Free access
Volume 34, Number 3, May-June 2003
Page(s) 281 - 289


  • Barchuk A.R., Bitondi M.M.G., Sim oes Z.L.P. (2002) Effects of juvenile hormone and ecdysone on the timing of vitellogenin in hemolymph of queen and worker pupae of Apis mellifera, 9p., J. Insect Sci., 2.1. (available on line: http://, verified 28 Feb. 2003).
  • Barron A.B., Schulz D.J., Robinson G.E. (2002) Octopamine modulates responsiveness to foraging-related stimuli in honey bees (Apis mellifera), J. Comp. Physiol. A 188, 603-610.
  • Bicker G., Menzel R. (1989) Chemical codes for the control of behaviour in arthropods, Nature 337, 33-39.
  • Bitondi M.M.G., Sim oes Z.L.P. (1996) The relationship between level of pollen in the diet, vitellogenin and juvenile hormone titres in Africanized Apis mellifera workers, J. Apic. Res. 35, 27-36.
  • Blenau W., Baumann A. (2001) Molecular and pharmacological properties of insect biogenic amine receptors: lessons from Drosophila melanogaster and Apis mellifera, Arch. Insect Biochem. Physiol. 48, 13-38.
  • Blenau W., Rever J., Baumann A. (1998) Characterization of a dopamine D1 receptor from Apis mellifera: cloning, functional expression, pharmacology, and mRNA localization in the brain, J. Neurochem. 70, 15-23.
  • Bloch G., Simon T., Robinson G.E., Hefetz A. (2000) Brain biogenic amines and reproductive dominance in bumble bees (Bombus terrestris), J. Comp. Physiol. A 186, 261-268.
  • Bozic J., Woodring J. (1998) Variations in brain biogenic amines in mature honeybees and induction of recruitment behavior, Comp. Biochem. Physiol. A 120, 737-744.
  • Butler C.G., Callow R.K., Johnston N.C. (1961) The isolation and synthesis of queen substance, 9- oxodec-trans-2-enoic acid, a honeybee pherom- one, Proc. R. Entomol. Soc. 155, 417-432.
  • Degen J., Gewecke M., Roeder T. (2000) The pharmacology of a dopamine receptor in the locust nervous tissue, Eur. J. Pharmacol. 396, 59- 65.
  • Erber J., Kloppenburg P., Scheidler A. (1993) Neuromodulation by serotonin and octopamine in the honeybee: behaviour, neuroanatomy and electrophysiology, Experientia 49, 1073-1083.
  • Granger N.A., Ebersohl R., Sparks T.C. (2000) Pharmacological characterization of dopamine receptors in the corpus allatum of Manduca sexta larvae, Insect Biochem. Mol. Biol. 30, 755-766.
  • Harris J.W., Woodring J. (1995) Elevated brain dopamine levels associated with ovary development in queenless worker honey bees (Apis mellifera), Comp. Biochem. Physiol. 111 C, 271-279.
  • Hartfelder K., Engels W. (1998) Social insect polymorphism: hormonal regulation of plasticity in development and reproduction in the honeybee, Curr. Top. Dev. Biol. 40, 45-77.
  • Kaatz H., Eichmüller S., Kreissl S. (1994) Stimulatory effect of octopamine on juvenile hormone bio-synthesis in honey bees (Apis mellifera): physiological and immunocytochemical evidence, J. Insect Physiol. 40, 865-872.
  • Kirchhof B.S., Mercer A.R. (1997) Antennal lobe neurons of the honey bee, Apis mellifera, express a D2-like dopamine receptor in vitro, J. Comp. Neurol. 383, 189-198.
  • Kokay I.C., Mercer A.R. (1996) Characterization of dopamine receptors in insect (Apis mellifera) brain, Brain Res. 706, 47-56.
  • Kropáková S., Haslbachová H. (1971) The influence of queenlessness and of unsealed brood on the development of ovaries in worker honeybees, J. Apic. Res. 10, 57-61.
  • Le Conte Y., Arnold G., Trouiller J., Masson C., Chappe B. (1990) Identification of a brood pheromone in honeybees, Naturwissenschaften 77, 334-336.
  • Makert dos Santos G.R., Hartfelder K. (2001) Patrilíneas em colmeias Apis mellifera possuem capacidade reprodutiva diferenciada em condiç oes de orfandade, 47$^\circ$ Congresso Nacional de Genética (SBG), Águas de Lindoia Gen. Mol. Biol. 76.
