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J F Lorden

Showing results (21-30 of 65) with videos related to

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Brain Research|October 15, 1986
Glutamic acid decarboxylase activity in micropunches of the deep cerebellar nuclei of the genetically dystonic (dt) ratG A Oltmans, M Beales, J F Lorden
Brain Research|November 11, 1985
Lesions of the inferior olive increase glutamic acid decarboxylase activity in the deep cerebellar nuclei of the ratG A Oltmans, J F Lorden, M Beales
Neuroscience|January 9, 1999
Single-unit activity of cerebellar nuclear cells in the awake genetically dystonic ratM S LeDoux, D C Hurst, J F Lorden
Pharmacology, Biochemistry, and Behavior|September 1, 1990
Enhanced sensitivity to quipazine in the genetically dystonic rat (dt)V L Michela, S E Stratton, J F Lorden
Brain Research|October 17, 1975
Central catecholamine levels in genetically obese mice (obob and dbdb)J F Lorden, G A Oltmans, D L Margules
Brain Research|November 26, 1976
Central catecholamine turnover in genetically obese mice (obob)J F Lorden, G A Oltmans, D L Margules
Brain Research|June 10, 1977
Food intake and body weight: effects of specific and non-specific lesions in the midbrain path of the ascending noradrenergic neurons of the ratG A Oltmans, J F Lorden, D L Margules
Behavioural Brain Research|August 1, 1983
Forebrain monoamines and associative learning: I. Latent inhibition and conditioned inhibitionJ F Lorden, E J Rickert, D W Berry
Brain Research Bulletin|January 1, 1994
Inferior olive serotonin and norepinephrine levels during development in the genetically dystonic ratM S Ledoux, J F Lorden, J M Ervin
Brain Research|October 30, 1995
Selective elimination of cerebellar output in the genetically dystonic ratM S LeDoux, J F Lorden, J Meinzen-Derr
Pageof 7

Showing results (21-30 of 65) with videos related to

Sort By:
Pageof 7
Brain Research|October 15, 1986
Glutamic acid decarboxylase activity in micropunches of the deep cerebellar nuclei of the genetically dystonic (dt) ratG A Oltmans, M Beales, J F Lorden
Brain Research|November 11, 1985
Lesions of the inferior olive increase glutamic acid decarboxylase activity in the deep cerebellar nuclei of the ratG A Oltmans, J F Lorden, M Beales
Neuroscience|January 9, 1999
Single-unit activity of cerebellar nuclear cells in the awake genetically dystonic ratM S LeDoux, D C Hurst, J F Lorden
Pharmacology, Biochemistry, and Behavior|September 1, 1990
Enhanced sensitivity to quipazine in the genetically dystonic rat (dt)V L Michela, S E Stratton, J F Lorden
Brain Research|October 17, 1975
Central catecholamine levels in genetically obese mice (obob and dbdb)J F Lorden, G A Oltmans, D L Margules
Brain Research|November 26, 1976
Central catecholamine turnover in genetically obese mice (obob)J F Lorden, G A Oltmans, D L Margules
Brain Research|June 10, 1977
Food intake and body weight: effects of specific and non-specific lesions in the midbrain path of the ascending noradrenergic neurons of the ratG A Oltmans, J F Lorden, D L Margules
Behavioural Brain Research|August 1, 1983
Forebrain monoamines and associative learning: I. Latent inhibition and conditioned inhibitionJ F Lorden, E J Rickert, D W Berry
Brain Research Bulletin|January 1, 1994
Inferior olive serotonin and norepinephrine levels during development in the genetically dystonic ratM S Ledoux, J F Lorden, J M Ervin
Brain Research|October 30, 1995
Selective elimination of cerebellar output in the genetically dystonic ratM S LeDoux, J F Lorden, J Meinzen-Derr
Pageof 7