Genomic structure and promoter analysis of the dsz operon for dibenzothiophene biodesulfurization from Gordonia alkanivorans RIPI90A

The bacterium Gordonia alkanivorans RIPI90A has been previously reported as dibenzothiophene-desulfurizing strain. The present study provides a complete investigation of the dsz operon including dsz promoter analysis from desulfurization competent strain belonging to the genus Gordonia. PCR was used to amplify the dszABC genes and adaptor ligation-based PCR-walking strategy used to isolate the dsz promoter. Unlike the dsz operon of Rhodococcus erythropolis, the operon of RIPI90A was located on chromosome. Despite the remarkably high homology between dsz genes of G. alkanivorans RIPI90A and R. erythropolis IGST8, promoter sequences of the strains were not very similar. The dsz promoter of G. alkanivorans RIPI90A shows only 52.5% homology to that of R. erythropolis IGTS8 and Gordonia nitida. Deletion analysis of the dsz promoter from RIPI90A using luciferase as a reporter gene revealed that the dsz promoter was located in regions from −156 to −50.     

Improvement of desulfurization activity in Rhodococcus erythropolis KA2-5-1 by genetic engineering

Rhodococcus erythropolis KA2-5-1 can desulfurize dibenzothiophene (DBT) into 2-hydroxybiphenyl. A cryptic plasmid, pRC4, which was derived from R. rhodochrous IFO3338, was combined with an Escherichia coli vector to construct an E. coli-Rhodococcus shuttle vector. The complete nucleotide sequence of 2582-bp pRC4 was analyzed. Based on the characteristics of its putative replication genes, pRC4 was assigned to the family of pAL5000-related replicons. The desulfurization gene cluster, dszABC, and the related reductase gene, dszD, cloned from KA2-5-1, were reintroduced into KA2-5-1 and efficiently expressed. The DBT desulfurization ability of the transformant carrying two dszABC clusters and one dszD on the vector was about 4-fold higher than that of the parent strain, and the transformant also showed improved desulfurization activity for light gas oil (LGO). Sulfur components in LGO before and after the reaction were analyzed with gas chromatography-atomic emission detection.     

Desulfurization of alkylated forms of both dibenzothiophene and benzothiophene by a single bacterial strain

Thirty-five bacterial strains capable of converting dibenzothiophene into 2-hydroxybiphenyl were isolated. Among them Rhodococcus erythropolis KA2-5-1 was chosen for further characterization because of its ability to retain high desulfurization activity stably. PCR cloning and DNA sequencing of a KA2-5-1 genomic DNA fragment showed that it was practically identical with dszABC genes from Rhodococcus sp. IGTS8, a representative carbon-sulfur-bond-targeted dibenzothiophene-degrading bacterium. KA2-5-1 desulfurized a variety of alkyl dibenzothiophenes through the specific cleavage of their C-S bonds. In addition, unexpectedly, KA2-5-1 also attacked alkyl benzothiophenes in a C-S-bond-targeted fashion. The purified monooxygenase, encoded by dszC of KA2-5-1, converted benzothiophene and dibenzothiophene into benzothiophene sulfone and dibenzothiophene sulfone, respectively, with the aid of an NADH-dependent oxidoreductase. This result raises the possibility that the same enzymatic step may be involved in desulfurization of alkylated forms of both dibenzothiophene and benzothiophene in KA2-5-1 cells.     

Isolation and characterization of a moderate thermophile,Mycobacterium phlei GTIS10, capable of dibenzothiophene desulfurization

