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(3)   FOX, C.A.; ANDRADE, A.N.; HILLMAN, D.E. AND SCHWYN, R.C. (1971) The spiny
(4)   neurons in the primate striatum: a Golgi and electron microscopic study. J.
(5)   Hirnforsch. 13: 181-201.
(6)   DIFIGLIA, M.; PASIK, P. AND PASIK, T. (1976) A Golgi study of neuronal types in
(7)   the neostriatum of monkeys. Brain Res. 114: 245-256.
(8)   YELNIK, J.; FRANCOIS, C.; PERCHERON, G. AND TANDE, D. (1991) Morphological
      taxonomy of the neurons of the primate striatum. J. Comp. Neurol. 313: 273-
(9)   294.
      ROBERTS, R.C.; GAITHER, L.A.; PERETTI, F.J.; LAPIDUS, B. AND CHUTE, D.J. (1996)
(10)  Synaptic organization of the human striatum: a postmortem ultrastructural
(11)  study. J. Comp. Neurol. 374: 523-534.
(12)  GRAVELAND, G.A. AND DIFIGLIA, M. (1985) The frequency and distribution of
(13)  medium-sized neurons with indented nuclei in the primate and rodent neos-
(14)  triatum. Brain Res. 327: 307-311.
(15)  KOWALL, N.W.; FERRANTE, R.J.; BEAL, M.F.; RICHARDSON, E.P. JR.; SOFRONIEW,
(16)  M.V. ET AL. (1987) Neuropeptide Y, somatostatin, and reduced nicotinamide
      adenine dinucleotide phosphate diaphorase in the human striatum: a combi-
(17)  ned immunocytochemical and enzyme histochemical study. Neuroscience.
      20: 817-828.
      BERNÁCER, J.; PRENSA, L. AND GIMÉNEZ-AMAYA, J.M. (2005) Morphological featu-
      res, distribution and compartmental organization of the nicotinamide adeni-
      ne dinucleotide phosphate reduced-diaphorase interneurons in the human
      striatum. J. Comp. Neurol. 489: 311-327.
      DIFIGLIA, M. (1987) Synaptic organization of cholinergic neurons in the
      monkey neostriatum. J. Comp. Neurol. 255: 245-258.
      PRENSA, L.; GIMÉNEZ-AMAYA, J.M. AND PARENT, A. (1998) Morphological features
      of neurons containing calcium-binding proteins in the human striatum. J.
      Comp. Neurol. 390: 552-563.
      CICCHETTI, F.; BEACH, T.G. AND PARENT, A. (1998) Chemical phenotype of cal-
      retinin interneurons in the human striatum. Synapse. 30: 284-297.
      COWAN, R.L.; WILSON, C.J.; EMSON, P.C. AND HEIZMANN, C.W. (1990) Parvalbu-
      min-containing GABAergic interneurons in the rat neostriatum. J. Comp.
      Neurol. 302: 197-205.
      COSSETTE, M.; LÉVESQUE, D. AND PARENT, A. (2005) Neurochemical characteri-
      zation of dopaminergic neurons in human striatum. Parkinsonism Relat.
      Disord. 11: 277-286.
      TANDE, D.; HOGLINGER, G.; DEBEIR, T.; FREUNDLIEB, N.; HIRSCH, E.C. ET AL. (2006)
      New striatal dopamine neurons in MPTP-treated macaques result from a
      phenotypic shift and not neurogenesis. Brain. 129: 1194-1200.
      MAZLOOM, M. AND SMITH, Y. (2006) Synaptic microcircuitry of tyrosine
      hydroxylase-containing neurons and terminals in the striatum of 1-methyl-4-
      phenyl-1,2,3,6-tetrahydropyridine-treated monkeys. J. Comp. Neurol. 495: 453-
      469.
      BETARBET, R.; TURNER, R.; CHOCKKAN, V.; DELONG, M.R.; ALLERS, K.A. ET AL.
      (1997) Dopaminergic neurons intrinsic to the primate striatum. J. Neurosci.
      17: 6761-6768.

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