Nucleic acid synthesis and ribonucleic acid polymerase specificity in germinating and outgrowing spores of Bacillus subtilis.

Abstract

Nucleic acid synthesis was studied during germination and outgrowth of normal spores of Bacillus subtilis, as well as of spores carrying the genome of phage phie. In a system in which development was restricted to the spore-darkening phase, synthesis of ribonucleic acid (RNA), but not deoxyribonucleic acid (DNA), was detected. The extent of RNA synthesis and turnover, during this phase was similar for the two types of spores. In a partially darkened population of spores of either type, there was little RNA degradation, whereas there was considerable turnover in a fully darkened population. The DNA-dependent RNA polymerase of dormant or dark spores was not active in vitro with phi DNA as template, although a sigma-like factor could be separated from the polymerizing activity by zone centrifugation. Within 40 min after resuspension of dark spores in a medium that allows outgrowth, the enzyme acquired the ability to transcribe the phage DNA efficiently. During outgrowth, both normal and carrier spores synthesized DNA, but in carrier spores this DNA was almost entirely phage specific. The pattern of RNA accumulation in normal spores was in two distinct phase (0 to 60 min and 90 to 180 min). The second phase was absent in outgrowing carrier spores. The burst of phage in carrier spores occurred at 160 to 180 min.