Pornpimon Kiatpapan

Characterization of pRGO1, a Plasmid from Propionibacterium acidipropionici, and Its Use for Development of a Host-Vector System in Propionibacteria

ABSTRACT The complete nucleotide sequence of pRGO1, a cryptic plasmid fromPropionibacterium acidipropionici E214, was determined. pRGO1 is 6,868 bp long, and its G+C content is 65.0%. Frame analysis of the sequence revealed six open reading frames, which were designated Orf1 to Orf6. The deduced amino acid sequences of Orf1 and Orf2 showed extensive similarities to an initiator of plasmid replication, the Rep protein, of various plasmids of gram-positive bacteria. The amino acid sequence of the putative translation product of orf3 exhibited a high degree of similarity to the amino acid sequences of DNA invertase in several bacteria. For the putative translation products of orf4,orf5, and orf6, on the other hand, no homologous sequences were found. The function of these open reading frames was studied by deletion analysis. A shuttle vector, pPK705, was constructed for shuttling between Escherichia coli and a Propionibacterium strain containingorf1 (repA), orf2(repB), orf5, and orf6 from pRGO1, pUC18, and the hygromycin B-resistant gene as a drug marker. Shuttle vector pPK705 successfully transformed Propionibacterium freudenreichii subsp. shermanii IFO12426 by electroporation at an efficiency of 8 × 106 CFU/μg of DNA under optimized conditions. Transformation of various species of propionibacteria with pPK705 was also performed at efficiencies of about 104 to 107 CFU/μg of DNA. The vector was stably maintained in strains of P. freudenreichiisubsp. shermanii, P. freudenreichii, P. pentosaceum, and P. freudenreichii subsp.freudenreichii grown under nonselective conditions. Successful manipulation of a host-vector system in propionibacteria should facilitate genetic studies and lead to creation of genes that are useful industrially.

Genetic Manipulation System in Propionibacteria

Members of the genus Propionibacterium are widely used in the production of vitamin B12, tetrapyrrole compounds, and propionic acid as well as in probiotic and cheese industries. Shuttle vectors were developed in propionibacteria using replicons from endogenous plasmids in Propionibacterium and Escherichia coli and an appropriate selection marker. The efficient transformation was achieved using the shuttle vector prepared from Propionibacterium freudenreichii to overcome the high restriction modification system in propionibacteria. Expression vectors with native promoters for use in propionibacteria were also developed. Using this system, cholesterol oxidase, which is used as a diagnostic enzyme, was produced in P. freudenreichii. Genes involved in 5-aminolevulinic acid (ALA) and vitamin B12 biosynthesis in propionibacteria were isolated. ALA in propionibacteria could be synthesized via both the C4 pathway (condensation of glycine and succinyl CoA) and the C5 pathway (from glutamate). The hemA gene encoding ALA synthase from Rhodobacter spheroides, was overexpressed and ALA accumulated in P. freudenreichii. Thus, the genetic manipulation systems in propionibacteria will facilitate genetic studies of probiotics and the vitamin B12 biosynthetic pathway.

Heterologous expression of a gene encoding cholesterol oxidase in probiotic strains of Lactobacillus plantarum and Propionibacterium freudenreichii under the control of native promoters

To develop systems for the expression of heterologous genes in probiotic strains of Lactobacillus and Propionibacterium, we used Lactobacillus plantarum and Propionibacterium freudenreichii and a modified gene encoding cholesterol oxidase (choA) from Streptomyces sp. to generate working models. The acetyl coenzyme A carboxylase (acc) promoter derived from the acc operon of L. plantarum L137 and a previously constructed shuttle vector, pRN14, were used to construct vectors for the expression of heterologous genes in lactic acid bacteria. The concentration of cholesterol oxidase in recombinant L. plantarum carrying choA fused to the NH2-terminal region of the first open reading frame of the acc operon was 3.6 mU/mg of protein. Using the promoters from Propionibacterium, namely, P4, P8, and P138, which enabled high-level expression of choA in Escherichia coli, and a previously constructed shuttle vector pPK705, we constructed expression vectors for Propionibacterium. In recombinant P. freudenreichii subsp. shermanii IFO12426, the activities of cholesterol oxidase generated under the control of promoters P4, P8, and P138 were 1.6, 4.3, and 7.2 U/mg of protein, respectively. The expression of heterologous genes may facilitate the production of useful proteins in these economically important bacteria.

Development of a host-vector system for Lactobacillus plantarum L137 isolated from a traditional fermented food produced in the Philippines.

