2001
DOI: 10.1006/mcne.2001.1019
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Evidence for Gradients of Gene Expression Correlating with Zonal Topography of the Olfactory Sensory Map

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Cited by 111 publications
(90 citation statements)
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References 53 publications
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“…Several other molecules show zonal restriction patterns in addition to the odorant receptors. For example, cytoprotective enzymes are found in the dorsomedial-most zone (zone 1), whereas the guidance molecule Npn2 and transcription factors Msx1 and Eya2 increase in a gradient ventrolaterally through zones 2-4 (Norlin et al, 2001;Oka et al, 2003;Tietjen et al, 2003;Gussing and Bohm, 2004).…”
Section: Zonal Restriction Of Foxg1 Expression In the Olfactory Epithmentioning
confidence: 99%
See 1 more Smart Citation
“…Several other molecules show zonal restriction patterns in addition to the odorant receptors. For example, cytoprotective enzymes are found in the dorsomedial-most zone (zone 1), whereas the guidance molecule Npn2 and transcription factors Msx1 and Eya2 increase in a gradient ventrolaterally through zones 2-4 (Norlin et al, 2001;Oka et al, 2003;Tietjen et al, 2003;Gussing and Bohm, 2004).…”
Section: Zonal Restriction Of Foxg1 Expression In the Olfactory Epithmentioning
confidence: 99%
“…The mammalian olfactory epithelium displays a striking spatial organization, such that odorant receptors and other molecular markers are restricted to circumscribed zones that radiate along the dorsomedial-ventrolateral axis (Ressler et al, 1993;Vassar et al, 1993;Alenius and Bohm, 1997;Yoshihara et al, 1997;Norlin et al, 2001;Oka et al, 2003;Gussing and Bohm, 2004;Miyamichi et al, 2005;Tietjen et al, 2005). Dorsoventral organization within the olfactory epithelium plays an essential role in odorant receptor choice as well as in guiding topographic projections of ORN axons to the olfactory bulb (Miyamichi et al, 2005;Imai and Sakano, 2007).…”
Section: Regional Identity In the Olfactory Epitheliummentioning
confidence: 99%
“…Previous research has defined the presence of a sharp boundary between the dorsomedial epithelium and the ventrolateral epithelium via the expression of the Ig superfamily member olfactory cell adhesion molecule/mammalian homolog 6 fasciclin II (OCAM/mamFas II) or anonymous antigens such as that recognized by the monoclonal antibody CC2 (Schwob andGottlieb, 1986, 1988;Schwarting and Crandall, 1991;Miyawaki et al, 1996;Yoshihara et al, 1997;Norlin et al, 2001). Our results do not contradict the existence of a boundary delimited by differential expression of these markers; however, we do find that the some of Figure 10.…”
Section: Or-positive Osn Distribution Patterns In Normal Oementioning
confidence: 99%
“…The steady shifting in the position of the expression territory could be accommodated by a gradient mechanism around the circumference of the epithelium. The distinction is not trivial, because molecules that are purported to match the conventional zonal boundaries have been proposed as candidate participants in the process of zone formation (Norlin et al, 2001). …”
Section: Or-positive Osn Distribution Patterns In Normal Oementioning
confidence: 99%
“…In this model, the collective expression patterns of these guidance cues would form a spatial map within the bulb, molecularly distinguishing potential paths and substrates encountered by OSNs. However, although it has become increasingly clear that a number of molecules have been identified that are differentially expressed by OSNs [for e.g., along the path that OSNs traverse to the bulb (2)(3)(4) and by ensheathing cells (5-7)], efforts to identify spatially restricted molecules within the bulb itself have been generally unsuccessful (8,9), greatly impeding our understanding of how olfactory axons select their partner glomeruli. Indeed, the most plausible models of olfactory development assume that spatially restricted cues exist within the olfactory bulb to guide the sensory axons to their targets (1,10).…”
mentioning
confidence: 99%