Current approaches to genetic modification of marine bacteria and considerations for improved transformation efficiency.

Marine bacteria play vital roles in symbiosis, biogeochemical cycles and produce novel bioactive compounds and enzymes of interest for the pharmaceutical, biofuel and biotechnology industries. At present, investigations into marine bacterial functions and their products are primarily based on phenotypic observations, -omic type approaches and heterologous gene expression. To advance our understanding of marine bacteria and harness their full potential for industry application, it is critical that we have the appropriate tools and resources to genetically manipulate them in situ. However, current genetic tools that are largely designed for model organisms such as E. coli, produce low transformation efficiencies or have no transfer ability in marine bacteria. To improve genetic manipulation applications for marine bacteria, we need to improve transformation methods such as conjugation and electroporation in addition to identifying more marine broad host range plasmids. In this review, we aim to outline the reported methods of transformation for marine bacteria and discuss the considerations for each approach in the context of improving efficiency. In addition, we further discuss marine plasmids and future research areas including CRISPR tools and their potential applications for marine bacteria.

Sequence and characterization of shuttle vectors for molecular cloning in Porphyromonas, Bacteroides and related bacteria.

There is a lack of shuttle vectors to be needed for investigations into the genetics of Porphyromonas gingivalis and related species. To better understand the prevalence of candidates for such tools, we have examined multiple strains of black-pigmented anaerobes (clinical and laboratory isolates) for plasmids. As no plasmids were found in P. gingivalis strains, we have used the pYH420 plasmid, derived from P. asaccharolytica, as backbone to construct a shuttle vector in combination with pUC19 from Escherichia coli. Nucleotide sequence determination of the pYH420 plasmid revealed that it contained a gene with similarity to rep from plasmid pTS1 (isolated from Treponema denticola) as well as a homolog of mobA, a member of a gene family found on mobilizable genetic elements found in the genus Bacteroides. We constructed the pG106 and pG108 shuttle vectors using parts of the pUC19 and pYH420 vectors. This resulted in a vector with a multiple cloning site (MCS) in the lacZ gene enabling us to perform blue-white colony selection. The pG106 and pG108 shuttle vectors are electro-transformable into E. coli, P. gingivalis and B. thetaiotaomicron, where they are stable. We demonstrated that these vectors were suitable in these species for applications of molecular cloning including complementation and gene expression studies. Using the pG108 vector, we complement the hcpR mutant strain of P. gingivalis and rescued its NO2- -sensitive phenotype. We also performed a gene expression study using the P-glow BS2 fluorescent reporter gene and the ahpC promoter in B. thetaiotaomicron.

Genome Editing in Model Strain Myxococcus xanthus DK1622 by a Site-Specific Cre/loxP Recombination System.

Myxococcus xanthus DK1622 is a rich source of novel secondary metabolites, and it is often used as an expression host of exogenous biosynthetic gene clusters. However, the frequency of obtaining large genome-deletion variants by using traditional strategies is low, and progenies generated by homologous recombination contain irregular deletions. The present study aims to develop an efficient genome-engineering system for this bacterium based on the Cre/loxP system. We first verified the functionality of the native cre system that was integrated into the chromosome with an inducible promoter PcuoA. Then we assayed the deletion frequency of 8-bp-spacer-sequence mutants in loxP by Cre recombinase which was expressed by suicide vector pBJ113 or self-replicative vector pZJY41. It was found that higher guanine content in a spacer sequence had higher deletion frequency, and the self-replicative vector was more suitable for the Cre/loxP system, probably due to the leaky expression of inducible promoter PcuoA. We also inspected the effects of different antibiotics and the native or synthetic cre gene. Polymerase chain reaction (PCR) and sequencing of new genome joints confirmed that the Cre/loxP system was able to delete a 466 kb fragment in M. xanthus. This Cre/loxP-mediated recombination could serve as an alternative genetic manipulation method.

[Construction and application of Escherichia Coli-Riemerella anatipestifer efficient shuttle plasmid pFY02].

Riemerella anatipestifer is a pathogen that mainly infects ducks, gooses, turkeys and other birds, causing septicemia and serositis. At present, the function of R. anatipestifer genes are studied by gene deletion and complementation. However, the shuttle plasmid pLMF03 used at present is inefficient for conjugation. Moreover, less restriction enzyme site can be used for cloning. It is not able to use for all the genes complementation. To solve this disadvantage, the conjugative transfer site, R. anatipestifer replication initiation gene, high expression promoter and a number of enzyme cutting sites were cloned into the plasmid pPM5, to generate the new shuttle plasmid pFY02. The shuttle plasmid pFY02 was stable in R. anatipestifer and had a high conjugative transfer efficiency. The R. anatipestifer tonB2 mutant strain could be complemented by shuttle plasmid pFY02 expressing tonB2, indicating that the shuttle plasmid can be used to the complementation of R. anatipestifer. Taken together, the new shuttle plasmid pFY02 constructed in this study replenishes the genetic tool for complementation.

