(31) Action recognition in the premotor cortex.   Gallese V, Fadiga L, Fogassi L and Rizzolatti G.   1996.   Brain, volume 119, pages 593-609.

(32) Modulation of cortical activity during different imitative behaviors.   Koski L, Jacoboni M, Dubeau M-C, Woods RP and Mazziotta JC.   2003.   Journal of Neurophysiology, volume 89, pages 460-471.

(33) Neural correlates of mental rehearsal in dorsal premotor cortex.   Cisek P and Kalaska JF.   2004.   Nature, volume 431, pages 993-996.

(34) The role of cerebellar structures in the execution of serial movements.   Inhoff AW, Diener HC, Rafal RD and Ivry R.   1989.   Brain, volume 112, pages 565-581.
     With reference to grammar, the unnecessary hyphens in the expression "to-be-executed" and the mistaken use of "either...or" in a choice of three are especially noticeable in an abstract about a sequence of ordered responses. How could the patients with moderate cerebellar dysfunction show no effects of sequence length on response onset time if cerebellar dysfunction was associated with significantly slower interkeypress reaction times?

(35) Cerebellum and procedural learning; evidence from focal cerebellar lesions.   Molinari M, Leggio MG, Solida A, Ciorra R, Misciagna, S, Silveri MC and Petrosini L.   1997.   Brain, volume 120, pages 1753-1762.

(36) A review of differences between basal ganglia and cerebellar control of movements as revealed by functional imaging studies.   Jueptner M and Weiller, C.   1998.   Brain, volume 121, pages 1437-1449.

(37a) Modulation of dorsal spinocerebellar responses to limb movement. 1. Effect of serotonin.   Bosco G, Rankin A and Poppele RE.   2003.   Journal of Neurophysiology, volume 90, pages 3361-3371.

(37b) Modulation of dorsal spinocerebellar responses to limb movement. 2. Effect of sensory input.   Bosco G and Poppele RE.   2003.   Journal of Neurophysiology, volume 90, pages 3372-3383.
     With reference to citation of one's own work, the authors' construction of "neural processing" and "biomechanical factors" as comparable, and thus seemingly uncorrelated variables, is questionable and in need of acknowledgement, and of discussion about how others might construe those variables.

(38) Contribution of somatosensory cortex to responses in the rat cerebrellar granule cell layer following peripheral tactile stimulation.   Morissette J and Bower JM.   1996.   Experimental Brain Research, volume 109, pages 240-250.
     With reference to trying not to find what they were looking for, these authors chose not to anaesthetise or to ablate the cerebellar cortex to observe the effects on responses in the somatosensory cortex.

(39) Motor projections to the basis pontis in rhesus monkeys.   Schmahmann JD, Rosene DL and Pandya DN.   2004.   Journal of Comparative Neurology, volume 478, pages 248-268.

(40) Synaptic plasticity in a cerebellum-like structure depends on temporal order.   Bell CC, Han VZ, Sugawara Y and Grant K.   1997.   Nature, volume 387, pages 278-281.