpighian tubules: synergism, antagonism, cooperation and autonomous regulation. J Insect Physiol 46: 107117.
  • O'Donnell, M.J., Ianowski, J.P., Linton, S.M. and Rheault, M.R. (2003) Inorganic and organic anion transport by insect renal epithelia. Biochim Biophys Acta 1618: 194206.
  • Oakley, R.H., Olivares-Reyes, J., Hudson, C.C., Flores-Vega, F., Dautzenberg, F.M. and Hauger, R.L. (2007) Carboxyl-terminal and intracellular loop sites for CRF1 receptor phosphorylation and β-arrestin-2 recruitment: a mechanism regulating stress and anxiety responses. Am J Physiol Regul Integr Comp Physiol 293: R209R222.
  • Pannabecker, T.L. (1995) Physiology of the Malpighian tubule. Annu Rev Entomol 40: 493510.
  • Perrin, M.H., Fischer, W.H., Kunitake, K.S., Craig, A.G., Koerber, S.C., Cervini, L.A. et al . (2001) Expression, purification, and characterization of a soluble form of the first extracellular domain of the human type 1 corticotropin releasing factor receptor. J Biol Chem 276: 3152831534.
  • Petzel, D., Hagedorn, H. and Beyenbach, K.W. (1985) Preliminary isolation of mosquito natriuretic factor. Am J Physiol 249: R379R386.
  • Pietrantonio, P.V., Jagge, C., Keeley, L.L. and Ross, L.S. (2000) Cloning of an aquaporin-like cDNA and in situ hybridization in adults of the mosquito Aedes aegypti (Diptera: Culicidae). Insect Mol Biol 9: 407418.
  • Pietrantonio, P.V., Jagge, C. and McDowell, C. (2001) Cloning and expression analysis of a 5HT7-like serotonin receptor cDNA from mosquito Aedes aegypti female excretory and respiratory systems. Insect Mol Biol 10: 357369.
  • Pietrantonio, P.V., Jagge, C., Taneja-Bageshwar, S., Nachman, R. and Barhoumi, R. (2005) The mosquito Aedes aegypti (L.) leucokinin receptor is a multiligand receptor for the three Aedes kinins. Insect Mol Biol 14: 5567.
  • Predel, R. and Wegener, C. (2006) Biology of the CAPA peptides in insects. Cell Mol Life Sci 63: 24772490.
  • Price, D.R.G., Du, J., Dinsmore, A. and Gatehouse, J.A. (2004) Molecular cloning and immunolocalization of a diuretic hormone receptor in rice brown planthopper (Nilaparvata lugens). Insect Mol Biol 13: 469480.
  • Radford, J.C., Davies, S.A. and Dow, J.A.T. (2002) Systematic G-protein-coupled receptor analysis in Drosophila melanogaster identifies a leucokinin receptor with novel roles. J Biol Chem 277: 3881038817.
  • Radford, J.C., Terhzaz, S., Cabrero, P., Davies, S.A. and Dow, J.A.T. (2004) Functional characterisation of the Anopheles leucokinins and their cognate G-protein coupled receptor. J Exp Biol 207: 45734586.
  • Reagan, J.D. (1994) Expression cloning of an insect diuretic hormone receptor. J Biol Chem 269: 912.
  • Reagan, J.D. (1996) Insect cloning and function expression of a diuretic hormone receptor from the house cricket, Acheta domesticus. Insect Biochem Molec Biol 26: 16.
  • Reiter, E. and Lefkowitz, R.J. (2006) GRKs and β-arrestins: roles in receptor silencing, trafficking and signaling. TRENDS Endocrinol Metab 17: 159175.
  • Rheault, M.R. and O'Donnell, M.J. (2004) Organic cation transport by Malpighian tubules of Drosophila melanogaster: application of two novel electrophysiological methods. J Exp Biol 207: 21732184.
  • Riehle, M.A. and Brown, M.R. (2002) Insulin receptor expression during development and a reproductive cycle in the ovary of the mosquito Aedes aegypti. Cell Tissue Res 308: 409420.
