Polyalanine expansion in HOXA13: three new affected families and the molecular consequences in a mouse model
Copyright policy )Polyalanine expansion in HOXA13: three new affected families and the molecular consequences in a mouse model
Polyalanine expansions in two of three large imperfect trinucleotide repeats encoded by the first exon of HOXA13 have been reported in hand-foot-genital syndrome (HFGS). Here we report additional families with expansions in the third repeat of 11 and 12 alanine residues, the latter being the largest expansion reported. We also report a patient with a novel, de novo 8-alanine expansion in the first large repeat. Thus, expansions in all three large HOXA13 polyalanine repeats can cause HFGS. To determine the molecular basis for impaired HOXA13 function, we performed homologous recombination in ES cells in mice to expand the size of the third largest polyalanine tract by 10 residues (HOXA13(ALA28)). Mutant mice were indistinguishable from Hoxa13 null mice. Mutant limb buds had normal steady-state Hoxa13 RNA expression, normal mRNA splicing and reduced levels of steady-state protein. In vitro translation efficiency of the HOXA13(ALA28) protein was normal. Thus, loss of function is secondary to a reduction in the in vivo abundance of the expanded protein likely due to degradation.
- Max Planck Society Germany
- University of Dayton United States
- University of Michigan–Flint United States
- ZymoGenetics United States
- Humboldt-Universität zu Berlin Germany
Male, Protein Denaturation, Foot Deformities, Congenital, RNA Splicing, Molecular Sequence Data, Microbiology, Molecular Genetics, Mice, Genetics, Animals, Humans, RNA, Messenger, Biology, Homeodomain Proteins, Recombination, Genetic, Base Sequence, Stem Cells, Cell Biology, Embryo, Mammalian, Mice, Mutant Strains, Pedigree, Protein Biosynthesis, Female, Peptides, Hand Deformities, Congenital, Biotechnology
Male, Protein Denaturation, Foot Deformities, Congenital, RNA Splicing, Molecular Sequence Data, Microbiology, Molecular Genetics, Mice, Genetics, Animals, Humans, RNA, Messenger, Biology, Homeodomain Proteins, Recombination, Genetic, Base Sequence, Stem Cells, Cell Biology, Embryo, Mammalian, Mice, Mutant Strains, Pedigree, Protein Biosynthesis, Female, Peptides, Hand Deformities, Congenital, Biotechnology
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