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locomotion-related papers

 

   1.  Beloozerova IN, Marlinski V. Contribution of the ventrolateral thalamus to the locomotion-related activity of motor cortex. J. Neurophysiol.,124(5): 1480-1504, 2020. PDF

 

   2.  Zubair HN*, Chu KMI*, Johnson JL, Rivers TJ, Beloozerova IN. Gaze coordination with strides during walking in the cat. J. Physiol. (L.), 597(21): 5195-5229, 2019. (*Designates equal contribution) PDF

 

   3.  Zubair HN, Stout EE, Dounskaia N, Beloozerova IN. The role of inter-segmental dynamics in coordination of the forelimb joints during unperturbed and perturbed skilled locomotion  J. Neurophysiol., 120 (4): 1547-1557, 2018. PDF

 

   4.  Chu MI, Seto SH, Beloozerova IN, Marlinski V. Strategies for obstacle avoidance during walking in the cat. J. Neurophysiol., 118(2): 817-831, 2017. PDF

 

   5.  Zubair HN, Beloozerova IN, Sun H, Marlinski V. Head movement during walking in the cat. Neuroscience, 332:101-20, 2016. PDF

 

   6.  Farrell BJ, Bulgakova MA, Sirota MG, Prilutsky BI, Beloozerova IN. Accurate stepping on a narrow path: mechanics, EMG, and motor cortex activity in the cat. J. Neurophysiol., 114(5): 2682-2702, 2015. PDF

 

    7.  Stout EE, Sirota MG, Beloozerova IN. Known and unexpected constraints evoke different kinematic, muscle, and motor cortical neuron responses during locomotion. Eur. J. Neurosci., 42(9): 2666-2677, 2015.  PDF

 

   8.  Favorov OV, Nilaweera WU, Miasnikov AA, Beloozerova IN. Activity of somatosensory-responsive neurons in high subdivisions of SI cortex during locomotion. J. Neurosci., 35(20): 7763-7776, 2015. PDF

 

   9.  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

          

10.     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

          

11.     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

          

12.  Stout EE, Beloozerova IN. Pyramidal tract neurons receptive to different forelimb joints act differently during locomotion. J. Neurophysiol., 107(7): 1890-1903, 2012. PDF

          

13.   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

          

14.   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

          

15.  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

          

16.  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

          

17.  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

          

18.   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

          

19.      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

          

20.      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

          

21.      Sirota MG, Swadlow HA, Beloozerova IN. Three channels of corticothalamic communication during locomotion. J. Neurosci., 25(25): 5915-5925, 2005. PDF

          

22.       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

          

23.      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

          

24.       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

          

25.       Beloozerova IN, Sirota MG. Cortically controlled gait adjustments in the cat. Ann. NY Acad. Sci., 860: 550-553, 1998. PDF

          

26.       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

          

27.       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

          

28.       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

          

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