  • Sanders, H.R., Evans, A.M., Ross, L.S. and Gill, S.S. (2003) Blood meal induces global changes in midgut gene expression in the disease vector, Aedes aegypti. Insect Biochem Molec Biol 33: 11051122.
  • Schooley D.A., Horodyski F.M. and Coast G.M. (2005) Hormones controlling homeostasis in insects. In Comprehensive Molecular Insect Science (Gilbert, L.I., Iatrou, K. and Gill, S.S., eds), pp. 493550. Elsevier, Amsterdam.
  • Shapiro, J.P. and Hagedorn, H.H. (1982) Juvenile hormone and the development of the ovarian responsiveness in the mosquito, Aedes aegypti. Gen Comp Endocrinol 46: 176183.
  • Skaer, H. (1989) Cell division in Malpighian tubule development in D. melanogaster is regulated by a single tip cell. Nature 342: 566569.
  • Stobbart, R.H. (1977) The control of the diuresis following a blood meal in females of the yellow fever mosquito Aedes aegypti (L.). J Exp Biol 69: 5385.
  • Swofford D.L. (2002) PAUP*. Phylogenetic analysis using parsimony (*and other methods). Sinauer Associates, Sunderland, MA.
  • Telang, A., Li, Y., Noriega, F.G. and Brown, M.R. (2006) Effects of larval nutrition on the endocrinology of mosquito egg development. J Exp Biol 209: 645655.
  • Teli, T., Markovic, D., Levine, M.A., Hillhouse, E.W. and Grammatopoulos, D.K. (2005) Regulation of corticotropin-releasing hormone receptor type Iα signaling: structural determinants for G protein-coupled receptor kinase-mediated phosphorylation and agonist-mediated desensitization. Mol Endocrinol 19: 474490.
  • Terhzaz, S., O’Connell, F.C., Pollock, V.P., Kean, L., Davies, S.A., Veenstra, J.A. et al . (1999) Isolation and characterization of a leucokinin-like peptide of Drosophila melanogaster. J Exp Biol 202: 36673676.
  • Van Handel, E. and Klowden, M.J. (1996) Defecation by the mosquito, Aedes aegypti, is controlled by the terminal abdominal ganglion. J Insect Physiol 42: 139142.
  • Veenstra, J.A., Pattillo, J.M. and Petzel, D.H. (1997) A single cDNA encodes all three Aedes leucokinins, which stimulate both fluid secretion by the Malpighian tubules and hindgut contractions. J Biol Chem 272: 1040210407.
  • Wang, J., Kean, L., Yang, J., Allan, A.K., Davies, S.A., Herzyk, P. et al . (2004) Function-informed transcriptome analysis of Drosophila renal tubule. Genome Biol 5: R69: R69.1–R69.21.
  • Weinstock, G.M., Robinson, G.E., Gibbs, R.A., and et al . The honeybee genome sequencing consortium (2006) Insights into social insects from the genome of the honeybee Apis mellifera. Nature 443: 931949.
  • Wietfeld, D., Heinrich, N., Furkert, J., Fechner, K., Beyermann, M., Bienert, M. et al . (2004) Regulation of the coupling to different G proteins of rat corticotropin-releasing factor receptor type 1 in human embryonic kidney 293 cells. J Biol Chem 279: 3838638394.
  • Williams, J.C., Hagedorn, H.H. and Beyenbach, K.W. (1983) Dynamic changes in flow rate and composition of urine during the post-bloodmeal diuresis in Aedes aegypti. J Comp Physiol 153: 257265.
  • Yu, M.-J. and Beyenbach, K.W. (2002) Leucokinin activates Ca2+-dependent signal pathway in principal cells of Aedes aegypti Malpighian tubules. Am J Physiol Renal Physiol 283: F499F508.
  • Yu, M.-J. and Beyenbach, K.W. (2004) Effects of leucokinin-VIII on Aedes Malpighian tubule segments lacking stellate cells. J Exp Biol 207: 519526.
  • Zhu, J., Chen, L. and Raikhel, A.S. (2003) Post-transcriptional control of the competence factor ΒFTZ-F1 by juvenile hormone in the mosquito Aedes aegypti. Proc Natl Acad Sci USA 100: 1333813343.