Properties of total and poly(A) RNA from exponentially growing and from resting cultures of Tetrahymena thermophila

Total RNA was extracted from exponentially growing and resting cultures of Tetrahymena thermophila. Poly(A)-containing RNA was separated by oligo(dT) affinity chromatography. The following characteristics of both preparations were studied: the changes in sedimentation profiles of newly made RNAs as a function of time, the length of the poly(A) segment, and the capacity of polyadenylated mRNA to code for proteins in vitro. The time-dependent sedimentation profiles of both kinds of RNA changed strikingly with the modes of growth: poly(A)⁺ RNA from heterodisperse in log phase into uniformly and slowly sedimenting in stationary phase, and total RNA from typical ribosomal into heterodisperse with a maximum in the pre-rRNA region. As revealed by the temperature regime developed by Ihle et al. [1] about 80% of all poly(A) RNA molecules carried a poly(A) stretch of less than 50 nucleotides. There was a tendency of the class 0–20 nucleotides to become more frequent in the stationary phase. The polyadenylated mRNAs were translated in the reticulocyte in vitro system. At least one protein of about 26 000 D was translated only in presence of mRNA of growing cells and not with that from resting cells. Another of 3 500 D was found only with mRNA from resting cultures. Three other proteins were translated with different rates according to the culture growth rate. The results demonstrate that the RNA isolated from different phases of culture growth have different dynamic as well as coding properties related to rate of cell multiplication.