Irina Beloozerova
PUBLICATIONS:
63 research papers in referred
journals and 10 book chapters/reviews.
9
14.
15.
16. Armer MC, Nilaweera WU, Rivers TJ, Dasgupta NM, Beloozerova IN. Effect of light on the activity of motor cortex during locomotion. Behav. Brain Res., 250: 238-250, 2013. PDF
17. Stout EE, Beloozerova IN. Differential responses of fast and slow conducting pyramidal tract neurons to changes in accuracy demands during locomotion. J. Physiol (L.), 591(Pt 10): 2647-2666, 2013. PDF
18. Marlinski V, Sirota MG, Beloozerova IN. Differential gating of thalamo-cortical signals by reticular nucleus of thalamus during locomotion. J.Neurosci., 32(45): 15823-15836, 2012. PDF
19. Stout EE, Beloozerova IN. Pyramidal tract
neurons receptive to different forelimb joints act differently during
locomotion. J. Neurophysiol.,
107(7): 1890-1903, 2012.
PDF
20. 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, 2012. PDF
21. 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.
PDF
22. Zelenin PV, Deliagina TG, Orlovsky GN, Karayannidou A,
23. Zelenin PV, Beloozerova IN, Sirota MG, Orlovsky GN, Deliagina TG. Activity of red nucleus neurons in the cat during postural corrections. J. Neurosci., 30(43): 14533-14542, 2010. PDF
24. 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
25. 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
26. Karayannidou A, Zelenin PV, Orlovsky GN, Sirota MG, Beloozerova IN, Deliagina TG. Maintenance of lateral stability during standing and walking in the cat. J. Neurophysiol., 101(1): 8-19, 2009. PDF
27. Karayannidou A, Deliagina TG, Tamarova ZA, Sirota
MG, Zelenin PV, Orlovsky
GN, Beloozerova IN. Influences of
sensory input from the limbs on feline corticospinal
neurons during postural responses. J. Physiol. (L.), 586(Pt 1): 247-263, 2008.
PDF
28. Tamarova ZA, Sirota MG, Orlovsky GN, Deliagina TG, Beloozerova
IN. Role of GABAA inhibition in modulation the activity of
pyramidal tract neurons during postural corrections. Eur. J. Neurosci., 25(5): 1484-1491, 2007.
PDF
29. 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
30. Deliagina TG, Sirota MG, Zelenin PV, Orlovsky GN, Beloozerova
IN. Interlimb postural coordination in the
standing cat. J. Physiol (L), 573(Pt 1):
211-224, 2006.
PDF
31.
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
32. Sirota
MG,
33. Sirota MG, Swadlow HA, Beloozerova IN. Three channels of corticothalamic communication during locomotion. J. Neurosci., 25(25): 5915-5925. 2005. PDF
34. 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
35. Beloozerova IN, Sirota MG, Orlovsky GN, Deliagina TG. Activity of pyramidal tract neurons in the cat during postural corrections. J. Neurophysiol., 93(4): 1831-1844, 2005. PDF
38. Beloozerova IN,
Sirota MG, Swadlow HA, Orlovsky GN, Popova LB, Deliagina TG. Activity
of different classes of neurons of the motor cortex during postural
corrections. J. Neurosci., 23(21): 7844-7853,
2003.
PDF
39. 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
40. 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
41. Deliagina T, Beloozerova IN,
Popova LB, Sirota MG, Swadlow HA, Grant G, Orlovsky GN. Role of different sensory inputs for
maintenance of body posture in sitting rat and rabbit. Motor Control,
4(4): 439-452, 2000.
link
42. 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
43. Beloozerova IN, Sirota MG. Cortically controlled gait adjustments in the cat. Ann. N Y Acad. Sci., 860: 550-553, 1998. PDF
44. Swadlow HA, Beloozerova IN, Sirota MG. Sharp, local synchrony among putative feed-forward inhibitory interneurons of rabbit somatosensory cortex. J. Neurophysiol., 79(2): 567-582, 1998. PDF
45. 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
46. 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
47
Correia MJ, Perachio AA, Dickman JD, Kozlovskaya IB,
Sirota MG, Yakushin SB, Beloozerova IN. Changes in monkey horizontal semicircular canal
afferent responses after spaceflight. J. Appl. Physiol., 73 (2 Suppl.):
112S-120S, 1992.
link
48. Kozlovskaya IB, Ilyin EA, Sirota MG, Korolkov VI, Babayev BM, Beloozerova IN, Yakushin
SB. Studies of space adaptation syndrome in experiments on primates performed
on board of soviet biosatellite "Cosmos-1887". Physiologist,
32 (1 Suppl.): S45-48, 1989.
link
49. Sirota
MG, Babaev BM, Beloozerova
IN, Nyrova AN, Yakushin
SB, Kozlovskaya IB. Neuronal activity of Nucleus vestibularis during coordinated movement of eyes and head
in microgravitation. Physiologist, 31 (1
Suppl.): S8‑9, 1988.
