AI Article Synopsis
- The human β-globin gene has a specific 18-nucleotide sequence that can form a stem-loop structure, which promotes the loss of a nucleotide at codon 6, leading to potential mutations.
- This mutation is linked to various anemias and β-thalassemias, as well as harmless substitutions, showing that the region is prone to errors in DNA repair.
- The unique formation of this structure evolved in primates, indicating a biological mechanism that contributes to diversity and diseases related to β-globin variants.
Article Abstract
The human β-globin gene contains an 18-nucleotide coding strand sequence centered at codon 6 and capable of forming a stem-loop structure that can self-catalyze depurination of the 5'G residue of that codon. The resultant apurinic lesion is subject to error-prone repair, consistent with the occurrence about this codon of mutations responsible for 6 anemias and β-thalassemias and additional substitutions without clinical consequences. The 4-residue loop of this stem-loop-forming sequence shows the highest incidence of mutation across the gene. The loop and first stem base pair-forming residues appeared early in the mammalian clade. The other stem-forming segments evolved more recently among primates, thereby conferring self-depurination capacity at codon 6. These observations indicate a conserved molecular mechanism leading to β-globin variants underlying phenotypic diversity and disease.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3630879 | PMC |
| http://dx.doi.org/10.1074/jbc.M113.454744 | DOI Listing |
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