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Lyssaviruses, the causative agents of rabies, are a long-known threat for animals and humans. To date, terrestrial rabies still accounts for tens of thousands of human deaths annually, notwithstanding ambitious vaccination campaigns targeting susceptible dog and wildlife populations that act as reservoirs for the prototypic rabies virus. Moreover, the continuing discovery of newly emerging virus species in hitherto unconcerned chiropteran hosts and geographic regions drive the expansion of the Lyssavirus genus by unveiling its actual variety, host range and distribution.In this work, the genetic diversity of three distinct lyssaviruses, namely EBLV-1, KBLV and RABV, was elucidated by in-depth genomic analyses to provide further insight into lyssavirus evolution. The generation of full-genome sequences from primarily bat-associated Danish EBLV-1 samples significantly increased the number of available Danish EBLV-1 genome sequences while phylogenetic and phylogeographic analysis revealed a stronger phylogeographic structure for the cluster A1 of the sublineage EBLV-1a than it was postulated in previous studies. In addition, the acquisition of a nearly complete genome sequence for the Kotalahti bat lyssavirus provided the basis for the classification of this putative new lyssavirus species as a recognized member of the genus. Furthermore, phylogenetic analysis revealed the affiliation of KBLV to a group of Myotis-associated lyssaviruses giving a deeper insight into the shared evolutionary history of lyssaviruses co-evolving with particular bat species. Moreover, a deep-sequencing approach was utilized to assess the high genetic diversity of vaccine virus populations, uncovering three independent patterns of single nucleotide variants (SNVs) that became selected in ERA-related vaccine-induced cases. However, no apparent influence of the genetic diversity of vaccine viruses on microevolutionary processes like a potential reversion to virulence or a species-specific adaptation of the vaccine virus strains could be detected, leaving the question for the cause of rabies induction in the affected animals unanswered. Lastly, the successful implementation of a hybridization capturing system for the generation of full-genome sequences and deep-sequencing variant analyses of RABV and KBLV samples was demonstrated for a diagnostic bait set, highlighting the versatility and consistency of this approach to assess the genetic spectrum of known and novel lyssavirus species while setting the basis for its application and optimization in upcoming projects.In conclusion, as shown by the studies in this work, the investigation of lyssavirus genomes at the sub-consensus, full-genome and population level remains crucial to assess the complexity of lyssavirus evolution, as it provides an indispensable source of information to cover the diversity of the genus and understand evolutionary dynamics on a long-term and microevolutionary scale.