Long read sequencing reveals poxvirus evolution through rapid homogenization of gene arrays
Recombination, Genetic
Evolutionary Biology
0303 health sciences
gene conversion
long read sequencing
DNA Copy Number Variations
QH301-705.5
Science
Q
copy number variation
R
Gene Conversion
High-Throughput Nucleotide Sequencing
Vaccinia virus
Adaptation, Physiological
Polymorphism, Single Nucleotide
vaccinia virus
3. Good health
Evolution, Molecular
03 medical and health sciences
poxvirus
Medicine
experimental evolution
Biology (General)
DOI:
10.7554/elife.35453
Publication Date:
2018-08-29T10:35:32Z
AUTHORS (4)
ABSTRACT
Poxvirus adaptation can involve combinations of recombination-driven gene copy number variation and beneficial single nucleotide variants (SNVs) at the same loci. How these distinct mechanisms of genetic diversification might simultaneously facilitate adaptation to host immune defenses is unknown. We performed experimental evolution with vaccinia virus populations harboring a SNV in a gene actively undergoing copy number amplification. Using long sequencing reads from the Oxford Nanopore Technologies platform, we phased SNVs within large gene copy arrays for the first time. Our analysis uncovered a mechanism of adaptive SNV homogenization reminiscent of gene conversion, which is actively driven by selection. This study reveals a new mechanism for the fluid gain of beneficial mutations in genetic regions undergoing active recombination in viruses and illustrates the value of long read sequencing technologies for investigating complex genome dynamics in diverse biological systems.
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CITATIONS (24)
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