Expanding the Toolbox of Broad Host-Range Transcriptional Terminators for Proteobacteria through Metagenomics.

As the field of synthetic biology moves toward the utilization of novel bacterial chassis, there is a growing need for biological parts with enhanced performance in a wide number of hosts. Is not unusual that biological parts (such as promoters and terminators), initially characterized in the model bacterium Escherichia coli, do not perform well when implemented in alternative hosts, such as Pseudomonas, therefore limiting the construction of synthetic circuits in industrially relevant bacteria, for instance Pseudomonas putida. In order to address this limitation, we present here the mining of transcriptional terminators through functional metagenomics to identify novel parts with broad host-range activity. Using a GFP-based terminator trap strategy and a broad host-range plasmid, we identified 20 clones with potential terminator activity in P. putida. Further characterization allowed the identification of 4 unique sequences ranging from 58 to 181 bp long that efficiently terminate transcription in P. putida, E. coli, Burkholderia phymatum, and two Pseudomonas strains isolated from Antarctica. Therefore, this work presents a new set of biological parts useful for the engineering of synthetic circuits in Proteobacteria.

Inhibition of cell division induced by external guide sequences (EGS Technology) targeting ftsZ.

EGS (external guide sequence) technology is a promising approach to designing new antibiotics. EGSs are short antisense oligoribonucleotides that induce RNase P-mediated cleavage of a target RNA by forming a precursor tRNA-like complex. The ftsZ mRNA secondary structure was modeled and EGSs complementary to two regions with high probability of being suitable targets were designed. In vitro reactions showed that EGSs targeting these regions bound ftsZ mRNA and elicited RNase P-mediated cleavage of ftsZ mRNA. A recombinant plasmid, pEGSb1, coding for an EGS that targets region "b" under the control of the T7 promoter was generated. Upon introduction of this plasmid into Escherichia coli BL21(DE3)(pLysS) the transformant strain formed filaments when expression of the EGS was induced. Concomitantly, E. coli harboring pEGSb1 showed a modest but significant inhibition of growth when synthesis of the EGSb1 was induced. Our results indicate that EGS technology could be a viable strategy to generate new antimicrobials targeting ftsZ.

Essential regulatory elements for NHE3 gene transcription in renal proximal tubule cells

The objectives of the present study were to identify the cis-elements of the promoter absolutely required for the efficient rat NHE3 gene transcription and to locate positive and negative regulatory elements in the 5’-flanking sequence (5’FS), which might modulate the gene expression in proximal tubules, and to compare this result to those reported for intestinal cell lines. We analyzed the promoter activity of different 5’FS segments of the rat NHE3 gene, in the OKP renal proximal tubule cell line by measuring the activity of the reporter gene luciferase. Because the segment spanning the first 157 bp of 5’FS was the most active it was studied in more detail by sequential deletions, point mutations, and gel shift assays. The essential elements for gene transcription are in the region -85 to -33, where we can identify consensual binding sites for Sp1 and EGR-1, which are relevant to NHE3 gene basal transcription. Although a low level of transcription is still possible when the first 25 bp of the 5’FS are used as promoter, efficient transcription only occurs with 44 bp of 5’FS. There are negative regulatory elements in the segments spanning -1196 to -889 and -467 to -152, and positive enhancers between -889 and -479 bp of 5’FS. Transcription factors in the OKP cell nuclear extract efficiently bound to DNA elements of rat NHE3 promoter as demonstrated by gel shift assays, suggesting a high level of similarity between transcription factors of both species, including Sp1 and EGR-1.

Essential regulatory elements for NHE3 gene transcription in renal proximal tubule cells.

The objectives of the present study were to identify the cis-elements of the promoter absolutely required for the efficient rat NHE3 gene transcription and to locate positive and negative regulatory elements in the 5'-flanking sequence (5'FS), which might modulate the gene expression in proximal tubules, and to compare this result to those reported for intestinal cell lines. We analyzed the promoter activity of different 5'FS segments of the rat NHE3 gene, in the OKP renal proximal tubule cell line by measuring the activity of the reporter gene luciferase. Because the segment spanning the first 157 bp of 5'FS was the most active it was studied in more detail by sequential deletions, point mutations, and gel shift assays. The essential elements for gene transcription are in the region -85 to -33, where we can identify consensual binding sites for Sp1 and EGR-1, which are relevant to NHE3 gene basal transcription. Although a low level of transcription is still possible when the first 25 bp of the 5'FS are used as promoter, efficient transcription only occurs with 44 bp of 5'FS. There are negative regulatory elements in the segments spanning -1196 to -889 and -467 to -152, and positive enhancers between -889 and -479 bp of 5'FS. Transcription factors in the OKP cell nuclear extract efficiently bound to DNA elements of rat NHE3 promoter as demonstrated by gel shift assays, suggesting a high level of similarity between transcription factors of both species, including Sp1 and EGR-1.

A single stem-loop structure in Tacaribe arenavirus intergenic region is essential for transcription termination but is not required for a correct initiation of transcription and replication.