An organism, identified as Mycobacterium phlei GTIS10, was isolated based on its ability to use dibenzothiophene (DBT) as a sole source of sulfur for growth at 30-52 degrees C. Similar to other biodesulfurization-competent organisms, M. phlei GTIS10 converts DBT to 2-hydroxybiphenyl (2-HBP), as detected by HPLC. The specific desulfurization activity of the 50 degrees C M. phlei GTIS10 culture was determined to be 1.1+/-0.07 micromol 2-HBP min(-1) (g dry cell)(-1). M. phlei GTIS10 can also utilize benzothiophene and thiophene as sulfur sources for growth. The dszABC operon of M. phlei GTIS10 was cloned and sequenced and was found to be identical to that of Rhodococcus erythropolis IGTS8. The presence of the R. erythropolis IGTS8 120-kb plasmid pSOX, which encodes the dszABC operon, has been demonstrated in M. phlei GTIS10. Even though identical dsz genes are contained in both cultures, the temperature at which resting cells of R. erythropolisIGTS8 reach the highest rate of DBT metabolism is near 30 degrees C whereas the temperature that shows the highest activity in resting cell cultures of M. phlei GTIS10 is near 50 degrees C, and activity is detectable at temperatures as high as 57 degrees C. In M. phlei GTIS10, the rate-limiting step in vivo appears to be the conversion of DBT to dibenzothiophene sulfone catalyzed by the product of the dszC gene, DBT monooxygenase. The thermostability of individual desulfurization enzymes was determined and 2-hydroxybiphenyl-2-sulfinate sulfinolyase, encoded by dszB, was found to be the most thermolabile. These results demonstrate that the thermostability of individual enzymes determined in vitro is not necessarily a good predictor of the functional temperature range of enzymes in vivo.     

Semi-rational engineering of CYP153A35 to enhance ω-hydroxylation activity toward palmitic acid

Applied Microbiology and Biotechnology - CYP153A35 from Gordonia alkanivorans was recently characterized as fatty acid ω-hydroxylase. To enhance the catalytic activity of CYP153A35 toward...     

Analysis of petroleum biodesulfurization in an airlift bioreactor using response surface methodology

For the first time, growing cells of Gordonia alkanivorans RIPI90A were used for biodesulfurization (BDS) of diesel. This process was carried out in an internal airlift bioreactor. BDS parameters (oil/water phase ratio and initial sulfur concentration) were optimized in flasks using response surface methodology. Predicted results were found to be in good agreement with experimental results. Initial sulfur concentration had a remarkable effect on BDS process. Maximum removal of sulfur (21 mg/l) can be achieved at oil/water phase ratio of 25% (v/v) and initial sulfur concentration of 28 mg/l. Moreover, effect of superficial gas velocity (Ug) and working volume (v) on volumetric gas liquid mass transfer coefficient was studied in an airlift bioreactor for BDS of diesel. The best results were achieved at Ug and v of 2.5l/min and 6.6l, respectively. Subsequently, BDS of diesel was investigated in an airlift bioreactor under optimized conditions. Sulfur reduction after 30 h was 14 mg/l.     

Operon structure and functional analysis of the genes encoding thermophilic desulfurizing enzymes of Paenibacillus sp. A11-2

Paenibacillus A11-2 can efficiently cleave two carbon&bond;sulfur bonds in dibenzothiophene (DBT) and alkyl DBTs, which are refractory by conventional petroleum hydrodesulfurization, to remove sulfur atom at high temperatures. An 8.7-kb DNA fragment containing the genes for the DBT desulfurizing enzymes of A11-2 was cloned in Escherichia coli and characterized. Heterologous expression analysis of the deletion mutants identified three open reading frames that were required for the desulfurization of DBT to 2-hydroxybiphenyl (2-HBP). The three genes were designated tdsA, tdsB, and tdsC (for thermophilic desulfurization). Both the nucleotide sequences and the deduced amino acid sequences show significant homology to dszABC genes of Rhodococcus sp. IGTS8, but there are several local differences between them. Subclone analysis revealed that the product of tdsC oxidizes DBT to DBT-5,5'-dioxide via DBT-5-oxide, the product of tdsA converts DBT-5,5'-dioxide to 2-(2-hydroxyphenyl) benzene sulfinate, and the product of tdsB converts 2-(2-hydroxyphenyl)benzene sulfinate to 2-HBP. Cell-free extracts of a recombinant E. coli harboring all the three desulfurization genes converted DBT to 2-HBP at both 37 and 50 degrees C. In vivo and in vitro exhibition of desulfurization activity of the recombinant genes derived from a Paenibacillus indicates that an E. coli oxidoreductase can be functionally coupled with the monooxygenases of a gram-positive thermophile.     

