P84 is a neuronal membrane glycoprotein that promotes the attachment and neurite outgrowth of cultured murine cerebellar cells. The heterophilic adhesive properties of P84 and its localization at sites of synaptogenesis suggest that it may be involved in regulation of synapse formation or maintenance. P84 is expressed in subsets of neurons throughout the CNS. By cloning the cDNA encoding murine P84, we have discovered that this molecule is a member of a family of phosphatasebinding proteins and is identical to the murine SHPS-1 cDNA. Here we report the cloning of two alternatively spliced forms of P84 and describe its localization within the CNS by in situ hybridization.
P84 is a novel neural adhesion molecule that may play an important role in synaptogenesis. We have recently cloned a murine cDNA encoding the P84 adhesion molecule. The human homologue of P84 has previously been isolated (by others) as a brain specific cDNA containing CCA repeats. We have mapped the human P84 gene to the subtelomeric region of chromosome 20p (20p13) by FISH. In addition, we have been able to place P84 onto the high resolution physical map of the human genome by utilizing the Unigene database. P84 maps to several YAC clones, between STS markers IB255 and WI-9632, and very close to the polymorphic marker D20S199, in an interval of less than 1 Mb on 20p13. P84 is a strong candidate gene for neurological disorders which map into this region.
Human Xp22.2 has been proposed as a candidate region for the Rett syndrome (RTT) gene. M6b, a member of the proteolipid protein gene family, was mapped to Xp22.2 within one of the RTT candidate regions. In this article we describe the structure of the M6b gene, refine the physical mapping of M6b between markers DXS69E and DXS414, and present the results of mutation analysis of the M6b gene in patients with RTT. The data from mutation analysis on 55 RTT patients make it very unlikely that M6b is involved in RTT.
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