CORD-19:000b7d1517ceebb34e1e3e817695b6de03e2fa78 JSONTXT 8 Projects

Supplementary Information An eco-epidemiological study of Morbilli-related paramyxovirus infection in Madagascar bats reveals host-switching as the dominant macro-evolutionary mechanism Abstract - Figure S1 : Phylogeny of all sequences belonging to the UMRV phylogroup. - Table S4 : Bats cytochrome b sequences data set. -Table S5 : Test of host-parasite co-evolution using global fit methods ParaFit. Figure S1 . Phylogeny of all sequences belonging to the UMRV phylogroup. A global phylogeny of 308 partial L-gene sequences calculated in 10,000,000 iterations in MrBayes with the GTR + G + I evolutionary model and a 10% burn-in rooted with an Aquaparamyxovirus sequence (GenBank number EF646380). All Malagasy bat paramyxoviruses sequences obtained within this study fell within group of Unclassified Morbillivirus-Related viruses. Genbank accession numbers used for each virus genera are indicated in Table S6 .

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