Abstract |
A derivative of the plasmid vector, pET-3a [Rosenberg et al., Gene 56 (1987) 125-135], is described that contains the origin of replication from bacteriophage f1. This plasmid is well-suited for oligodeoxyribonucleotide mutagenesis and controlled production of mutant proteins from a single vector. Its utility is demonstrated by the preparation of a mutational alteration of Thr16----Ala (T16A) of the Escherichia coli transcription termination factor, Rho. The altered protein (T16A Rho) binds oligo(C)7 with the same affinity as wild-type (wt) Rho, thus indicating that Thr16 is not critical for binding cytidine residues in RNA, in spite of its being part of a sequence that is similar to a sequence in the CTP-binding domain of aspartate transcarbamoylase. However, T16A Rho was less efficient in terminating transcription than was wt Rho and had a lowered kcat for ATP hydrolysis with cro RNA as co-factor. Thus, the change affects the coupling of ATP hydrolysis by Rho to actions on RNA that cause termination.
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