Analysis of the spacial requirements for RNA-protein interactions within the N antitermination complex of bacteriophage lambda.

Abstract

In bacteriophage lambda, formation of a transcriptional antitermination complex consisting of the lambda N protein, nut RNA transcript (boxA-boxB), host factors, and RNA polymerase is mediated by the interaction of the boxB RNA with the RNA-binding domain of N. In order to understand the spacial requirements of this boxB/N interaction within the complex, the effects of changes in the length of the nut site linker, the boxB stem, and the peptide spacer connecting the RNA-binding domain and activation domain of N were examined using a bacterial reporter system. As a result, we found that the requirements for the boxB stem length and N peptide linker length were optimized and strict. In contrast, when the boxB/N interaction was replaced by heterologous RNA/peptide interactions, the strict requirement for the length of the peptide linker and the RNA stem was relaxed, presumably due to the absence of the interaction between boxB/N and the host factor NusA in the wild-type complex. It was also shown that the decrease in activity upon stem lengthening could be partially suppressed by simultaneous lengthening of the RNA spacer, suggesting that a further understanding of the organization of the antitermination complex may provide insights into the engineering of functional ribonucleoprotein complexes.