50. Sirota
MG, Babaev BM, Beloozerova
IN, Nyrova AN, Kozlovskaya
IB. Characteristic of vestibular
reactions to canal and otolith stimulation at an early stage of exposure to
microgravity. Physiologist, 30 (1 Suppl.): S82-84, 1987.
link
51. Beloozerova IN, Sirota MG. [Activity of neurons of
the motor-sensory cortex of the cat during natural locomotion while stepping
over obstacles] Neirofiziologiia, 18(4):
546-549, 1986. In Russian.
link
52. Beloozerova IN, Sirota MG. [Activity of neurons of
the motor-sensory cortex of the cat during natural walking on the rungs of a
horizontal ladder] Neirofiziologiia, 18(4):
543-545, 1986. In Russian.
link
53. Beloozerova IN, Sirota MG. [Construction for
recording neuronal activity in the unrestrained cat] Zh.
Vyssh. Nerv. Deiat. Im. IP. Pavlova, 36(6): 1149-1151,
1986. In Russian.
link
54. Beloozerova IN, Sirota MG. [Activity of neurons of
the motosensory cortex during natural locomotion in
the cat] Neirofiziologiia, 17(3): 406-408,
1985. In Russian.
link
55. 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
56. 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
57. 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
58. 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
59. Kozlovskaya IB, Babaev BM, Barmin BA, Beloozerova
IN, Kreidich YuV,
Sirota MG. The effect of weightlessness on motor and vestibulo‑motor
reactions. Physiologist, 27(6): 111‑114, 1984.
60. Arshavskii IuI, Beloozerova IN, Orlovskii GN,
61. Arshavskii IuI, Beloozerova IN, Orlovskii GN,
62. Arshavskii IuI, Beloozerova IN, Orlovskii GN,
63. Arshavskii IuI, Beloozerova IN, Orlovskii GN, Panchin IuV. [Effect of serotonin
and theophylline on generation of rhythmic activity
in the buccal ganglia of gastropod mollusks] Neirofiziologiia, 15(3): 321-333, 1983.
In Russian.
link
1. Deliagina TG, Beloozerova IN, Orlovsky GN, Zelenin PV. Contribution of supraspinal systems to generation of automatic postural responses. Front Integr Neurosci., 8:76, 2014. PDF
2. Beloozerova IN, Stout EE, Sirota MG. Distinct thalamo-cortical controls for shoulder, elbow, and wrist during locomotion. Front. Comput. Neurosci., 7:62, 2013. Review. PDF
3. Deliagina TG, Beloozerova IN, Zelenin PV, Orlovsky GN. Spinal and supraspinal postural networks. Brain Res Rev., 57(1): 212-221, 2008. PDF
4. Deliagina TG, Zelenin PV, Beloozerova IN, Orlovsky
GN. Nervous mechanisms controlling body posture. Physiol
Behav., 92(1-2): 148-54, 2007.
link
5. Deliagina TG, Orlovsky GN, Zelenin PV, Beloozerova IN. Neural bases of postural control. Physiology (Bethesda) 21: 216-225, 2006. PDF
6. Beloozerova IN, Sirota MG. Role of motor cortex in control of walking. Barrow Quarterly, 21(3): 4-7, 2005. full text link
7. 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;
8. Beloozerova IN, Sirota MG. Role of motor cortex in control of locomotion. ‑ In: Stance and Motion. Facts and Concepts. Eds: VS Gurfinkel, ME Ioffe, J Massion, JP Roll; Plenum Press, New York ‑ London, p.163‑176, 1988. PDF
9. Shipov AA, Sirota MG, Babaev BM, Beloozerova IN, Yakushin
SB, Kozlovskaya IB. Results of tests on the primate vestibulo‑visuomotor reactions in biocosmos
experiments. ‑ In: Adaptive
Processes in visual and oculomotor systems. Eds: EL Keller, DS Zee;
10. Beloozerova IN, Sirota MG. Activity of motosensory cortex cells during skilled locomotion of the
cat. ‑ In: The actual problems of the space biology
and medicine;