Lactobacillus plantarum NC13, a strain derived from the L. plantarum strain L137 isolated from a traditional fermented food produced in the Philippines, contains 9 of the 15 plasmids in the parental strain. To construct a shuttle vector between L. plantarum and Escherichia coli for genetic manipulation of L137 and its derivatives, recombinant plasmids were prepared by using the 9-plasmid DNA mixture and an E. coli vector, pBluescript II SK+. The resultant recombinant plasmids were re-transferred to L. plantarum NCL21, an NC13-derived strain cured of 3 of the 9 plasmids, and 3 recombinant plasmids were obtained. The smallest plasmid, pRN14, contained a small cryptic plasmid, pLTK2, which is one of the plasmids in L. plantarum L137. Thus, the complete nucleotide sequence of pLTK2 was determined. The pLTK2 is 2295 bp in length, and has a major open reading frame of 951 bp. An encoded sequence of 317-amino acids showed extensive similarity with genes encoding replication protein (repA). A putative replication origin in pLTK2 also showed high homology to those of other gram-positive bacterial plasmids that replicate by the rolling circle mechanism. The shuttle vector pRN14 contained the erythromycin resistance gene and the ColE1 and pLTK2 replication origins. Transformation of L. plantarum strains with pRN14 by electroporation was optimized to give a transformation efficiency of 2 x 10(4) transformants/ mug plasmid. Plasmid pRN14 was stably maintained in strain NCL21, as well as in L. casei K95-5.

Molecular Characterization of Lactobacillus plantarum Genes for β-Ketoacyl-Acyl Carrier Protein Synthase III (fabH) and Acetyl Coenzyme A Carboxylase (accBCDA), Which Are Essential for Fatty Acid Biosynthesis

ABSTRACT Genes for subunits of acetyl coenzyme A carboxylase (ACC), which is the enzyme that catalyzes the first step in the synthesis of fatty acids in Lactobacillus plantarum L137, were cloned and characterized. We identified six potential open reading frames, namely,manB, fabH, accB, accC,accD, and accA, in that order. Nucleotide sequence analysis suggested that fabH encoded β-ketoacyl-acyl carrier protein synthase III, that theaccB, accC, accD, andaccA genes encoded biotin carboxyl carrier protein, biotin carboxylase, and the β and α subunits of carboxyltransferase, respectively, and that these genes were clustered. The organization ofacc genes was different from that reported forEscherichia coli, for Bacillus subtilis, and for Pseudomonas aeruginosa. E. coli accB andaccD mutations were complemented by the L. plantarum accB and accD genes, respectively. The predicted products of all five genes were confirmed by using the T7 expression system in E. coli. The gene product of accB was biotinylated in E. coli. Northern and primer extension analyses demonstrated that the five genes in L. plantarumwere regulated polycistronically in an acc operon.

Molecular analysis of promoter elements from Propionibacterium freudenreichii.

Propionibacterium freudenreichii is a commercially important microorganism that is used in the production of cheeses, cobalamin (vitamin B(12)), and propionic acid. Although a host-vector system in propionibacteria has been developed, there is little information available on the genetic background of the bacteria. To obtain genetic information to facilitate genetic engineering in propionibacteria, we cloned promoter regions from P. freudenreichii using Escherichia coli as a host at the first screening and a promoter-probe vector, pCVE1, which consists of the cholesterol oxidase (choA) gene from Streptomyces sp. as a reporter gene. Finally, nine clones with strong promoter activities in P. freudenreichii were screened by monitoring the choA gene expression and determining if the nucleotide sequences of the cloned DNA fragment were aligned. The initiation sites of these transcripts were determined by primer extension analysis. The putative consensus sequences corresponding to a -35 and -10 hexamer were found to be specific for P. freudenreichii, but not E. coli or other bacteria. Moreover, a new consensus heptamerous sequence between the -35 and -10 regions, termed the -16 region, was also found. It is possible that the putative consensus heptamer is functional and essential to promoter activity in P. freudenreichii. These results should provide new opportunities for controlled gene expression in P. freudenreichii.

Effects of Expression of hemA and hemB Genes on Production of Porphyrin in Propionibacterium freudenreichii

ABSTRACT The genus Propionibacterium has a wide range of probiotic activities that are exploited in dairy and fermentation systems such as cheeses, propionic acid, and tetrapyrrole compounds. In order to improve production of tetrapyrrole compounds, we expressed the hemA gene, which encodes δ-aminolevulinic acid (ALA) synthase from Rhodobacter sphaeroides, and the hemB gene, which encodes porphobilinogen (PBG) synthase from Propionibacterium freudenreichii subsp. shermanii IFO12424, either monocistronically or polycistronically in strain IFO12426. The recombinant strains accumulated larger amounts of ALA and PBG, with resultant 28- to 33-fold-higher production of porphyrinogens, such as uroporphyrinogen and coproporphyrinogen, than those observed in strain IFO12426, which harbored the shuttle vector pPK705.

Production of 5-aminolevulinic acid by Propionibacterium acidipropionici TISTR442.

Propionibacterium acidipropionici TISTR442 produced the highest amount of 5-aminolevulinic acid (ALA) when cultivated in medium supplemented with glycine at 18g/l. ALA production correlated with ALA synthase activity, whereas ALA dehydratase activity was maintained at a low level. ALA yield reached 405mg/l after prolonged cultivation for 1 month.