Transcription termination: sequence and function of the rho-independent tL3 terminator in the major leftward operon of bacteriophage lambda

For cloning, assaying the function and sequencing terminators, we have constructed the pD12 plasmid, in which the late promotor p'R of phage lambda controls the expression of the galK gene of the pK03 plasmid of McKenney et al. (1981). The lambda tL3 terminator region was cloned in this plasmid between the promoter and the galK gene, and found to be 90-94% effective in preventing galactokinase expression in both rho+ and rho- hosts. Is is also active in vitro, both in the presence or absence of the rho factor. The termination point is located at 4320 bp to the left of the SL startpoint of the PL-RNA, just downstream of gene exo. We have sequenced 356 bp of the hitherto uncharted lambda DNA to the right of the TaqI cut, which in turn is 110 bp to the right of the b522 deletion at 63.9% lambda. The tL3 terminator has several features common to other rho-independent termination sequences, including an 81% G+C-rich region of 2X8-bp symmetry ("stem") with a 5-bp intervening "loop", partially overlapping and followed by a sequence transcribed into the pyrimidine-rich CCUUUCU-OH 3' terminus of the RNA. The termination point that follows the last U was determined by the S1 mapping technique.     

The role of Zn(II) in transcription by T7 RNA polymerase

Homogeneous T7 RNA polymerase contains from 2–4 gm atoms of zinc per mole of M.W. 107,000. Inactivated molecules which can be separated from the active molecules by repeated chromatography contain less zinc, from 0.4 to 1 gm at per mole. Instability of the enzyme makes it difficult to relate maximal activity to a specific stoichiometry of Zn. The enzyme is inhibited by 1,10-phenanthroline, EDTA, CN^?, SH^?, N₃^? and by incubation with Chelex resin. Zinc is retained on gel filtration, but can be removed by dialysis for 96 hr against 5 mM 1,10-phenanthroline which totally inactivates the enzyme. Catalytic activity requires the presence of thiol reagents. Preparations with low activity can be activated by exogenous Zn ions.     

Nucleotide sequence of the cloned gene for bacteriophage T7 RNA polymerase

The coding sequence of the gene for bacteriophage T7 RNA polymerase has been cloned into the PstI site of plasmid pBR322. This cloned DNA extends from T7 nucleotide (Dunn & Studier, 1981) 3127 to 5821 or T7 coordinate 7.82 to 14.55. The nucleotide sequence is given, as well as the predicted amino acid sequence of T7 RNA polymerase. This peptide sequence is comprised of 883 amino acid residues with a total molecular weight of 98,092.