Cell-free synthesis of the branched RNA-linked msDNA from retron-Ec67 of Escherichia coli.

M.Y Hsu,S.G Eagle,M Inouye,S Inouye

doi:10.1016/s0021-9258(19)49642-7

Abstract

msDNA-Ec67 is produced in a clinical strain of Escherichia coli and composed of a 67-base single-stranded DNA, which is linked to the 2'-OH group of the 15th rG residue of a 58-base RNA molecule by a 2',5'-phosphodiester linkage (Lampson, B. C., Sun, J., Hsu, M.-Y., Vallejo-Ramirez, J., Inouye, S., and Inouye, M. (1989) Science 243, 1033-1038). The production of msDNA-Ec67 is dependent upon retron-Ec67, which consists of the msr-msd region and the gene for reverse transcriptase (RT). These two elements were separately cloned into plasmids; p67-BHO.6 contained the msr-msd region and pRT-67 contained the RT gene under the lpp-lac promoter-operator. msDNA-Ec67 was produced only when cells were transformed with both plasmids. In addition, msDNA-Ec67 was synthesized in a cell-free system using total RNA prepared from cells harboring plasmid p67-BHO.6 and purified Ec67-RT. Using this cell-free system, the priming reaction, during initiation of DNA synthesis, was demonstrated to be a specific template-directed event; only dTTP was incorporated into a 132-base precursor RNA yielding a 133-base compound. This specific dT addition could be altered to dA or dC by simply substituting the 118th A residue of the putative msr-msd transcript with a T or G residue. The priming reaction was blocked when A was substituted for G at the 15th residue of the precursor RNA transcript, which corresponds to the branched rG residue in msDNA. DNA chain elongation could be terminated by adding ddNTP in the cell-free system, forming a sequence ladder. The DNA sequence determined from this ladder completely agreed with the msDNA sequence. The RT extension reaction was completely blocked when the RNA preparation was treated with RNase A but not when the preparation was treated with DNase. This clearly demonstrates that RNA but not DNA is responsible for the msDNA production. A part of the fully extended cell-free product contained a 13-base RNA strand resistant to RNase A, which is consistent with the previously proposed model. In this model, the 5'-end sequence of the msr-msd transcript (a2; bases 1-13) forms a duplex with the 3'-end sequence (a1) of the same transcript, thus serving as a primer, as well as a template for msDNA synthesis by RT. Our results are inconsistent with a model recently proposed by Lease and Yee (Lease, R. A., and Yee, T. (1991) J. Biol. Chem. 266, 14497-14503).

Highlights

MsDNA-Ec67 is produced in a clinicalstrain of Esch- msDNA is a peculiar single-stranded DNA produced in erichia coli and composed of a 67-base single-stranded myxobacteria and in aminor population of natural isolates of DNA, which is linked to the 2’-OH group of the 16th Escherichia coli (see Inouye and Inouye (1991a, 1991b) for rG residue of a58-base RNA molecule by a 2’,6’- reviews)
Using this cell-free system, the primingre- Three different retrons have been identified in E. coli; RadocTnNtsTiAtorPnawy,tieaeddsluidtnrioincnogbgreapaion1srip3atiet3aec-tdibifioainncsteootcfeoDmmNppAlaoautesn1-yd3dn.2itrT-hebehcastiseisseds,ppwreeevaccseiufnridctse;odmroT-nlyMr1e9ta9rao1sn),.-m1E9cs86D97N)(,ALanasmdprproestdorunocnee-dEt cfar7lo.3,m1(I9tnh8oe9usbye)e,rreeetttrraooln.n,s-1Ea9rc9e816e;xS(tLueninmseitvaeanlld.y, addition could be altered todA or dC by substi- diverged, sharing no sequence homologies in either DNA or tuting the 118th A residue of the putative msr-msd RNA structures. msDNA-Ec67 produced by retron-Ec67 contranscript witha T or G residue
The 615-base pair BamHI-Hind111 was isolated. This fragment consists of the msr-msd region with its own promoter and a5'-endportion of the reverse trantranscriptase (RT) gene, which was

Summary

Introduction

MsDNA-Ec67 is produced in a clinicalstrain of Esch- msDNA is a peculiar single-stranded DNA produced in erichia coli and composed of a 67-base single-stranded myxobacteria and in aminor population of natural isolates of DNA, which is linked to the 2’-OH group of the 16th Escherichia coli (see Inouye and Inouye (1991a, 1991b) for rG residue of a58-base RNA molecule by a 2’,6’- reviews). In theproposed model for msDNA synthesis (Dhundaleet al., 1987;Lampson et al, 1989a),the primary transcript from the msr-msd region functions as a precursor by forming a stable cloned intothe BamHI-Hind111 sites of pSP65

Results

Conclusion