CRIM1, a novel gene encoding a cysteine-rich repeat protein, is developmentally regulated and implicated in vertebrate CNS development and organogenesis |
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| Authors: | Kolle G Georgas K Holmes G P Little M H Yamada T |
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| Affiliation: | Centre for Molecular and Cellular Biology, The University of Queensland, Brisbane, Australia. |
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| Abstract: | Development of the vertebrate central nervous system is thought to be controlled by intricate cell-cell interactions and spatio-temporally regulated gene expressions. The details of these processes are still not fully understood. We have isolated a novel vertebrate gene, CRIM1/Crim1, in human and mouse. Human CRIM1 maps to chromosome 2p21 close to the Spastic Paraplegia 4 locus. Crim1 is expressed in the notochord, somites, floor plate, early motor neurons and interneuron subpopulations within the developing spinal cord. CRIM1 appears to be evolutionarily conserved and encodes a putative transmembrane protein containing an IGF-binding protein motif and multiple cysteine-rich repeats similar to those in the BMP-associating chordin and sog proteins. Our results suggest a role for CRIM1/Crim1 in CNS development possibly via growth factor binding. |
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| Keywords: | Cysteine-rich repeat Insulin-like growth factor binding protein Notochord Floor plate Motor neuron Spinal cord Brain CNS development Organogenesis Chordin Short gastrulation Bone morphogenic protein Transforming growth factor-β Holoprosencephaly 2 Spastic Paraplegia Type 4 Hereditary essential tremor 2, Human Mouse C. elegans |
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