Engineering and Characterization of Avian Coronavirus Mutants Expressing Fluorescent Reporter Proteins from the Replicase Gene
Na Xing, Zhisheng Wang, Jichun Wang, Mariana Nascimento, Anan Jongkaewwattana, Jakob Trimpert, Nikolaus Osterrieder, Dušan Kunec
Abstract
Reverse genetics systems based on bacterial artificial chromosomes (BACs) are the most valuable systems in coronavirus research. Here, we describe the establishment of a reverse genetics system for the avian coronavirus strain Beaudette, the most intensively studied strain. We cloned a copy of the avian coronavirus genome into a BAC vector and recovered infectious virus in permissive cells. We used the new system to construct reporter viruses that produce enhanced green fluorescent protein (EGFP). The EGFP coding sequence was inserted into 11 known cleavage sites of the major coronavirus protease in the replicase gene ORF1. Avian coronavirus tolerated the insertion of the EGFP coding sequence at three sites. The engineered reporter viruses replicated with parental efficiency in cultured cells and were sufficiently genetically stable. The new system facilitates functional genomics of the avian coronavirus genome but can also be used for the development of novel vaccines and anticoronaviral drugs.