Identification and application of plasmids suitable for transfer of foreign DNA to members of the genus Gordonia

Gene transfer systems for Gordonia polyisoprenivorans strains VH2 and Y2K based on electroporation and conjugation, respectively, were established. Several parameters were optimized, resulting in transformation efficiencies of >4 x 10(5) CFU/ micro g of plasmid DNA. In contrast to most previously described electroporation protocols, the highest efficiencies were obtained by applying a heat shock after the intrinsic electroporation. Under these conditions, transfer and autonomous replication of plasmid pNC9503 was also demonstrated to proceed in G. alkanivorans DSM44187, G. nitida DSM44499(T), G. rubropertincta DSM43197(T), G. rubropertincta DSM46038, and G. terrae DSM43249(T). Conjugational plasmid DNA transfer to G. polyisoprenivorans resulted in transfer frequencies of up to 5 x 10(-6) of the recipient cells. Recombinant strains capable of polyhydroxyalkanoate synthesis from alkanes were constructed.     

A Novel and Simple Method for Rapid Generation of Recombinant Porcine Adenoviral Vectors for Transgene Expression

Many human (different serotypes) and nonhuman adenovirus vectors are being used for gene delivery. However, the current system for isolating recombinant adenoviral vectors is either time-consuming or expensive, especially for the generation of recombinant non-human adenoviral vectors. We herein report a new and simple cloning approach for the rapid generation of a porcine adenovirus (PAdV-3) vector which shows promise for gene transfer to human cells and evasion of human adenovirus type 5 (HAdV-5) immunity. Based on the final cloning plasmid, pFPAV3-CcdB-Cm, and our modified SLiCE strategy (SLiCE cloning and lethal CcdB screening), the process for generating recombinant PAdV-3 plasmids required only one step in 3 days, with a cloning efficiency as high as 620±49.56 clones/ng and zero background (100% accuracy). The recombinant PAdV-3 plasmids could be successfully rescued in porcine retinal pigment epithelium cells (VR1BL), which constitutively express the HAdV-5 E1 and PAdV-3 E1B 55k genes, and the foreign genes were highly expressed at 24 h after transduction into swine testicle (ST) cells. In conclusion, this strategy for generating recombinant PAdV-3 vectors based on our modified SLiCE cloning system was rapid and cost-efficient, which could be used as universal cloning method for modification the other regions of PAdV-3 genome as well as other adenoviral genomes.     

Screening, cloning and overexpression of Aspergillus niger phytase (phyA) in Pichia pastoris with favourable characteristics

AIMS: Using gene cloning and overexpression to obtain a potential industrial phytase as a feed additive to upgrade the nutritional quality of phytate-rich seed-based animal feed. METHODS AND RESULTS: A phyA gene from a high extracellular phytase-producing Aspergillus niger sp. was cloned and overexpressed in Pichia pastoris GS115 using the secretive expression vector pPICZalphaA. After cultivation for 4 days in buffered methanol complex medium (BMMY) containing methanol for induction, catalytically active phytase was secreted as a predominantly extracellular protein. The activity of the expressed phytase in fermented broth was 30 000-fold higher than that of native phytase with a specific activity of 503 U mg(-1). The Lineweaver-Burk plot indicated K(m) values of 0.196 mmol l(-1) for sodium phytate and 18.16 mmol l(-1) for p-nitrophenylphosphate (pNPP). Thermostability studies showed that recombinant phytase retained 70% activity after exposure to 90 degrees C for 5 min and 65% activity after 30 min, much higher than for commercial phytase. CONCLUSIONS: The higher activity and high thermostability of recombinant phytase enable it to withstand the temperatures of the feed pelleting process. SIGNIFICANCE AND IMPACT OF THE STUDY: The characteristics of this recombinant phytase, especially the good thermostability, are likely to render it of potential industrial importance.     

