Publications: G.A. Lnenicka

  • He, T. and Lnenicka G.A. (2011) Ca2+ buffering at a Drosophila larval synaptic terminal. Synapse 65:687-693.
  • Desai S.A. and Lnenicka G.A. (2011) Characterization of postsynaptic Ca2+ signals at the Drosophila larval NMJ. J. Neurophysiol. 106(2):710-721.
  • Tsurudome K, Tsang K, Liao EH, Ball R, Penney J, Yang JS, Elazzouzi F, He T, Chishti A, Lnenicka G, Lai EC, Haghighi AP. (2010) The Drosophila miR-310 cluster negatively regulates synaptic strength at the neuromuscular junction. Neuron. 68(5):879-93.
  • He T, Hirsch HV, Ruden DM, Lnenicka GA (2009) Chronic lead exposure alters presynaptic calcium regulation and synaptic facilitation in Drosophila larvae. Neurotoxicology. 30:777-84.
  • Levin ED, Aschner M, Heberlein U, Ruden D, Welsh-Bohmer KA, Bartlett S, Berger K, Chen L, Corl AB, Eddins D, French R, Hayden KM, Helmcke K, Hirsch HV, Linney E, Lnenicka G, Page GP, Possidente D, Possidente B, Kirshner A (2009) Genetic aspects of behavioral neurotoxicology. Neurotoxicology. 30(5):741-53.
  • Hirsch HV, Possidente D, Averill S, Despain TP, Buytkins J, Thomas V, Goebel WP, Shipp-Hilts A, Wilson D, Hollocher K, Possidente B, Lnenicka G, Ruden DM. ( 2009) Variations at a quantitative trait locus (QTL) affect development of behavior in lead-exposed Drosophila melanogaster. Neurotoxicology. 30(2):305-11.
  • He T., Singh V., Rumpal N. and Lnenicka, G.A. (2009) Differences in Ca2+ regulation for high-output Is and low-output Ib motor terminals in Drosophila larvae. Neuroscience 159: 1283-91.
  • Feng X. Castracane, J. Tokranova, N. Gracias, A. Lnenicka, G. and Szaro, B.G. (2007) A living cell-based biosensor utilizing G-protein coupled receptors: Principles and detection methods. Biosensors and Bioelectronics 22:3230-3237.
  • Harrisingh M.C., Ying W., Lnenicka G.A., and Nitabach M.N. (2007) Intracellular Ca2+ regulates free-running circadian clock oscillation in vivo. J. Neuroscience 27:12489-12499.
  • Lnenicka, G.A., Theriault, K., and Monroe, R. (2006) Sexual differentiation of identified motor terminals in Drosophila larvae. J Neurobiol., 66(5):488-498.
  • Lnenicka G.A., Grizzaffi J., Lee B. and Rumpal N. (2006) Ca2+ dynamics along identified synaptic terminals in Drosophila larvae. J. Neurosci. 26:12283-12293.
  • Lnenicka, G.A., Spencer, G.M. and Keshishian, H. (2003) Effect of reduced impulse activity on the development of identified motor terminals in Drosophila larvae. J. Neurobiol. 54(2):337-345.
  • Morley, E.J., Hirsch, H., Hollocher, K. and Lnenicka G.A. (2003) Effects of chronic lead exposure on the neuromuscular junction in Drosophila larvae. Neurotoxicology 24(1):35-41.
  • Rumpal, N. and Lnenicka, G.A. (2003) Mechanisms of calcium clearance from growth cones generated by crayfish phasic and tonic motor axons. J. Neurophysiol. 89:3225-3234.
  • Pearce, J., Lnenicka, G.A. and Govind C.K. (2003) Regenerating crayfish motor axons assimilate glial cells and sprout in cultured explants. J. Comp. Neurol. 464: 449-462.
  • Fengler, B.T. and Lnenicka, G.A. (2002) Activity-dependent plasticity of calcium clearance from crayfish motor axons. J. Neurophysiol. 87(3): 1625-1628.
  • Lnenicka, G.A. and Morley, E.J. (2001) Activity-dependent development and plasticity of crustacean motor terminals. In “The Crustacean Nervous System.” Konrad Wiese (Ed.) Springer Verlag, Berlin Heidelberg New York.
  • Lnenicka, GA and Keshishian, H (2000) Identified motor terminals in Drosophila Larvae show distinct differences in morphology and physiology. J. Neurobiology 43:186-197.