In vitro genetic selection analysis of alfalfa mosaic virus coat protein binding to 3'-terminal AUGC repeats in the viral RNAs.

Abstract

The coat proteins of alfalfa mosaic virus (AMV) and the related ilarviruses bind specifically to the 3' untranslated regions of the viral RNAs, which contain conserved repeats of the tetranucleotide sequence AUGC. The purpose of this study was to develop a more detailed understanding of RNA sequence and/or structural determinants required for coat protein binding by characterizing the role of the AUGC repeats. Starting with a complex pool of 39-nucleotide RNA molecules containing random substitutions in the AUGC repeats, in vitro genetic selection was used to identify RNAs that bound coat protein. After six iterative rounds of selection, amplification, and reselection, 25% of the RNAs selected from the randomized pool were wild type; that is, they contained all four AUGC sequences. Among the 31 clones analyzed, AUGC was clearly the preferred selected sequence at the four repeats, but some nucleotide sequence variability was observed at AUGC(865-868) if the other three AUGC repeats were present. Variant RNAs that bound coat protein with affinities equal to or greater than that of the wild-type molecule were not selected. To extend the in vitro selection results, RNAs containing specific nucleotide substitutions were transcribed in vitro and tested in coat protein and peptide binding assays. The data strongly suggest that the AUGC repeats provide sequence-specific determinants and contribute to a structural platform for specific coat protein binding. Coat protein may function in maintaining the 3' ends of the genomic RNAs during replication by stabilizing an RNA structure that defines the 3' terminus as the initiation site for minus-strand synthesis.