  • Menzel R., Müller U. (1996) Learning and memory in honeybees: from behavior to neural substrates, Annu. Rev. Neurosci. 19, 379-404.
  • Neckameyer W.S. (1996) Multiple roles for dopamine in Drosophila development, Dev. Biol. 176, 209- 219.
  • Osborne R.H. (1996) Insect neurotransmission: neurotransmitters and their receptors, Pharmacol. Ther. 69, 117-142.
  • Page R.E. Jr., Erickson R.E. Jr. (1988) Reproduction by worker honey bees (Apis mellifera), Behav. Ecol. Sociobiol. 23, 117-126.
  • Park J.H., Keeley L.L. (1998) The effect of biogenic amines and their analogs on carbohydrate metabolism in the fat body of the cockroach Blaberus discoidalis, Gen. Comp. Endocrinol. 110, 88-95.
  • Pastor D., Piulachs M.-D., Cassier P., André M., Bellés X. (1991) Étude in vivo et in vitro de l'action de la dopamine sur la croissance des ovocytes et la production d'hormone juvénile chez Blattella germanica (L.) (Dictyoptera ; Blattellidae), C.R. Acad. Sci. Paris 313, 207-212.
  • Pinto L.Z., Bitondi M.M.G., Sim oes Z.L.P. (2000) Inhibition of vitellogenin synthesis in Apis mellifera workers by a juvenile hormone analogue, pyriproxyfen, J. Insect Physiol. 46, 153-160.
  • Rachinsky A. (1994) Octopamine and serotonin influence on corpora allata activity in honey bee (Apis mellifera) larvae, J. Insect Physiol. 40, 549- 554.
  • Robinson G.E., Page R.E. Jr., Fondrk M.K. (1990) Intracolonial behavioral variation in worker oviposition, oophagy, and larval care in queenless honey bee colonies, Behav. Ecol. Sociobiol. 26, 315-323.
  • Robinson G.E., Heuser L.M., Le Conte Y., Lenquette F., Hollingworth R.M. (1999) Neurochemicals aid bee nestmate recognition, Nature 399, 534- 535.
  • Roeder T. (1994) Biogenic amines and their receptors in insects, Comp. Biochem. Physiol. 107 C, 1-12.
  • Sasaki K., Nagao T. (2001) Distribution and levels of dopamine and its metabolites in brains of reproductive workers in honeybees, J. Insect Physiol. 47, 1205-1216.
  • Schulz D.J., Robinson G.E. (1999) Biogenic amines and division of labor in honey bee colonies: behaviorally related changes in the antennal lobes and age-related changes in the mushroom bodies, J. Comp. Physiol. 184, 481-488.
  • Schulz D.J., Robinson G.E. (2001) Octopamine influences division of labor in honey bee colonies, J. Comp. Physiol. A 187, 53-61.
  • Slessor K.N., Kaminski L.A., King G.G.S., Borden J.H., Winston M.L. (1988) Semiochemical basis for the retinue response to queen honey bees, Nature 332, 354-356.
  • Slessor K.N., Kaminski L.-A., King G.G.S., Winston M.L. (1990) Semiochemicals of the honeybee queen mandibular glands, J. Chem. Ecol. 16, 851-860.
  • Taylor D.J., Robinson G.E., Logan B.J., Alberti R., Mercer A.R. (1992) Changes in brain amine levels associated with the morphological and behavioral development of the worker honeybee, J. Comp. Physiol. A 170, 715-721.
  • Velthuis H.H.W., Ruttner F., Crewe R.M. (1990) Differentiation in reproductive physiology and behavior during the development of laying worker honey bees, in: Engels W. (Ed.), Social Insects: an evolutionary approach to castes and reproduction, Heidelberg, Springer, pp. 231-243.
  • Wagener-Hulme C., Kuehn J.C., Schulz D.J., Robinson G.E. (1999) Biogenic amines and division of labor in honey bee colonies, J. Comp. Physiol. A 184, 471-479.
  • Winston M.L., Slessor K.N., Willis L.G., Naumann K., Higo H.A., Wyborn M.H., Kaminski L.A. (1989) The influence of queen mandibular pheromones on worker attraction to swarm clusters and inhibition of queen rearing in the honey bee, Insectes Soc. 36, 15-27.
  • Winston M.L., Higo A.H., Slessor K.N. (1990) Effect of various dosages of queen mandibular gland pheromone on the inhibition of queen rearing in the honey bee (Hymenoptera:Apidae), Ann. Entomol. Soc. Am. 83, 234-238.


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