Biodesulfurization of dibenzothiophene by Gordonia sp. AHV-01 and optimization by using of response surface design procedure

A novel desulfurizing bacterium has been isolated from oil-contaminated soils in Khuzestan. The ability for dibenzothiophene desulfurization and its biochemical pathway were investigated. The bacterium was identified as Gordonia sp. AHV-01 (Genbank Accession No HQ607780) by 16S rRNA gene sequencing. HPLC results and Gibb's assay were shown that dibenzothiophene desulfurized via 4S-pathway Maximum growth (0.426 g dry cells/L) and produced 2-hydroxybiphenyl (63.1 microM) were observed at 120 h of cultivation. By using of response surface design procedure the optimization of pH, temperature and rotary shaker round on the desulfurization reaction of isolate AHV-01 were performed. The optimum conditions were determined at pH of 7.0, temperature of 30 degrees C and rotary shaker round of 180 rpm. At these conditions, the dibenzothiophene desulfurization activity was increased and maximum 2-hydroxybiphenyl production was detected 70.29 microM at 96 h. According to these results, Isolate AHV-01 was capable to desulfurize dibenzothiophene via 4S-pathway and likely it can be useful to reduce organic sulfur contents of crude oil.     

De-repression and comparison of oil–water separation activity of the dibenzothiophene desulfurizing bacterium, <Emphasis Type="Italic">Mycobacterium</Emphasis> sp. G3

Expression of the desulfurization genes (dsz) in Mycobacterium sp. G3 is repressed by sulfate, which is the product of biodesulfurization. An expression clone, pSMTABC, was constructed by placing the dsz genes downstream of the hsp60 promoter and the constructed plasmid was electroporated into G3. The recombinant strain G3-1 desulfurized dibenzothiophene in the presence of 0.5 mM sulfate while the Dsz phenotype was completely repressed in the wild-type strain. However, there was no significant increase in the amount of desulfurization enzymes in G3-1. In addition, G3 had superior separation of diesel oil–water separation activity compared to E. coli, which is superior to desulfurizing rhodococci.     

Exopolysaccharides produced by <Emphasis Type="Italic">Gordonia alkanivorans</Emphasis> enhance bacterial degradation activity for diesel

Exopolysaccharides (EPS) produced by Gordonia alkanivorans CC-JG39 was used to stimulate cell floating, cell growth, and diesel biodegradation of indigenous or commercial-available, diesel-degrading bacteria. Addition of EPS-containing supernatant into the culture medium resulted in floatation of the non-floating bacteria and allowed a 40-45% and 38-42% increase in diesel degradation and cell growth, respectively. The EPS-stimulating effect on cell growth and diesel degradation positively correlated with the EPS dosage. Thus, the EPS may act as a biostimulant for bioremediation of oil-contaminated water or soil.     

Analysis of resistance to human immunodeficiency virus type 1 protease inhibitors by using matched bacterial expression and proviral infection vectors.

There are already reports, from clinical trials with human immunodeficiency virus type 1 protease inhibitors, of the emergence of drug-resistant mutants which have one or more point mutations in their protease genes. To examine roles of individual and multiple amino acid substitutions in terms of altered enzyme and virus drug sensitivities, we have produced matched vectors for bacterial expression and virus production. Both vectors accept the same restriction enzyme fragment, produced by PCR or PCR-mutagenesis of the protease gene, allowing parallel expression of mutant enzymes in Escherichia coli and in recombinant viruses. The utility of this vector system was demonstrated by using protease variants glycine to valine at amino acid 48 (G48V) and leucine to methionine at amino acid 90 (L90M) identified after passage of HIV-1 in the Roche phase II clinical trial protease inhibitor Ro 31-8959 (H. Jacobsen, K. Yasargil, D. L. Winslow, J. C. Craig, A. Krohn, I. B. Duncan, and J. Mous, Virology 206:527, 1995). G48V, L90M, and G48V/L90M exhibited successively less processing in vitro than the wild-type enzyme, and the purified enzymes were 220-, 20-, and 720-fold, respectively, less sensitive to Ro 31-8959. The reduced enzyme sensitivity correlated directly with the sensitivities of the matched recombinant viruses, in that individual mutations L90M and G48V conferred 2-fold and 4- to 6-fold increases in 50% inhibitory concentration, respectively, whereas G48V/L90M was 8 to 10 times less sensitive to Ro 31-8959. A proviral vector with the entire protease gene deleted was constructed for use as an in vivo recombination target for an overlapping protease PCR fragment, generating wild-type infectious virus. Finally, direct ligation of restriction fragments, generated from random PCR mutagenesis, into the proviral vector should provide a library of protease mutations that allow extremely rapid selection of highly resistant viral variants.     

