Controlling Mechanisms for Expression of the Bacteriophage T4 Beta-Glucosyltransferase Gene

C Thylén

J Gen Virol. 1987 Feb;68 ( Pt 2):253-62.

PMID: 2950203

Abstract:

The plasmid pTHF3047 carries a 2200 bp fragment containing the phage T4 beta-glucosyltransferase (beta gt) gene and part of the upstream gene 42 cloned in pBR313 under the control of the amp promoter P1. In T4-infected cells the beta gt gene may be expressed by a mechanism antagonizing Rho action. The plasmid pTHF3047 expressed about threefold higher beta-glucosyltransferase activity in a strain carrying the polarity-suppressing rho-102 mutation than in an otherwise isogenic rho+ strain, and production of T4 alpha gt- beta gt- phage was strongly stimulated. The plasmid copy number and the total T4-specific transcription was the same in the two strains. Two T4-specific transcripts from the plasmid, 600 bases and 1850 bases, were identified by Northern hybridization. Comparison with the T4 and plasmid maps suggested that both transcripts were initiated at P1, the 600 base transcript ending at the Rho-dependent terminator t42 between gene 42 and beta gt, and the 1850 base transcript reading through this terminator to the end of the beta gt gene. This analysis places t42 at position 25.1 on the T4 map, and a Rho-independent beta gt terminator at position 23.8. The three-fold higher beta gt expression in the rho- strain may be partially accounted for by Rho control of transcription. In the rho+ strain about half of the transcripts stopped at t42, while in the rho- strain readthrough appeared slightly higher. Thus, the t42 terminator was observed also on the plasmid, but appeared considerably less effective there than in the phage DNA in infected cells.

Chemicals Related in the Paper:

Catalog Number	Product Name	Structure	CAS Number	Price
IAR424915	T4 Beta-glucosyltransferase			Price