Efficiency of transcription from promoter sequence variants in Lactobacillus is both strain and context dependent

doi:10.1128/JB.181.20.6569-6572.1999

Comparative Study

. 1999 Oct;181(20):6569-72.

doi: 10.1128/JB.181.20.6569-6572.1999.

Efficiency of transcription from promoter sequence variants in Lactobacillus is both strain and context dependent

A McCracken¹, P Timms

Affiliations

PMID: 10515955
PMCID: PMC103800
DOI: 10.1128/JB.181.20.6569-6572.1999

Comparative Study

Efficiency of transcription from promoter sequence variants in Lactobacillus is both strain and context dependent

A McCracken et al. J Bacteriol. 1999 Oct.

. 1999 Oct;181(20):6569-72.

doi: 10.1128/JB.181.20.6569-6572.1999.

Authors

A McCracken¹, P Timms

Affiliation

¹ Centre for Molecular Biotechnology, School of Life Sciences, Queensland University of Technology, Brisbane, Queensland, Australia.

PMID: 10515955
PMCID: PMC103800
DOI: 10.1128/JB.181.20.6569-6572.1999

Abstract

The introduction of consensus -35 (TTGACA) and -10 (TATAAT) hexamers and a TG motif into the Lactobacillus acidophilus ATCC 4356 wild-type slpA promoter resulted in significant improvements (4.3-, 4.1-, and 10.7-fold, respectively) in transcriptional activity in Lactobacillus fermentum BR11. In contrast, the same changes resulted in decreased transcription in Lactobacillus rhamnosus GG. The TG motif was shown to be important in the context of weak -35 and -10 hexamers (L. fermentum BR11) or a consensus -10 hexamer (L. rhamnosus GG). Thus, both strain- and context-dependent effects are critical factors influencing transcription in Lactobacillus.

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Figures

**FIG. 1**
Primer extension analysis of lactobacilli harboring the wild-type *slpA* promoter. Lane 1, *L. rhamnosus* GG; lane 2, *L. fermentum* BR11; lanes C, T, A, and G, sequencing reactions. Transcription was initiated from the start site published for the natural host *L. acidophilus* ATCC 4356 (2), with 4.5-fold-higher efficiency in *L. rhamnosus* GG than in *L. fermentum* BR11.

**FIG. 2**
Northern blot analysis of RNA isolated from *L. fermentum* BR11 (A) and *L. rhamnosus* GG (B) harboring the *slpA* wild-type and derivative promoter constructs. Membranes were hybridized with DIG-labelled *gusA* and 16S rRNA probes as described in Materials and Methods. Lanes 1, pNZslp (wild type); lanes 2, pNZTG; lanes 3, pNZT10; lanes 4, pNZT35; lanes 5, pNZT1035; lanes 6, pNZS10; lanes 7, pNZS35; lanes 8, pNZS1035. Signals were quantified by densitometry and normalized for relative plasmid copy number. The relative transcriptional activities determined are given in Table 1.

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References

1. Barne K A, Bown J A, Busby S J W, Minchin S D. Region 2.5 of the Escherichia coli RNA polymerase ς70 subunit is responsible for the recognition of the ’extended −10’ motif at promoters. EMBO J. 1997;16:4034–4040. - PMC - PubMed
1. Boot H J, Kolen C P A M, Pouwels P H. Identification, cloning, and nucleotide sequence of a silent S-layer protein gene of Lactobacillus acidophilus ATCC 4356 which has extensive similarity with the S-layer protein gene of this species. J Bacteriol. 1995;177:7222–7230. - PMC - PubMed
1. Boot H J, Kolen C P A M, Andreadaki F J, Leer R J, Pouwels P H. The Lactobacillus acidophilus S-layer protein gene expression site comprises two consensus promoter sequences, one of which directs transcription of stable mRNA. J Bacteriol. 1996;178:5388–5394. - PMC - PubMed
1. Borst D W, Betley M J. Promoter analysis of the staphylococcal enterotoxin A gene. J Biol Chem. 1994;269:1883–1888. - PubMed
1. Bujard H, Brunner M, Deuschle U, Kammerer W, Knaus R. Structure-function relationship of Escherichia coli promoters. In: Reznikoff W S, Burgess R R, Dahlberg J E, Gross C A, Record M T Jr, Wickens M P, editors. RNA polymerase and the regulation of transcription. New York, N.Y: Elsevier; 1987. pp. 95–103.

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[1] Barne K A, Bown J A, Busby S J W, Minchin S D. Region 2.5 of the Escherichia coli RNA polymerase ς70 subunit is responsible for the recognition of the ’extended −10’ motif at promoters. EMBO J. 1997;16:4034–4040. - PMC - PubMed

[2] Barne K A, Bown J A, Busby S J W, Minchin S D. Region 2.5 of the Escherichia coli RNA polymerase ς70 subunit is responsible for the recognition of the ’extended −10’ motif at promoters. EMBO J. 1997;16:4034–4040. - PMC - PubMed

[3] Boot H J, Kolen C P A M, Pouwels P H. Identification, cloning, and nucleotide sequence of a silent S-layer protein gene of Lactobacillus acidophilus ATCC 4356 which has extensive similarity with the S-layer protein gene of this species. J Bacteriol. 1995;177:7222–7230. - PMC - PubMed

[4] Boot H J, Kolen C P A M, Pouwels P H. Identification, cloning, and nucleotide sequence of a silent S-layer protein gene of Lactobacillus acidophilus ATCC 4356 which has extensive similarity with the S-layer protein gene of this species. J Bacteriol. 1995;177:7222–7230. - PMC - PubMed

[5] Boot H J, Kolen C P A M, Andreadaki F J, Leer R J, Pouwels P H. The Lactobacillus acidophilus S-layer protein gene expression site comprises two consensus promoter sequences, one of which directs transcription of stable mRNA. J Bacteriol. 1996;178:5388–5394. - PMC - PubMed

[6] Boot H J, Kolen C P A M, Andreadaki F J, Leer R J, Pouwels P H. The Lactobacillus acidophilus S-layer protein gene expression site comprises two consensus promoter sequences, one of which directs transcription of stable mRNA. J Bacteriol. 1996;178:5388–5394. - PMC - PubMed

[7] Borst D W, Betley M J. Promoter analysis of the staphylococcal enterotoxin A gene. J Biol Chem. 1994;269:1883–1888. - PubMed

[8] Borst D W, Betley M J. Promoter analysis of the staphylococcal enterotoxin A gene. J Biol Chem. 1994;269:1883–1888. - PubMed

[9] Bujard H, Brunner M, Deuschle U, Kammerer W, Knaus R. Structure-function relationship of Escherichia coli promoters. In: Reznikoff W S, Burgess R R, Dahlberg J E, Gross C A, Record M T Jr, Wickens M P, editors. RNA polymerase and the regulation of transcription. New York, N.Y: Elsevier; 1987. pp. 95–103.

[10] Bujard H, Brunner M, Deuschle U, Kammerer W, Knaus R. Structure-function relationship of Escherichia coli promoters. In: Reznikoff W S, Burgess R R, Dahlberg J E, Gross C A, Record M T Jr, Wickens M P, editors. RNA polymerase and the regulation of transcription. New York, N.Y: Elsevier; 1987. pp. 95–103.

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Efficiency of transcription from promoter sequence variants in Lactobacillus is both strain and context dependent

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Efficiency of transcription from promoter sequence variants in Lactobacillus is both strain and context dependent

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