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In the adult mammalian brain, new neurons are added to the olfactory bulb (OB) throughout life. In rodents, the adult germinal region for OB neurogenesis is the subventricular zone (SVZ), a layer of cells found along the walls of the brain lateral ventricles (for review, see Alvarez-Buylla and Garcia-Verdugo 2002). Neuroblasts born in the SVZ migrate a relatively long distance into the OB where they then disperse radially and differentiate into interneurons. Most of these new OB neurons integrate into functional circuits (Belluzzi et al. 2003; Carleton et al. 2003), and about half survive long-term (Petreanu and Alvarez-Buylla 2002). SVZ cell proliferation is lifelong (Kuhn et al. 1996; Goldman et al. 1997; Molofsky et al. 2006), with thousands of new neurons generated daily for the mouse OB (Lois and Alvarez-Buylla 1994). The adult SVZ is also the birthplace of oligodendrocytes in both normal and diseased brain (Nait-Oumesmar et al. 1999; Picard-Riera et al. 2002; Menn et al. 2006; Parent et al. 2006). This profound level of continuous neurogenesis and concomitant oligodendrogliogenesis argues for the existence of a self-renewing multipotent precursor cell—or, neural stem cell (NSC)—within the SVZ. The SVZ-OB system is an attractive model in which to study neurogenesis and neuronal replacement as it includes the basic processes of NSC maintenance, progenitor cell-fate specification, migration, differentiation, and survival/death of newly born neurons. The enduring quality and stable cytoarchitecture of adult SVZ-OB neurogenesis may make these complex biological processes experimentally more tractable in comparison to studies of embryonic brain...