The cerebellum has served as an important system for studying neu

The cerebellum has served as an important system for studying neurodevelopment and information processing because of its well-characterized circuits, which consist of relatively few cell types (Altman & Bayer, 1997). Cerebellar Purkinje cells have been prominently featured in these studies. For example, the long-term depression (LTD) of synaptic transmission at parallel fiber (PF)–Purkinje cell synapses

is thought to underlie certain forms of motor learning in the cerebellum (Ito, 1989). Furthermore, the unique shape of Purkinje cell dendrites makes them especially useful for investigating the molecular mechanisms underlying neuronal dendrite development (Sotelo & Dusart, 2009). Therefore, various methods have been developed to molecularly perturb Purkinje cells by expressing exogenous genes. Although Purkinje 5-Fluoracil research buy cells can be transgenically targeted by using the L7 (Pcp2) promoter (Oberdick et al., 1990; Smeyne et al., 1991; Tomomura et al., 2001), the selection of mouse lines expressing high levels of transgenes can be time-consuming and labor-intensive (Yuzaki, 2005). Furthermore, the L7 promoter turns on relatively late in

postnatal development (Smeyne et al., 1991; Tomomura et al., 2001), making it difficult for researchers to perturb early developmental events. As an alternative approach, viral vectors, including adenovirus (Hashimoto et al., 1996), adeno-associated virus (AAV) (Kaemmerer et al., 2000), herpes simplex virus see more (Agudo et al., 2002), Sindbis virus (Kohda et al., 2007) and lentivirus (Torashima et al., 2006), have been used to express molecules in Purkinje cells in vivo. However, each vector has certain drawbacks. For example, approximately 30% of the cells infected by one of the best Purkinje cell-specific lentiviral vectors are non-Purkinje cells

(Takayama et al., 2008). In addition, it takes several days to weeks for AAV and lentiviral vectors to maximally express foreign genes. Finally, it is often difficult to express large and multiple genes in Purkinje cells with viral mafosfamide vectors. Therefore, a method that can complement the current transgenic and viral vector approaches is desired. In utero electroporation (IUE), in which electrical pulses are applied through the uterine wall, has recently emerged as a useful method for transferring genes into restricted types of neuronal precursors in vivo (Saito & Nakatsuji, 2001; Tabata & Nakajima, 2001). An advantage of IUE is that large and multiple genes can be introduced into neurons during very early developmental periods (De Vry et al., 2010). Furthermore, by using cell-type-specific and/or inducible promoters, foreign genes can be expressed in a particular neuronal subset within a distinct time frame (Kolk et al., 2011). Although IUE has been successfully applied to various neurons in the cerebral cortex (Saito & Nakatsuji, 2001; Tabata & Nakajima, 2001), hippocampus (Navarro-Quiroga et al., 2007), thalamus (Bonnin et al.

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