Development of New Modular Genetic Tools for Engineering the Halophilic Archaeon Halobacterium salinarum (original) (raw)
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FEMS Microbiology Letters, 2003
We determined the complete nucleotide sequence of the 16 341 bp plasmid pHH205 of the extremely halophilic archaeon Halobacterium salinarum J7. The plasmid has a G+C content of 61.1%. A number of direct and inverted repeat sequences were found in pHH205, while no insertion sequences were found. Thirty-eight large open reading frames (ORFs) were identified in both strands, and most of them had no significant similarities to known proteins. A putative protein encoded by ORF31 showed 20^41% homology to some hypothetical proteins, which are annotated in several archaeal genome databases as predicted nucleic acid-binding proteins containing PIN domain. Sequence analysis using the GC skew procedure predicted a possible origin of replication. A 4.8 kb PvuII^SnaBI fragment containing both this region and ORF31 was shown to be able to restore replicate of pWL102, a replicon-deficient plasmid in Haloferax volcanii and in H. salinarum R1. Several methods failed to completely cure H. salinarum J7 of pHH205, suggesting that the plasmid probably played an important role in the growth and metabolism of the host. Our work describes a novel haloarchaeal replicon, which may be useful in the construction of cloning and shuttle vectors.
Journal of Microbiological Methods, 2014
The model archaeon Halobacterium salinarum ssp. NRC-1 is an excellent system for the study of archaeal molecular biology. Unlike many other archaea, its only special growth requirement is high levels of sodium chloride and other salts; it requires neither high-temperature incubation nor anaerobic environments. Additionally, there are a number of well-developed post-genomic tools available, including whole-genome microarrays and a ura3based gene deletion system. While some tools are available for protein expression, a system for measurement and purification of protein expressed from native promoters is lacking. We have adapted the established H. salinarum gene deletion system for this purpose, and have used this to place 8×-histidine tags on either the carboxyl or amino terminus of the protein encoded by the chromosomal rfa3 gene. To demonstrate the utility of this approach, we used Western blot analysis to determine levels of the Rfa3 protein under different conditions. This system provides another powerful molecular tool for studies of native protein expression and for simple protein purification in H. salinarum.
Molecular Microbiology, 1996
The sequence and spacing requirements of the archaeal 'distal promoter element' (DPE) were examined by randomizing positions-19 to-32 upstream of the transcriptional start site of the ferredoxin (fdx) promoter of Halobacterium salinarium. This randomized promoter library containing 414 entries was cloned in front of the dihydrofolate reductase (DHFR) reporter gene and transformed into Haloferax volcanii. Two approaches were used to characterize these synthetic promoters. First, 1040 independent clones were randomly chosen and their degrees of trimethoprim resistance were determined. The sequences of 20 clones that were either sensitive, partially resistant or very resistant, respectively, were determined. Secondly, the transformed library was screened by direct selection for high-activity promoters by growing transformants in the presence of trimethoprim. Both approaches produced the following consensus sequence for a halobacterial promoter:-32 RGTWWWWRACYGSY-1 9
Journal of Bacteriology, 2003
So far, the extremely halophilic archaeon Haloferax volcanii has the best genetic tools among the archaea. However, the lack of an efficient gene knockout system for this organism has hampered further genetic studies. In this paper we describe the development of pyrE-based positive selection and counterselection systems to generate an efficient gene knockout system. The H. volacanii pyrE1 and pyrE2 genes were isolated, and the pyrE2 gene was shown to code for the physiological enzyme orotate phosphoribosyl transferase. A ΔpyrE2 strain was constructed and used to isolate deletion mutants by the following two steps: (i) integration of a nonreplicative plasmid carrying both the pyrE2 wild-type gene, as a selectable marker, and a cloned chromosomal DNA fragment containing a deletion in the desired gene; and (ii) excision of the integrated plasmid after selection with 5-fluoroorotic acid. Application of this gene knockout system is described.
Plasmid, 1995
Shuttle vectors useful for the genetic manipulation of several moderately halophilic bacteria have been constructed. These vectors are based on the minimal replicon of pCM1, a cryptic plasmid from Chromohalobacter marismortui, combined with the useful properties of pUC18 plasmid (i.e., small size, high copy number, multiple cloning sites, lacZ fragment), as well as with the trimethoprim resistance gene as a selection marker for moderate halophiles. These vectors can be efficiently transferred by RP4-mediated conjugation from Escherichia coli to the moderate halophiles Chromohalobacter marismortui, Deleya halophila, Halomonas elongata, Halomonas subglaciescola, and Volcaniella eurihalina.
