Temperature-sensitive mutant rho-115 rho-RNA binary complexes, and stabilization by substrates and analogues |
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Authors: | R B Kent S K Guterman |
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Institution: | (1) Biological Science Center, Boston University, 2 Cummington Street, 02215 Boston, MA, USA |
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Abstract: | Summary To determine the molecular basis for the temperature-sensitivity of pure rho RNA-dependent ATPase from Escherichia coli mutant rho-115 cells, we investigated mutant rho binding to 3H] polyC as measured by retention on nitrocellulose filters. Complexes of wild-type rho and polyC incubated at 37°C and 45°C were similarly stable. At 37°C mutant rho-polyC binary complexes were inactivated at a slightly faster rate than complexes with wild-type rho. Upon shift to 45°C the quantity of rho-115 bound to polyC declined immediately, resulting in one-fifth of the quantity of complexes observed at 37°C. Shift back to 37°C restored the level of observed complexes by two-fold. The inclusion of ATP or the analogue - methylene ATP during 45°C incubation resulted in stable mutant rho-polyC complexes. The hydrolysis product ADP was also effective in stabilizing binary complexes at 45°C but this effect was observed with an order of magnitude more ADP than ATP. Adenine, adenosine, AMP or Pi had no stabilizing effect. We conclude that the mutant rho-115 protein exhibits a structural instability as a result of binding RNA. Furthermore ATP confers a wild-type phenotype upon rho-115 protein, probably as a result of conformational change due to binding of this compound. The effect of ATP on the stability of mutant rho-polyC binary complexes supports the model of ATP modulation of rho-RNA interaction proposed by Galluppi and Richardson (1980). |
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