Recombinant Pseudomonas putida carrying both the dsz and hcu genes can desulfurize dibenzothiophene in n-tetradecane

Pseudomonas putida IFO13696, a recombinant strain with dsz desulfurization genes, desulfurized dibenzothiophene (DBT) in water but not in n-tetradecane. By introducing into this recombinant strain the hcuABC genes that take part in the uptake of DBT in the oil phase into the cell, 82% of 1 mM DBT in n-tetradecane was degraded in 24 h by resting cells. The products of hcuABC genes thus acted in the uptake of DBT in n-tetradecane into the cells and were effective in desulfurization of DBT in the hydrocarbon phase.     

用pLNCX2携带人MCPH1基因shRNA重组逆转录病毒载体的构建及鉴定

目的建立逆转录病毒介导的MCPH1基因RNA干扰表达体系并观察其在宫颈癌Caski细胞中对MCPH1表达的影响。方法将人MCPH1基因RNA干扰双链DNA片段重组到逆转录病毒质粒pLNCX2中,构建携带人MCPHI基因RNA干扰的逆转录病毒载体pLNCX2-shRNA—MCPH1,经PT67细胞包装后,产生的重组逆转录病毒感染宫颈癌细胞株Caski细胞,并用G418筛选产生稳定的细胞克隆,用RT—PCR和Western印迹检测细胞中MCPH1mRNA和蛋白表达的变化。结果重组逆转录病毒质粒经测序鉴定正确,逆转录病毒感染Caski细胞后用G418筛选出稳定的细胞克隆,RT—PCR和Western印迹检测人MCPH1mRNA和蛋白表达水平明显低于阴性对照组和未干扰组。结论携带人MCPHI基因RNA干扰双链DNA片段的逆转录病毒感染Caski细胞后能明显抑制MCPHImRNA和蛋白表达,为进一步研究MCPH1在宫颈癌中的作用奠定了基础。     

Cloning and expression of Clostridium thermocellum F7 cellulase genes in Escherichia coli and Bacillus subtilis cells

The Clostridium thermocellum total DNA Sau 3A fragments' library was constructed on the basis of shuttle vector pMK4 for the Escherichia coli - Bacillus subtilis. 14 clones with endoglucanase activity and one with beta-glucosidase activity were selected in E. coli cells. Recombinant plasmids pCE were characterized by structural instability of various degree in B. subtilis cells. The results of the physical mapping, analysis of gene products in E. coli mini-cells as well as the DNA-DNA blot hybridization have led to conclusion on cloning of 7 individual genes for endoglucanases. Up to 3 polypeptides of various molecular weight corresponding to the products of cel gene were revealed in E. coli mini-cells containing the recombinant plasmids. The hybridization analysis demonstrated considerable homology of the majority of cel genes.     

Plasmid vector for cloning in Streptococcus pneumoniae and strategies for enrichment for recombinant plasmids

A new plasmid, pLS101, was constructed for use as a vector for cloning in Streptococcus pneumoniae. This plasmid carries two selectable genes, tet and malM, each of which contains two or more restriction sites for cloning. Insertional inactivation of the malM gene allowed direct selection of TcRMal- clones containing recombinant plasmids. Other means of enriching a recipient population for cells containing recombinant plasmids were examined. The effect of removing vector terminal phosphate in attempts to clone heterogeneous DNA fragments, such as those from chromosomal DNA, was to abolish recombinant plasmid establishment altogether, presumably because donor DNA processing during entry into the cell prevented establishment of the hemiligated molecule. However, with homogeneous DNA fragments, such as those from plasmid or viral DNA, vector phosphate removal allowed enrichment for recombinant plasmids. In the cloning of heterogeneous DNA that was homologous to the recipient chromosome (i.e. chromosomal DNA from S. pneumoniae), recovery of recombinant plasmids could be enriched tenfold (relative to the regenerated vector) by the process of chromosomal facilitation of plasmid establishment. This involved an additional passage of the mixed plasmids in which interaction with the chromosome of plasmids containing chromosomal DNA inserts (i.e. recombinant plasmids) increased their frequency of establishment relative to the vector plasmid. An overall strategy for cloning in S. pneumoniae, depending on the nature of the fragment to be cloned, is proposed.