AI Article Synopsis
- HHV-6A and -6B are highly prevalent human herpesviruses that can integrate into chromosomes, leading to inherited conditions like iciHHV-6.
- Researchers sequenced the genomes of 61 active HHV-6B infection isolates from different locations and identified 64 strains of iciHHV-6B, revealing geographic clustering and evidence of genetic recombination.
- The study provides a revised genome annotation for HHV-6B, enhancing our understanding of its genetic diversity and potential implications for detection and control of this virus.
Article Abstract
Background: Human herpesvirus-6A and -6B (HHV-6) are betaherpesviruses that reach > 90% seroprevalence in the adult population. Unique among human herpesviruses, HHV-6 can integrate into the subtelomeric regions of human chromosomes; when this occurs in germ line cells it causes a condition called inherited chromosomally integrated HHV-6 (iciHHV-6). Only two complete genomes are available for replicating HHV-6B, leading to numerous conflicting annotations and little known about the global genomic diversity of this ubiquitous virus.
Results: Using a custom capture panel for HHV-6B, we report complete genomes from 61 isolates of HHV-6B from active infections (20 from Japan, 35 from New York state, and 6 from Uganda), and 64 strains of iciHHV-6B (mostly from North America). HHV-6B sequence clustered by geography and illustrated extensive recombination. Multiple iciHHV-6B sequences from unrelated individuals across the United States were found to be completely identical, consistent with a founder effect. Several iciHHV-6B strains clustered with strains from recent active pediatric infection. Combining our genomic analysis with the first RNA-Seq and shotgun proteomics studies of HHV-6B, we completely reannotated the HHV-6B genome, altering annotations for more than 10% of existing genes, with multiple instances of novel splicing and genes that hitherto had gone unannotated.
Conclusion: Our results are consistent with a model of intermittent de novo integration of HHV-6B into host germline cells during active infection with a large contribution of founder effect in iciHHV-6B. Our data provide a significant advance in the genomic annotation of HHV-6B, which will contribute to the detection, diversity, and control of this virus.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5859498 | PMC |
| http://dx.doi.org/10.1186/s12864-018-4604-2 | DOI Listing |
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