Beloozerova: All locomotion-related papers published in English

 

1.      Stout EE, Beloozerova IN. Pyramidal tract neurons receptive to different forelimb joints act differently during locomotion. J. Neurophysiol., Jan 11. 2012. [Epub ahead of print]. link

 

2.     Marlinski V, Nilaweera WU, Zelenin PV, Sirota MG, Beloozerova IN.  Signals from the ventrolateral thalamus to the motor cortex during locomotion. J. Neurophysiol., 107(1): 455-472,  2011. link

 

3.     Zelenin PV, Deliagina TG, Orlovsky GN, Karayannidou A, Stout EE, Sirota MG, Beloozerova IN. Activity of motor cortex neurons during backward locomotion. J. Neurophysiol., 105(6):2698-2714, 2011. link

 

4.     Zelenin PV, Deliagina TG, Orlovsky GN, Karayannidou A, Dasgupta NM, Sirota MG, Beloozerova IN. Contribution of different limb controllers to modulation of motor cortex neurons during locomotion. J. Neurosci., 31:4636-4649, 2011. PDF (wait a little, give the system time to load the full text of the article with figures)

 

5.     Beloozerova IN, Farrell BJ, Sirota MG, Prilutsky BI. Differences in movement mechanics, electromyographic, and motor cortex activity between accurate and non-accurate stepping. J. Neurophysiol., 103: 2285-2300, 2010. PDF (wait a little for the full text with figures)

 

6.     Karayannidou A, Beloozerova IN, Zelenin PV, Stout EE, Sirota MG, Orlovsky GN, Deliagina TG. Activity of pyramidal tract neurons in the cat during standing and walking on an inclined plane. J. Physiol (L.), 587 (Pt 15): 3795-3811, 2009. PDF (wait a little for the full text with figures)

 

7.     Dunin-Barkowski WL, Sirota MG, Lovering AT, Orem JM, Vidruk EH, Beloozerova IN. Precise rhythmicity in activity of neocortical, thalamic and brain stem neurons in behaving cats and rabbits. Behav. Brain. Res., 175(1): 27-42, 2006. PDF (wait a little for the full text with figures)

 

8.     Beloozerova IN, Sirota MG, Orlovsky GN, Deliagina TG. Comparison of activity of individual pyramidal tract neurons during balancing, locomotion, and scratching. Behav. Brain Res., 169(1): 98-110, 2006. link

 

9.     Sirota MG, Swadlow HA, Beloozerova IN. Three channels of corticothalamic communication during locomotion. J. Neurosci., 25(25): 5915-5925, 2005. PDF (wait a little for the full text with figures)

 

10. Prilutsky BI, Sirota MG, Gregor RJ, Beloozerova IN. Quantification of motor cortex activity and full-body biomechanics during unconstrained locomotion. J. Neurophysiol., 94(4): 2959-2969, 2005. PDF (wait a little for the full text with figures)

 

11.    Beloozerova IN, Rossignol S. Antidromic discharges in dorsal roots of decerebrate cats. II: Studies during treadmill locomotion. Brain Res., 996(2): 227-236, 2004. link

 

12.    Beloozerova IN, Sirota MG. Integration of motor and visual information in the parietal area 5 during locomotion. J. Neurophysiol., 90(2): 961-971, 2003. PDF (wait a little for the full text with figures)

 

13.     Beloozerova IN, Sirota MG, Swadlow HA. Activity of different classes of neurons of the motor cortex during locomotion. J. Neurosci., 23(3): 1087-1097, 2003. PDF (wait a little for the full text with figures)

 

14. Beloozerova I, Rossignol S. Antidromic discharges in dorsal roots of decerebrate cats. I. Studies at rest and during fictive locomotion. Brain Res., 846(1): 87-105, 1999. link

 

15.     Beloozerova IN, Sirota MG. Cortically controlled gait adjustments in the cat. Ann. NY Acad. Sci., 860: 550-553, 1998. PDF (wait a little for the full text with figures)

 

16.    Beloozerova IN, Sirota MG. The role of the motor cortex in the control of vigour of locomotor movements in the cat. J. Physiol. (L), 461: 27-46, 1993. PDF  (wait a little for the full text with figures)

 

17.   Beloozerova IN, Sirota MG. The role of the motor cortex in the control of accuracy of locomotor movements in the cat. J. Physiol. (L), 461: 1-25, 1993. PDF (wait a little for the full text with figures)

 

18.       Arshavsky YuI, Beloozerova IN, Orlovsky GN, Panchin YuV, Pavlova GA. Control of locomotion in marine mollusc Clione limacina. IV. Role of type 12 interneurons. Exp. Brain Res., 58(2): 285-293, 1985. link

 

19.       Arshavsky YuI, Beloozerova IN, Orlovsky GN, Panchin YuV, Pavlova GA. Control of locomotion in marine mollusc Clione limacina. III. On the origin of locomotory rhythm. Exp. Brain Res., 58(2): 273-284, 1985. link 

 

20.      Arshavsky YuI, Beloozerova IN, Orlovsky GN, Panchin YuV, Pavlova GA. Control of locomotion in marine mollusc Clione limacina. II. Rhythmic neurons of pedal ganglia. Exp. Brain Res, 58(2): 263-272, 1985. link

 

21.       Arshavsky YuI, Beloozerova IN, Orlovsky GN, Panchin YuV, Pavlova GA. Control of locomotion in marine mollusc Clione limacina. I. Efferent activity during actual and fictitious swimming. Exp. Brain Res., 58(2): 255-262, 1985. link

 

 

Book chapters and reviews

 

1.      Beloozerova IN, Sirota MG. Role of motor cortex in control of walking. Barrow Quarterly, 21(3): 4-7, 2005.

 

2.     Rossignol S, Beloozerova IN, Gossard J-P, Dubuc R. Presynaptic mechanisms during locomotion. – In: Presynaptic Inhibition and Neural Control Mechanisms. Eds: P.Rudomin, R.Romo, L.Mendel; Oxford Univ. Press, 1998.

 

3.     Beloozerova IN, Sirota MG. Role of motor cortex in control of locomotion. ‑ In: Stance and Motion. Facts and Concepts.  Eds: V.S. Gurfinkel, M.E. Ioffe, J. Massion, J.P. Roll, Plenum Press, New York ‑ London, p.163‑176, 1988. PDF (wait a little for the full text with figures)

 

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