Abstract
Single nucleotide replacing mutations in genes cause a number of diseases, but sometimes these mutations mimic other genetic mutations such as trinucleotide repeats expansions. A mutation in codon GGG→GCG results in Gly→Ala at the N-terminal of PABPN1 protein that mimics the trinucleotide repeat expansion disease called Oculopharyngeal muscular dystrophy (OPMD). Molecular dynamics simulations in water with peptide models having sequence Ac-A10-GA2GG-NHme (peptide A) and Ac-A10A3GG-NHme (peptide B) reveal an increase in the length of helical segment in peptide B. The α-helical length is found to be stable in peptide B with starting geometry of a right handed helix, while in the case peptide A, the helical length is short. The interactions of water molecules at terminals, side chain-backbone interactions and hydrogen bonds provide stability to resultant conformation. The adopted helix by the poly-Ala stretch may lead to masking some other active parts of the PABPN1 that may trigger the aggregation, decrease in degradation and/or impaired function of protein. Hence, further studies with N-terminal may be helpful to understand unclear disease mechanism.
Highlights
Many genetic diseases caused by expansions in trinucleotide repeats become more severe after each new generation, a phenomenon known as-genetic anticipation [1]
The single point mutation in codon sequence of PABPN1 has been shown to mimics the polyalanine expansion that results in Oculopharyngeal muscular dystrophy [5]
Increase in hydrophobic character or helicity may be of pathological relevance in mutant PABPN1
Summary
Many genetic diseases caused by expansions in trinucleotide repeats become more severe after each new generation, a phenomenon known as-genetic anticipation [1]. These expansions can result in expansions of homopolyamino acid repeats and cause a number of human neurodegenerative disorders like Huntigton’s, spinocellebelar. Robinson et al report a point mutation that occurs in the GGG codon that lies immediately after the TNR (trinucleotide repeat) for ten alanine residues [5] [6]. The mutation G→C in GGG codon results in tandem thirteen GCG codons (see Figure 1), which mimics the expansion of trinucleotide repeats in the GCG codons reported by Brais et al in 1998 [3]
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