ALFRED: allele frequency database
      The ALlele FREquency Database   
ALFRED is a resource of gene frequency data on human populations
supported by the U. S. National Science Foundation.
ALFRED detailed record information

Locus Information

NameALFRED UIDLocus SymbolChromosomeBand Position
R-spondin 3 homolog (Xenopus laevis)LO000685TRSPO36q22.33
Synonyms: PWTSR ; FLJ14440 ; THSD2 ;
Sites List: See Sites List
External Resources: Entrez Gene Locus Information   GenBank Complete Sequence   GenBank mRNA Sequence    UniGene   PharmGKB Gene Information   
References: See References
Locus Description: This gene encodes a protein similar to thrombospondin type 1 domain-containing proteins. The thrombospondins are a family of proteins found widely in the embryonic extracellular matrix. Like most matrix proteins, thrombospondins are modular and contain a series of repeated domains arrayed between globular amino and carboxyl terminal domains. These proteins are expressed in distinctive parts of the developing nervous system, in patterns that suggest roles in directing cell migration.
Sites within this locus ordered by their chromosomal position in the 37.3 NCBI build:
Site Name
(Navigates to ALFRED
description)		dbSNP rs#
(Navigates to dbSNP
reference page)		Chr-PositionStatus# Populations
typed
rs1555091rs1555091   12743664551
rs7766106rs7766106   12745513850
rs2503322rs2503322   12745726051
C____411273_10rs2503107   12746337645
rs11970168rs11970168   12746724650
rs2503113rs2503113   12747007250
rs9491699rs9491699   12747153350
rs3734626rs3734626   12747179150
rs2489629rs2489629   12747671750
rs4644087rs4644087   12748115451
rs13202608rs13202608   12748330851
rs2326566rs2326566   12749284050
rs10457487rs10457487   12751923451

References:
- Adams JC, Tucker RP. "The thrombospondin type 1 repeat (TSR) superfamily: diverse proteins with related roles in neuronal development". Dev Dyn. 218:280-99. (2000) Online citation.

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© 2012 Kenneth K Kidd, Yale University. All rights reserved. The full Copyright Notification is also available.
Originally prototyped by Michael Osier with the aid of Kei Cheung
Upgrades and maintenance since 2002 by Haseena Rajeevan