98), as such serving the internal modeling of action sequences as

98), as such serving the internal modeling of action sequences as well as perceptual events. Accordingly, PMd has been shown to be involved in a number of cognitive tasks requiring internal transformations of spatially defined

perceptual events, such as serial prediction (Schubotz and von Cramon 2001), the generation of number sequences from memory (Abe et al. 2007), and mental rotation (Lamm et al. 2001; Oshio Inhibitors,research,lifescience,medical et al. 2010). In this context, Schubotz (2007) suggested that (inanimate) event prediction is modulated by characteristic properties of the respective event, for example, “rhythmic” or “spatial.” Computations of corresponding forward models are processed in those premotor subareas whose regular motor output most suitably Inhibitors,research,lifescience,medical fits the respective event properties. Namely, Schubotz (2007; Schubotz and von Cramon 2003) proposed that prediction of spatially defined events is processed in dorsal premotor regions involved in reaching ATPase inhibition movements, while “object-defined events” are simulated by ventral premotor areas associated with grasping movements. Inanimate Inhibitors,research,lifescience,medical events are likely modulated

by more than one salient property. Consequently, most inanimate events will evoke activations in more than one premotor subarea, as appears to be the case in the current study. Accordingly, we argue, the found PMd activation corresponds to the spatial emphasis of MOT. PMv activation The MC revealed bilateral activation in the pars opercularis

of the IFG (BA44). This brain region has been most prominently associated with language production. However, recent research has also linked the pars opercularis to the processing of observed motor aspects (Rizzolatti and Craighero 2004). As a result, some authors Inhibitors,research,lifescience,medical have suggested that PMv extends from ventral BA6 into dorsal BA44 (Schubotz and von Cramon 2002, 2003; Schubotz et al. 2003; Binkofski and Buccino 2006). BA44 has been argued to be the putative human homologue of the monkey premotor area F5 (Petrides et al. 2005) in which so-called “mirror neurons” Inhibitors,research,lifescience,medical were observed (Gallese et al. 1996). It appears that neurons in this area code sensorimotor representations, presumably in a modality-independent way (Bremmer et al. 2001). Interestingly, only in monkeys, these neurons also fire when action goals (e.g., object contact as the goal of a reach-to-grasp movement) are occluded (Umiltà et al. 2001), indicating their predictive capacities. Similarly, it has been suggested that, together with BA6 and parietal areas (BA2), human BA44 is part of right hemisphere pathways that, aside from multisensory processing, are assumed to provide forward models based on somatosensory representations and sensorimotor consequences of planned or simulated actions (Wolpert and Ghahramani 2000; Lamm et al. 2007; Willems et al. 2009). Furthermore, the human opercular part is often associated with complex and abstract action-related cognition.

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