Subcellular targeting of the coat protein of African cassava mosaic geminivirus.

Abstract

The coat protein (CP) of geminiviruses is involved in a number of processes during the life cycle of the virus. The predominant function is encapsidation of single-stranded DNA and formation of the virus particle to protect viral DNA during transmission. The CP of monopartite geminiviruses is absolutely essential for virus movement, whereas CP mutants of bipartite geminiviruses are able to infect some host plants systemically, indicating an involvement of the CP in host specificity. During the life cycle of geminiviruses, the viral DNA enters the nucleus of the infected cell where virus replication, transcription, and encapsidation occur. For systemic infection, the virus moves cell-to-cell from the site of inoculation to vascular tissue and via phloem to other plant tissues. To move, viral DNA has to shuttle in and out of the nucleus and through plasmodesmata. Parts of the bipartite African cassava mosaic virus (ACMV) CP were fused with green fluorescent protein (GFP) or beta-glucuronidase (GUS). CP domains were identified that mediate both nuclear import and export, as well as targeting of CP-fusion proteins to the cell periphery. These results indicate that domains of the CP facilitate several aspects of geminivirus movement, including nuclear import and export and transport of the viral genome to the cell periphery.