Global Spread Dynamics and Intrinsic Evolutionary Dynamics of Apple Chlorotic Leaf Spot Virus Whole-Genome Sequences over the Last 30 Years

Abstract

Apple chlorotic leaf spot virus (ACLSV; genus Trichovirus) is an economically important virus. Approximately 101 ACLSV whole-genome sequences were obtained from NCBI and used to explore the evolutionary dynamics of ACLSV. The time to the most recent common ancestor of ACLSV based on BEAST analysis appeared on an apple host from Canada in 1918 and then spread around the world in three ways concurrent with host spread. The maximum clade credibility tree of ACLSV shows that the mean evolution rate was 4.92 × 10-4 substitutions per site per year (subs/site/year), and we found that, during host evolution, the rate of evolution was mostly 2.31 × 10-4 to 2.72 × 10-4 subs/site/year. The rate of geographic evolution was 5.51 × 10-4 to 6.17 × 10-4 subs/site/year. To further explore the intrinsic changes in ACLSV during the process of geographic and host spread, we explored the secondary structural changes of the ACLSV coat protein (CP), which were mainly concentrated in four regions-20 to 40, 70 to 90, 120 to 140, and 180 to 193-which are related to the presence or absence and change in length of the β-turn, β strand, coil, and α helix, respectively. We then explored the codon usage preference within the CP across the migration pathways of ACLSV. These comprehensive analyses not only reveal the changes in ACLSV in the last 30 years but also further elucidate the intrinsic evolutionary dynamics of ACLSV. This is also the first report on the intrinsic evolutionary dynamics of ACLSV.