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  • Title: Functional specialization within the alpha-subunit of Escherichia coli RNA polymerase.
    Author: Hayward RS, Igarashi K, Ishihama A.
    Journal: J Mol Biol; 1991 Sep 05; 221(1):23-9. PubMed ID: 1920407.
    Abstract:
    The RNA polymerase core enzyme of Escherichia coli has the subunit composition alpha 2 beta beta', and when combined with one of several alternative sigma-subunits (initiation-specificity) produces holoenzyme capable of all the steps of transcription. Dimerization of the alpha-subunit and association with the beta-subunit trigger assembly of the core enzyme. Analyses of a set of deletion derivatives of rpoA (which encodes alpha) have indicated that as many as 94 carboxy-terminal amino acids (but not 153) can be removed without preventing assembly of core-like complexes in vitro. Detailed analyses of these deletion mutants have now been performed in vivo. alpha-Polypeptides truncated from the carboxy terminus to amino acid residues 235, 256 or 296 are assembled not merely into core, but also into holoenzyme-like complexes in vivo, and at least in the first two cases both of the two alpha-subunits can be replaced by the truncated versions. Nevertheless, none can complement rpoAts alleles for growth at 42 degrees C. We conclude that the domain(s) of alpha essential for the assembly of RNA polymerase (at least the major holoenzyme species) are confined to the amino-terminal 235 amino acids, while some other essential function(s) require residues close to the carboxy terminus.
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