Construction and Characterization of Broad-Spectrum Promoters for Synthetic Biology.

Characterization of genetic circuits and biosynthetic pathways in different hosts always requires promoter substitution and redesigning. Here, a strong, broad-spectrum promoter, Pbs, for Escherichia coli, Bacillus subtilis, and Saccharomyces cerevisiae was constructed, and it was incorporated into the minimal E. coli-B. subtilis-S. cerevisiae shuttle plasmid pEBS (5.8 kb). By applying a random mutation strategy, three broad-spectrum promoters Pbs1, Pbs2, and Pbs3, with different strengths were generated and characterized. These broad-spectrum promoters will expand the synthetic biology toolbox for E. coli, B. subtilis, and S. cerevisiae.

Construction and application of Escherichia Coli-Riemerella anatipestifer efficient shuttle plasmid pFY02 / 生物工程学报

Riemerella anatipestifer is a pathogen that mainly infects ducks, gooses, turkeys and other birds, causing septicemia and serositis. At present, the function of R. anatipestifer genes are studied by gene deletion and complementation. However, the shuttle plasmid pLMF03 used at present is inefficient for conjugation. Moreover, less restriction enzyme site can be used for cloning. It is not able to use for all the genes complementation. To solve this disadvantage, the conjugative transfer site, R. anatipestifer replication initiation gene, high expression promoter and a number of enzyme cutting sites were cloned into the plasmid pPM5, to generate the new shuttle plasmid pFY02. The shuttle plasmid pFY02 was stable in R. anatipestifer and had a high conjugative transfer efficiency. The R. anatipestifer tonB2 mutant strain could be complemented by shuttle plasmid pFY02 expressing tonB2, indicating that the shuttle plasmid can be used to the complementation of R. anatipestifer. Taken together, the new shuttle plasmid pFY02 constructed in this study replenishes the genetic tool for complementation.

Testing of Auxotrophic Selection Markers for Use in the Moss Physcomitrella Provides New Insights into the Mechanisms of Targeted Recombination.

The moss Physcomitrella patens is unique among plants in that homologous recombination can be used to knock out genes, just like in yeast. Furthermore, transformed plasmids can be rescued from Physcomitrella back into Escherichia coli, similar to yeast. In the present study, we have tested if a third important tool from yeast molecular genetics, auxotrophic selection markers, can be used in Physcomitrella. Two auxotrophic moss strains were made by knocking out the PpHIS3 gene encoding imidazoleglycerol-phosphate dehydratase, and the PpTRP1 gene encoding phosphoribosylanthranilate isomerase, disrupting the biosynthesis of histidine and tryptophan, respectively. The resulting PpHIS3Δ and PpTRP1Δ knockout strains were unable to grow on medium lacking histidine or tryptophan. The PpHIS3Δ strain was used to test selection of transformants by complementation of an auxotrophic marker. We found that the PpHIS3Δ strain could be complemented by transformation with a plasmid expressing the PpHIS3 gene from the CaMV 35S promoter, allowing the strain to grow on medium lacking histidine. Both linearized plasmids and circular supercoiled plasmids could complement the auxotrophic marker, and plasmids from both types of transformants could be rescued back into E. coli. Plasmids rescued from circular transformants were identical to the original plasmid, whereas plasmids rescued from linearized transformants had deletions generated by recombination between micro-homologies in the plasmids. Our results show that cloning by complementation of an auxotrophic marker works in Physcomitrella, which opens the door for using auxotrophic selection markers in moss molecular genetics. This will facilitate the adaptation of shuttle plasmid dependent methods from yeast molecular genetics for use in Physcomitrella.

A New Broad Range Plasmid for DNA Delivery in Eukaryotic Cells Using Lactic Acid Bacteria: In Vitro and In Vivo Assays.

Lactococcus lactis is well documented as a promising candidate for development of novel oral live vaccines. It has been broadly engineered for heterologous expression, as well as for plasmid expression vector delivery, directly inside eukaryotic cells, for DNA vaccine, or as therapeutic vehicle. This work describes the characteristics of a new plasmid, pExu (extra chromosomal unit), for DNA delivery using L. lactis and evaluates its functionality both by in vitro and in vivo assays. This plasmid exhibits the following features: (1) a theta origin of replication and (2) an expression cassette containing a multiple cloning site and a eukaryotic promoter, the cytomegalovirus (pCMV). The functionality of pExu:egfp was evaluated by fluorescence microscopy. The L. lactis MG1363 (pExu:egfp) strains were administered by gavage to Balb/C mice and the eGFP expression was monitored by fluorescence microscopy. The pExu vector has demonstrated an excellent stability either in L. lactis or in Escherichia coli. The eGFP expression at different times in in vitro assay showed that 15.8% of CHO cells were able to express the protein after transfection. The enterocytes of mice showed the expression of eGFP protein. Thus, L. lactis carrying the pExu is a good candidate to deliver genes into eukaryotic cells.

