AI Article Synopsis
- HPV-6 is linked to condyloma acuminata, a common sexually transmitted disease, and researchers are exploring virus-like particles from its L1 protein for potential vaccines.
- Analysis of 17 clinical HPV-6 isolates from London revealed 28 nucleotide variations from the prototype strain, indicating more diversity in HPV-6 than previously thought.
- The most significant changes are concentrated in three regions of the L1 sequence, with a notable G-to-C substitution that alters an amino acid but does not affect the yield or stability of the vaccine candidates.
Article Abstract
Human papillomavirus type 6 (HPV-6) is the causative agent of condyloma acuminata, a common sexually transmitted disease. Virus-like particles (VLPs) assembled from the L1 major capsid protein represent promising candidates for prophylactic vaccines. However, any intratype sequence variation among HPV-6 L1 ORFs will influence which sequence is used for a vaccine according to its prevalence in the population and its propensity for VLP production. Therefore, we have analysed the entire L1 nucleotide sequence of 17 clinical isolates of HPV-6 from the London area. We found 28 positions where changes from the prototype HPV-6b L1 occurred, showing that HPV-6 L1 intratype variation is greater than previously reported. The most frequently observed substitutions are clustered into three discrete regions: R1 (nt 5920-6075), R2 (nt 6590-6670) and R3 (nt 7070-7230). Indeed, most of the nucleotide substitutions within the HPV-6 L1 reported worldwide also map to these regions. The R3 region contains predominantly non-silent substitutions, the most common of which is a G-to-C substitution at position 7079. This results in a Glu-to-Gln change at aa 431, although this change had no effect on VLP yield or stability. This substitution defines a new HPV-6 L1 amino acid sequence that is more abundant in the isolates examined than any other reported sequence.
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| http://dx.doi.org/10.1099/0022-1317-80-4-1025 | DOI Listing |
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