Global comparison of multiple-segmented viruses in 12-dimensional genome space

• Our method classifies multiple-segmented viruses globally, quickly and accurately.
• Our method provides model free phylogenetic and taxonomic comparison.
• Our method is not affected by the number or order of segments of viruses.
• Incorporating all segments of viruses improves phylogenetic analysis.
• Our method shows that influenza A (H7N9) viruses are grouped geographically.

We have recently developed a computational approach in a vector space for genome-based virus classification. This approach, called the “Natural Vector (NV) representation”, which is an alignment-free method, allows us to classify single-segmented viruses with high speed and accuracy. For multiple-segmented viruses, typically phylogenetic trees of each segment are reconstructed for discovering viral phylogeny. Consensus tree methods may be used to combine the phylogenetic trees based on different segments. However, consensus tree methods were not developed for instances where the viruses have different numbers of segments or where their segments do not match well. We propose a novel approach for comparing multiple-segmented viruses globally, even in cases where viruses contain different numbers of segments. Using our method, each virus is represented by a set of vectors in R12. The Hausdorff distance is then used to compare different sets of vectors. Phylogenetic trees can be reconstructed based on this distance. The proposed method is used for predicting classification labels of viruses with n-segments (n ⩾ 1). The correctness rates of our predictions based on cross-validation are as high as 96.5%, 95.4%, 99.7%, and 95.6% for Baltimore class, family, subfamily, and genus, respectively, which are comparable to the rates for single-segmented viruses only. Our method is not affected by the number or order of segments. We also demonstrate that the natural graphical representation based on the Hausdorff distance is more reasonable than the consensus tree for a recent public health threat, the influenza A (H7N9) viruses.

Figure optionsDownload as PowerPoint slide