AI Article Synopsis
- The TWIST gene encodes a transcription factor with specific structural features, including a basic-helix-loop-helix motif and a glycine-rich repeat region of unknown function.
- Research has identified both novel mutations and rearrangements in the glycine-rich region among craniosynostosis patients, although these rearrangements are not consistently linked to clinical symptoms.
- The glycine-rich sequence might act as a flexible linker between TWIST’s functional domains, suggesting it could evolve with less constraint compared to other regions of the gene.
Article Abstract
The human TWIST gene encodes a 202 amino acid transcription factor characterized by a highly conserved basic-helix-loop-helix motif in the C-terminal half, and a less conserved N-terminal half that has binding activity toward the histone acetyltransferase p300. Between these domains is a repeat region of unknown function that encodes the glycine-rich sequence (Gly)5Ala(Gly)5. Heterozygous mutations of TWIST were previously described in Saethre-Chotzen craniosynostosis syndrome [El Ghouzzi et al., 1997; Howard et al., 1997]. During a search for TWIST mutations in patients with craniosynostosis, we identified, in addition to 11 novel and one previously described bona fide mutations, several individuals with rearrangements of the glycine-rich region, involving either deletion of 18 nucleotides or insertion of three, 15, or 21 nucleotides. None of these rearrangements was consistently associated with clinical disease and we conclude that they are at most weakly pathogenic. The glycine stretch may serve as a flexible linker between the functional domains of the TWIST protein, and as such may be subject to reduced evolutionary constraint.
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| http://dx.doi.org/10.1002/humu.1230 | DOI Listing |
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