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  • Title: Transcriptional antitermination activity of the synthetic nut elements of coliphage lambda. I. Assembly of the nutR recognition site from boxA and nut core elements.
    Author: Brown AL, Szybalski W.
    Journal: Gene; 1985; 39(2-3):121-7. PubMed ID: 3005108.
    Abstract:
    An active nutR antiterminator was reconstructed from two synthetic modules, one containing the 8-bp boxA (5'-CGCTCTTA) and the other the 17-bp nutR core (5'-AGCCCTGAAAAAGGGCA) sequence. The modules were synthesized with HindIII cohesive ends, which upon annealing and ligation created an 8-bp spacer (5'-CAAAGCTT) between the boxA and nutR core. The 8-bp length was the same as in the native nutR (5'-CACATTCC), but the sequence showed less than 38% homology. The antitermination mediated by the synthetic nutR, was 68-80% efficient when tested in the pp-nutR-N-tL1-galK expression plasmid, analogous to that used by Drahos and Szybalski [Gene, 16 (1981) 261-274]. The cloned boxA by itself has no activity, while the nutR core alone shows only marginal (5-10%) antiterminator function. Increasing the distance between boxA and the nutR core from 8 bp to 20-28 bp, i.e., by one to two turns of the DNA helix (about 10 bp per turn), has little effect on the antiterminator function, whereas use of spacers with length about halfway between 8 and 20 bp results in reduced antitermination. It appears that both the sequences and spacial arrangement of the boxA and nut elements are important for efficient antiterminator function.
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