Synthetic operon for (R,R)-2,3-butanediol production in Bacillus subtilis and Escherichia coli.

To reduce dependence on petroleum, an alternative route to production of the chemical feedstock 2,3-butanediol (2,3-BD) from renewable lignocellulosic sources is desirable. In this communication, the genes encoding the pathway from pyruvate to 2,3-BD (alsS, alsD, and bdhA encoding acetolactate synthase, acetolactate decarboxylase, and butanediol dehydrogenase, respectively) from Bacillus subtilis were engineered into a single tricistronic operon under control of the isopropyl ß-D-1-thiogalactopyranoside (IPTG)-inducible Pspac promoter in a shuttle plasmid capable of replication and expression in either B. subtilis or Escherichia coli. We describe the construction and performance of a shuttle plasmid carrying the IPTG-inducible synthetic operon alsSDbdhA coding for 2,3-BD pathway capable of (i) expression in two important representative model microorganisms, the gram-positive B. subtilis and the gram-negative E. coli; (ii) increasing 2,3-BD production in B. subtilis; and (iii) successfully introducing the B. subtilis 2,3-BD pathway into E. coli. The synthetic alsSDbdhA operon constructed using B. subtilis native genes not only increased the 2,3-BD production in its native host but also efficiently expressed the pathway in the heterologous organism E. coli. Construction of an efficient shuttle plasmid will allow investigation of 2,3-BD production performance in related organisms with industrial potential for production of bio-based chemicals.

A New Shuttle Plasmid That Stably Replicates in Clostridium acetobutylicum.

We have developed a new shuttle plasmid, designated as pLK1-MCS that can replicate in both Clostridium acetobutylicum and Escherichia coli, by combining the pUB110 and pUC19 plasmids. Plasmid pLK1-MCS replicated more stably than previously reported plasmids containing either the pIM13 or the pAMß1 replicon in the absence of antibiotic selective pressure. The transfer frequency of pLK1-MCS into C. acetobutylicum was similar to the transfer frequency of other shuttle plasmids. We complemented C. acetobutylicum ML1 (that does not produce solvents such as acetone, butanol, and ethanol owing to loss of the megaplasmid pSOL1 harboring the adhE1-ctfAB-adc operon) by introducing pLK1-MCS carrying the adhE1-ctfAB-adc operon into C. acetobutylicum ML1. The transformed cells were able to resume anaerobic solvent production, indicating that the new shuttle plasmid has the potential for practical use in microbial biotechnology.

Construction and identification Bifidobacterium as a delivery system of IL -10 / 中国基层医药

Objective To construct and identify a novel IL-10 delivery system by transforming a hIL-10-containing plasmid into B.longum (BL -hIL -10).Methods A plasmid vector pBADs -GFP was selected which had been built by previous test and biosynthetic hIL-10 plasmid,through double enzyme digestion and enzyme reaction,to construct and identify PBADs-hIL-10 shuttle plasmid,then to synthesis BL-hIL-10.hIL-10 was expressed and secreted into the culture supernatant of BL-hIL-10 after 0.2% L-arabinose induction in vitro as examined by Western blot,enzyme-linked immunosorbent assay (ELISA)and RT-PCR;Culture supernatants and bacterium pellets were collected after continuous culture for 12,24 and 36h,respectively.hIL-10 was expressed and secreted into the culture supernatant of BL-hIL-10 after 0.2% L-arabinose induction in vitro as examined by Western blot,enzyme -linked immunosorbent assay (ELISA)and RT -PCR;Culture supernatants and bacterium pellets were collected after continuous culture for 12,24 and 36h,respectively.Results The BL-hIL-10 bacterial strain that can stably express hIL-10 factor was successfully screened out,and the levels of hIL-10 in both superna-tant and cell pellet were similarly reached maximum at 24h of culture.Conclusion BL-hIL-10 as a novel oral hIL-10 delivery system has been successfully established,which established a basis for the treatment of IBS with transgenic Bifidobacterium.

A Convenient Method to Select DNA Fragments of Cephalosporium acremonium with Promoter Function / 微生物学通报

A promoter-trap vector pGBT14 for selecting promoters of fungus gene was constructed with E. coli-yeast shuttling plasmid pGBT9. Using this vector, a0. 5-2. 0kb chromosomal DNA library of Cepholosporium acremonium was constructed, and twenty four DNA fragments with promoter function in Saccharomyces oerevisiae Y153 were selected from this DNA library. And the promoter function of these DNA fragments was analyzed.