The plasmid pJB01, a member of the pMV158 family isolated from Enterococcus faecium JC1, contains three open reading frames, copA, repB, and repC. Plasmids included in this family produce counter-transcribed RNA (ctRNA) that contributes to copy number control. The pJB01 ctRNA, a transcript which consists of 54 nucleotides (nts), is encoded on the opposite strand from the copA/repB intergenic region and partially overlaps an atypical ribosome binding site (ARBS) for repB. The ARBS is integrated by the two underlined conserved regions: 5-TTTTTGTNNNNTAANNNNN NNNNATG-3, and the ctRNA is complementary only to the 5 conserved sequence 5-TTTTTGT-3. This complementary sequence is located at a distance from the terminal loop of the ctRNA secondary structure. The ctRNA structure predicted by the mfold program suggests the possible generation of a terminal and an internal hairpin loop. The amount of in vitro translation product of repB mRNA was inversely proportional to the ctRNA concentration. Mutations in the terminal and internal hairpin loops of the ctRNA had inhibitory effects on its binding to the target mRNA. We propose that the intact structures of the terminal and internal hairpin loops, respectively, play important roles in forming the initial kissing and extending complexes between the ctRNA and target mRNA and that these regulate the copy number of this plasmid.

1 Novick, R.P., "pT181 plasmid replication is regulated by a countertranscript driven transcriptional attenuator" 59 : 395-404, 1989

2 del Solar, G., "in vitro analysis of the terminator T (II) of the inhibitor antisense ma II gene from plasmid pMV158" 45 : 75-87, 2001

3 Gomis-Ruth, F.X., "The structure of plasmid-encoded transcriptional repressor CopG unliganded and bound to its operator" 17 : 7404-7415, 1998

4 Koepsel, R.R., "The replication initiator protein of plasmid pT181 has sequence-specific endonuclease and topoisomerase-like activities" 82 : 6845-6849, 1985

5 del Solar, G., "The copy number of plasmid pLS1 is regulated by two trans-acting plasmid products: the antisense RNAII and the repressor protein, RepA" 6 : 83-94, 1992

6 Kim, S.W., "Role of RepB in the replication of plasmid pJB01 isolated from Enterococcus faecium JC1" 55 : 99-113, 2006

7 del Solar, G., "Replication control of plasmid pLS1: the antisense RNAII and the compact mall region are involved in translational regulation of the initiator RepB synthesis" 23 : 95-108, 1997

8 del Solar, G., "Replication control of plasmid pLS1: efficient regulation of plasmid copy number is exerted by the combined action of two plasmid components, CopG and RNAII" 18 : 913-924, 1995

9 Kwak, J.-H., "Regulation of plasmid pE194 replication: control of cop-repF operon transcription by Cop and of repF translation by countertranscript RNA" 176 : 5044-5051, 1994

10 O’sullivan, D.J., "Rapid mini-prep isolation of high-quality plasmid DNA from Lactococcus and lactobacilus spp" 59 : 2730-2733, 1993

11 del Solar, G.H., "Purification and characterization of RepA, a protein involved in the copy number control of plasmid pLS1" 17 : 2405-2420, 1989

12 d’Aubenton-Carafa, Y., "Prediction of Rho-independent Escherichia coli transcription terminators. A statistical analysis of their RNA stem-loop structures" 216 : 835-858, 1990

13 Gutell, R.R., "Predicting U-turns in ribosomal RNA with comparative sequence analysis" 300 : 791-803, 2000

14 Costa, M., "Plasmid transcriptional repressor CopG oligomerises to render helical superstructures unbound and in complexes with oligonucleotides" 310 : 403-417, 2001

15 Kumar, C.C., "Plasmid pT181 replication is regulated by two countertranscripts" 82 : 638-642, 1985

16 Novick,R.P., "Plasmid incompatibility" 51 : 381-395, 1987

17 Mcpherson, M.J., "PCR, A Practical Approach" IRL Press 207-209, 1993

18 Sambrook, J., "Molecular cloning, a laboratory manual" Cold Spring Harbor 25-28, 1989

19 Zuker,M., "Mfold web server for nucleic acid folding and hybridization prediction" 31 : 1-10, 2003

20 Nordstrom, K., "Mechanisms that contribute to the stable segregation of plasmids" 23 : 37-69, 1989

21 Thisted, T., "Mechanism of post-segregational killing: Sok antisense RNA interacts with hok mRNA via its 5′-end singlestranded leader and competes with the 3′-end of hok mRNA for binding to the mok translational initiation region" 13 : 1960-1968, 1994

22 Bargonetti, J., "Measurement of gene expression by translational coupling: effect of copy mutations on pT181 initiator synthesis" 12 : 3659-3667, 1993

23 Kittle, J.D., "Insertion sequence ISNM anti-sense pairing initiates by an interaction between the 5′ end of the target RNA and a loop in the antisense RNA" 210 : 561-572, 1989

24 Dunny, G.M., "Improved electroporation and cloning vector system for Gram-positive bacteria" 57 : 1194-1201, 1991

25 Mathews, D.H., "Expanded sequence dependence of thermodynamic parameters improves prediction of RNA secondary structure" 288 : 911-940, 1999

26 Dong-Kwon Rhee, "Differential Regulation of the Genes of the Streptococcus pneumoniae dnaK Operon by Ca++" 한국분자세포생물학회 23 (23): 239-245, 2007

27 Khan, A.A., "Detection and characterization of erythromycin-resistant methylase genes in Gram-positive bacteria isolated from poultry litter" 59 : 377-381, 2002

28 Nordstrom,K., "Control of plasmid replication" 9 : 1-7, 1983

29 Carleton, S., "Control of pT181 replication II. Mutational analysis" 3 : 2407-2414, 1984

30 van der Vossen, J.M., "Construction of cloning, promoter-screening, and terminator-screening shuttle vectors for _Bacillus subtilis and Streptococcus lactis" 50 : 540-542, 1985

31 Bensing, B.A., "Cloning and molecular analysis of genes affecting expression of binding substance, the recipient-encoded receptor(s) mediating mating aggregate formation in Enterrococcus faecalis" 175 : 7421-7429, 1993

32 Kolb, F.A., "Bulged residues promote the progression of a loop-loop interaction to a stable and inhibitory antisense-target RNA complex" 29 : 3145-3153, 2001

33 Franch, T., "Antisense RNA regulation in prokaryotes: Rapid RNA/RNA interaction facilitated by a general U-turn loop structure" 294 : 1115-1125, 1999

34 Brantl, S., "Antisense RNA mediated transcriptional attenuation: an in vitro study of plasmid pT181" 35 : 1469-1482, 2000

35 Brantl, S., "An antisense RNAmediated transcriptional attenuation mechanism functions in E.coli" 184 : 2740-2747, 2002