The genome of Tacaribe virus (TV), prototype of the New World arenaviruses, comprises two RNA segments each encoding two proteins in an ambisense orientation separated by an intergenic region (IGR). We used a TV minireplicon system to investigate the nature of the IGR structures required for transcription termination. We show that efficient generation of subgenomic (SG) RNAs is related to a single hairpin structure comprising a stem with variable numbers of uninterrupted base pairs and stabilized by high DeltaG values. The low ability of highly stable hairpin structures comprising bulged stems to support SG RNA synthesis suggested the importance of hairpin configuration for transcription termination. Neither the sequences downstream nor those upstream from the hairpin played a role in SG RNA accumulation. We also show that independently of the IGR structure the unencapsidated mRNAs contained short stretches of nontemplated bases at their 5' ends which are capped, whereas the 5' ends of the nucleocapsid-associated antiminigenomes contained an uncapped extra residue. The results support the conclusions that: (i) transcription termination in TV is related to a structural element that is independent of sequence and (ii) the transcription termination signal is not required for a correct initiation of transcription and replication.

Bothroalternin, a thrombin inhibitor from the venom of Bothrops alternatus.

Bothroalternin (MW 27 kDa), a new member of the family of C-type lectins is a thrombin inhibitor which was purified from pooled B. alternatus venom by affinity chromatography on PPACK-thrombin-Sepharose, followed by size exclusion and reverse-phase on HPLC columns. Material retained on the affinity column contained proteins with apparent molecular weights ranging from 20 to 60 kDa on SDS-PAGE and inhibited aggregation of rabbit platelets induced by alpha-thrombin (IC50 = 28 microg/ml). A single band of approximately 27 kDa was recognized in Western-blot assays using polyclonal antibodies raised against bothrojaracin, a thrombin inhibitor purified from B. jararaca venom (Zingali et al., 1993). The immunological similarity of this fraction to bothrojaracin was confirmed by ELISA and competitive ELISA. Further purification by size exclusion and reverse-phase on HPLC, produced a single homogenous peak called bothroalternin. This protein was highly homologous to bothrojaracin (95% in its N-terminal sequence-for residues 1 to 25) but displaying lower inhibitory effect on thrombin induced platelet aggregation (Ic50 = 0.19 microg/ml) compared to bothrojaracin (IC50 = 0.06). Altogether, bothroalternin is a new thrombin inhibitor isolated from Bothrops alternatus venom and has been characterized as a bothrojaracin-like protein.

Expression of the Brazil nut methionine-rich protein and mutants with increased methionine in transgenic potato.

A cDNA encoding the methionine-rich (19 mol% Met) protein in Brazil nut was placed under the regulation of CaMV 35S promoter and nopaline synthase terminator and introduced into the potato cultivar Russet Burbank via Agrobacterium-mediated transformation. To further enhance the Met content in the transgenic plants, chimeric genes containing four mutant constructs, BoxIa (with 5 additional Met), BoxIIa (2 additional Met), BoxIaIIa (7 additional Met), and BoxIIa2 (7 additional Met), were also generated by sequence modifications of the cDNA and transferred into potato. Analysis of the microtubers and leaves of the transgenic potato plants revealed, in general, with the exception of the BoxIIa2, the presence of mRNA transcripts of the expected size and the correctly processed Met-rich 9 kDa subunit polypeptides. The expression levels in the leaves among the various constructs and individual transgenic plants varied between <0.01% and 0.2% of total protein. The corresponding expression in the tubers was usually 2- to 4-fold lower than in leaves. In the case of BoxIIa2, which contains two tandem repeats of the BoxIIa mutant sequence, a larger (10.5-11 kDa) polypeptide was detected. These findings demonstrated that it is feasible to exploit the variable region of the Brazil Nut 2S protein for enhanced Met contents and perhaps for other desirable properties.

Point mutations in a transcription terminator, lambda tI, that affect both transcription termination and RNA stability.

The terminator tI is located approx. 280 nucleotides beyond the int gene of bacteriophage lambda. Besides its role as a transcription terminator, tI may confer stability to the int message by protecting it from 3' exonucleolytic degradation. In order to study the role of the tI sequence in transcription termination and RNA stability, three different point mutations tI1, tI2, and tI3 were isolated and characterized. All the tI mutations map in the G + C-rich region of dyad symmetry in the terminator and decrease the transcriptional termination of tI in vivo from 99% for the wild type terminator to 81-93% as determined by galactokinase activity and in vitro from 80% for the wild type terminator to 8-12% using the E. coli RNA polymerase. Additionally, the tI mutations cause upstream transcript instability in vivo. This instability defect caused by tI mutations is compensated by the host mutant deficient in polynucleotide phosphorylase resulting in increased steady state levels of these mutant transcripts. The results show that the intact hairpin of tI is essential for efficient transcription termination and for maintaining mRNA stability by blocking the 3' to 5' exonucleolytic activity of polynucleotide phosphorylase.