Molecular Microbiology, 2002
To facilitate the functional genomic analysis of an archaeon, we have developed a homologous gene replacement strategy for Halobacterium salinarum based on ura3, which encodes the pyrimidine biosynthetic enzyme orotidine-58-monophosphate decarboxylase. H. salinarum was shown to be sensitive to 5-¯uoroorotic acid (5-FOA), which can select for mutations in ura3. A spontaneous 5-FOA-resistant mutant was found to contain an insertion in ura3 and was a uracil auxotroph. Integration of ura3 at the bacterioopsin locus (bop) of this mutant restored 5-FOA sensitivity and uracil prototrophy. Parallel results were obtained with a Dura3 strain constructed by gene replacement and with derivatives of this strain in which ura3 replaced bop. These results show that H. salinarum ura3 encodes functional orotidine-58monophosphate decarboxylase. To demonstrate ura3based gene replacement, a Dbop strain was constructed by transforming a Dura3 host with a bop deletion plasmid containing a mevinolin resistance marker. In one approach, the host contained intact ura3 at the chromosomal bop locus; in another, ura3 was included in the plasmid. Plasmid integrants selected with mevinolin were resolved with 5-FOA, yielding Dbop recombinants at a frequency of > 10 À2 in both approaches. These studies establish an ef®cient new genetic strategy towards the systematic knockout of genes in an archaeon.
Gene Transfer and Expression of Recombinant Proteins in Moderately Halophilic Bacteria
Recombinant Gene Expression, 2004
Moderately halophilic bacteria (MHB) of the genera Halomonas and Chromohalobacter have been used as hosts for the expression of heterologous proteins of biotechnological interest, thus expanding their potential to be used as cell factories for various applications. This chapter deals with the methodology for the construction of recombinant plasmids, their transfer to a number of MHB, and the assaying of the corresponding heterologous proteins activity. The transferred genes include (1) inaZ, encoding the ice nucleation protein of the plant pathogen Pseudomonas syringae, (2) gfp, encoding a green fluorescent protein from the marine bioluminescent jellyfish Aequorea victoria, and (3) the α-amylase gene from the hyperthermophilic archeon Pyrococcus woesei. Vector pHS15, which was designed for expression of heterologous proteins in both E. coli and MHB, was used for the subcloning and transfer of the above genes. The recombinant constructs were introduced to MHB by assisted conjugal transfer from E. coli donors. The expression and function of the recombinant proteins in the MHB transconjugants is described.
Genes
It has been firmly established that organic osmolytes (compatible solutes) of halophilic Bacteria and Archaea have positive effects on conformation and activity of proteins, and may therefore improve their functional production. In particular, the amino acid derivative ectoine is known for its conformational stabilization, aggregation suppression, and radical protection properties. The natural producer and industrial production strain Halomonas elongata accumulates ectoine in the cytoplasm, and as a result offers a unique stabilizing environment for recombinant proteins. For the construction of broad hoast range vector systems with fluorescent reporter proteins, we chose the salt-inducible promoter region of the ectoine gene cluster (promA). A closer inspection of the genetic background revealed that its combination of sigma 38 (σ38) and sigma 70 (σ70) promoters was followed by a weak ribosomal binding site (RBS). This inspired a systematic approach for the construction of a promA-b...
BMC Genetics, 2007
Background Information transfer systems in Archaea, including many components of the DNA replication machinery, are similar to those found in eukaryotes. Functional assignments of archaeal DNA replication genes have been primarily based upon sequence homology and biochemical studies of replisome components, but few genetic studies have been conducted thus far. We have developed a tractable genetic system for knockout analysis of genes in the model halophilic archaeon, Halobacterium sp. NRC-1, and used it to determine which DNA replication genes are essential. Results Using a directed in-frame gene knockout method in Halobacterium sp. NRC-1, we examined nineteen genes predicted to be involved in DNA replication. Preliminary bioinformatic analysis of the large haloarchaeal Orc/Cdc6 family, related to eukaryotic Orc1 and Cdc6, showed five distinct clades of Orc/Cdc6 proteins conserved in all sequenced haloarchaea. Of ten orc/cdc6 genes in Halobacterium sp. NRC-1, only two were found to...