Free The Cerebellum: Brain for an Implicit Self by Masao Ito Page B

for brainstem structures participating in oculomotor integration. Science 288:857–859.
     
Nakazawa K, Karachot L, Nakabeppu Y, Yamamori T (1993) The conjunctive stimuli that cause long-term desensitization also predominantly induce c-Fos and Jun-B in cerebellar Purkinje cells. NeuroReport 4:1275–1278.
     
Napier JR, Napier PH (1967) A handbook of living primates. New York: Academic Press.
     
Napper RM, Harvey RJ (1988a) Quantitative study of the Purkinje cell dendritic spines in the rat cerebellum. J Comp Neurol 274:158–167.
     
Napper RM, Harvey RJ (1988b) Number of parallel fiber synapses on an individual Purkinje cell in the cerebellum of the rat. J Comp Neurol 274:168–177.
     
Narasimhan K, Pessah IN, Linden DJ (1998) Inositol-1,4,5-trisphosphate receptor-mediated ca mobilization is not required for cerebellar long-term depression in reduced preparations. J Neurophysiol 80:2963-2974.
     
Nashner LM (1976) Adapting reflexes controlling the human posture. Exp Brain Res 26:59–72.
     
Nelson AB, Gittis AH, du Lac S (2005) Decreases in CaMKII activity trigger persistent potentiation of intrinsic excitability in spontaneously firing vestibular nucleus neurons. Neuron 46:623–631.
     
Nelson AB, Krispel CM, Sekirnjak C, du Lac S (2003) Long-lasting increases in intrinsic excitability triggered by inhibition. Neuron 40:609–620.
     
Netzeband JG, Parsons KL, Sweeney DD, Gruol DL (1997) Metabotropic glutamate receptor agonists alter neuronal excitability and Ca 2+ levels via the phospholipase C transduction pathway in cultured Purkinje neurons. J Neurophysiol 78:63–75.
     
Nichols R, Ross KT (2009) The implications of force feedback for the L model. Adv Exp Med Biol 629:663–679.
     
Nicolson RI, Daum I, Schugens MM, Fawcett AJ, Schulz A (2002) Eyeblink conditioning indicates cerebellar abnormality in dyslexia. Exp Brain Res 143:42–50.
     
Nieto-Bona MP, Garcia-Segura LM, Torres-Aleman I (1997) Transynaptic modulation by insulin-like growth factor I of dendritic spines in Purkinje cells. Int J Devl Neurosci 15:749–754.
     
Nieuwenhuys R, Nicholson C (1967) The cerebellum of mormyrids. Nature 215:764-765.
     
Nisimaru N (2004) Cardiovascular models of the cerebellum. J Physiol Sci (Jpn J Physiol) 54:431–448.
     
Nisimaru N, Arata A, Ito M (2010) Hypothalamic orexinergic neurons and flocculus Purkinje cells regulate cardiovascular defense reactions. Neurosci Res. 66 supple.1, P1-k11.
     
Nisimaru N, Mittal C, Sooksawate T, Shirai Y, Sakurai T, Yamamoto M, Ito M (2006) Hypothalamic defense reactions involve Purkinje cells in the flocculus folium p via orexin and GABA. Neurosci Res 55, supple.1, S61:OS2P-8-05.
     
Nisimaru N, Mittal C, Sooksawate T, Shirai Y, Sakurai T, Yamamoto M, Ito M (2006) Hypothalamic defense reactions involve Purkinje cells in the flocculus folium p via orexin and GABA. Neurosci Res 55:S615.
     
Nisimaru N, Okahara K, Yanai S (1998) Cerebellar control of the cardiovascular responses during postural changes in conscious rabbits. Neurosci Res 32:267–271.
     
Nitta T, Akao T, Kurkin S, Fukushima K (2008) Involvement of the cerebellar dorsal vermis in vergence eye movements in monkeys. Cereb Cortex 18:1042-1057.
     
Noble D (2006) The music of life. Biology beyond the genome. Oxford University Press. Oxford UK, New York USA
     
Noda H, Fujikado T (1987) Involvement of Purkinje cells in evoking saccadic eye movements by microstimulation of the posterior cerebellar vermis of monkeys. J Neurophysiol 57:1247–1261.
     
Noda H, Warabi T (1987) Responses of Purkinje cells and mossy fibres in the flocculus of the monkey during sinusoidal movements of a visual pattern. J Physiol (London) 387:611–628.
     
Norman DA, Shallice T (1986) Attention to action: willed and automatic control of behaviour (Revised reprint of Norman & Shallice, 1980). In: Davidson RJ, Schwartz GE, Shapiro D, editors. Consciousness and self-regulation: advances in research and theory. Plenum Press, pp. 1–18. New