Isolation of specific ribosome binding sites from single-stranded DNA

Abstract

The ability of Escherichia coli ribosomes to protect small specific regions of single-stranded bacteriophage DNA from digestion by pancreatic DNAase has been investigated. A procedure is described by which ribosome-protected fragments can be isolated from the DNA of bacteriophage f1 and φX174. Size determination by polyacrylamide gel electrophoresis or thin layer homochromatography together with fingerprinting analysis following chemical depurination or digestion with E. coli endonuclease IV were employed to show that these fragments represent a small specific portion of these DNAs. The protection reaction is largely dependent upon components necessary for ribosome binding to mRNA, including GTP, formylmethionyl-tRNA, and initiation factors. Thus, ribosomal binding to DNA mimics the ribosome-mRNA interaction. Furthermore, the regions in f1 and φX174 DNA which are protected differ in sequence from each other. When E. coli endonuclease IV is substituted for pancreatic DNAase in the ribosome protection reaction, a fragment of φX174 DNA is obtained about 150 bases in length which contains all of the pyrimidine tracts in the shorter 50-base fragment obtained with pancreatic DNAase, and a number of additional polypyrimidines. Double-stranded DNAs such as φX174 replicative form do not bind at all to ribosomes in their native state. Heat denaturation of such double-stranded DNAs allows ribosome binding. Protection of the same specific regions as those protected in single-stranded φX174 DNA was observed. A similar specific protection was observed following heat denaturation and ribosome binding with DNA from polyoma virus.