Stability of Ribosomes and Ribosomal Ribonucleic Acid from Bacillus stearothermophilus1

AUTOR(ES)

Friedman, S. Marvin

RESUMO

After heating at 65 C, ribosomes isolated from Bacillus stearothermophilus were strikingly more heat-stable than comparable preparations from Escherichia coli when tested for ability to support polyuridylic acid-directed phenylalanine incorporation at 37 C. The stability of ribosomes was also determined by measurements of hyperchromicity at 259 mμ while heating them from 25 to 90 C. In standard buffer containing 0.01 m Mg++, the Tm (temperature at the midpoint of total hyperchromicity) of E. coli and B. stearothermophilus ribosomes was 71 and 81 C, respectively. In a magnesium-free buffer, the Tm of E. coli and B. stearothermophilus ribosomes was 44 and 64 C, respectively. Putrescine (0.01 m) was more effective in stabilizing ribosomes from B. stearothermophilus than those from E. coli. Spermidine (0.001 m), on the other hand, was more effective in stabilizing ribosomes from E. coli than those from B. stearothermophilus. Melting curves of total ribosomal ribonucleic acid (rRNA) from E. coli and B. stearothermophilus revealed Tm values of 50 and 60 C, respectively. Putrescine stabilized thermophile rRNA, but had no effect on E. coli rRNA. Sucrose density gradients demonstrated that thermophile 23S ribonucleic acid was degraded during storage at −20 C; the 23S component from E. coli was stable under these conditions. The results are discussed in terms of the mechanism of ribosome heat stability and the role of the ribosome in governing the temperature limits for bacterial growth.

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