Functional expression in Pichia pastoris of human and rat intrinsic factor.

Intrinsic factor (IF) has been expressed previously in Baculovirus with a yield (0.1-1 mg/l) that was inadequate for structural and metabolic studies. IF cDNAs were cloned into the shuttle vector pPIC9 of P. pastoris, and the proteins were induced and purified by cobalamin (Cbl) affinity chromatography. Expression of recombinant proteins revealed a major band of 49 kDa for both human and rat IF. Expression of human IF was achieved at 1040 mg/l, but of rat IF at only 1-2 mg/l. Reaction of human IF with a photo-activatable derivative of Cbl was demonstrated by Western blotting, and detection of IF fragments by anti-Cbl monoclonal antibody and by amino-terminal sequencing revealed at least three regions (residues 129-151, 234-254, and +294) linked to Cbl. Both recombinant human and rat [125I]IF-Cbl bound to rat and guinea pig brush border membranes with similar affinity, but the binding capacity of human IF for the rat receptor was only 10% compared with rat IF. All six amino acids within the previously identified N-terminal binding region of human IF were mutated to be identical to rat IF, but the resulting chimeric IF still bound poorly to rat membranes. Mutations of residues 26/27 (Glu26 to Asp and Asn27 to Gln) and 32/34 (Ser32 to Thr and Tyr34 to Arg) showed changes in both Ka and Vmax, with great effects on Vmax. In conclusion, P. pastoris is an expression system that produces functional human IF at a higher yield than in the baculovirus system. Cbl binding was directly demonstrated at multiple sites along the linear sequence of human IF. The receptor binding function of the amino terminal sequence 25 62 has been confirmed, but it is insufficient to reproduce all the features of IF-Cbl binding.

Cloning and genetic analysis of tra cistrons of the Tra 2/Tra 3 region of plasmid RP1.

Transfer-defective mutants of the 10.4-kb Tra 2/Tra 3 region of RP1 were identified by their ability to be complemented by clones carrying all or part of this region. The respective mutations occurred in six cistrons whose order (traA, B, E, R, P, Q) and location were determined by deletion and insertion mapping. The cistrons occupy a minimum of 5.5 kb with the most distal, traA, spanning the 28.0-kb map position and traR the KpnI site at map position 24.1 kb. Each cistron is expressed independently, as Tn5 or Tn504 insertions in any one cistron do not affect the other five. The phenotypes controlled by each cistron suggest that all contribute to pilus biosynthesis/function while three (traB, R, and P) also contribute to surface exclusion. Given the occurrence of tra cistrons in the "silent" region between Tra 2 and Tra 3 we propose that the epithet "Tra 2" should be used to describe this entire region.

Genetic structure, function and regulation of the transposable element IS21.

The IncP plasmid R68.45 and other plasmids carrying tandem repeats of the insertion sequence IS21 [= (IS21)2] produce replicon fusions via transposition at high frequencies in Escherichia coli and other gram-negative bacteria, whereas plasmids with a single IS21 copy, e.g. R68, give replicon fusions rarely. The 2131 bp nucleotide sequence of IS21 was determined; at the ends there were 11 bp inverted repeats with one mismatch. Two adjacent open reading frames, istA and istB, were located on one DNA strand of IS21. In E. coli maxicells, polypeptides of 46 kDa (the istA gene product) and 30 kDa (the istB gene product) were expressed by (IS21)2 plasmids, but not by IS21 plasmids. Genetic analysis of (IS21)2 plasmids indicates that the IS21-IS21 junctions form a promoter, which initiates transcription of the istAB operon in one of the two IS21 elements. A single IS21 element fused to an inducible external tac promoter expressed both proteins after induction, but did not promote effective replicon fusion, unless an IS21-IS21 junction (the preferred site for IS21 transposase action) was also present on the plasmid carrying the tac-IS21 construct. The sequences located between the IS21 elements in (IS21)2, 3 bp in R68.45 or 2 bp in pME28, were not recovered in the replicon fusion products. Homologous recombination between the directly oriented IS21 elements in the fusion products led to plasmids with a single IS21 insertion. Analysis of the latter showed that IS21 had a low, but not totally random specificity of insertion and created target duplications of 4 bp (occasionally 5 bp).(ABSTRACT TRUNCATED AT 250 WORDS)

The origin of transfer (oriT) of the conjugative plasmid R46: characterization by deletion analysis and DNA sequencing.

The origin of transfer (oriT) is the sequence within which conjugal transfer of plasmid DNA is initiated, and is absolutely required in cis for plasmid mobilization. We have cloned oriT from the 52 kb IncN plasmid R46 on a 600 bp fragment, and mapped the limits of the relevant sequence by deletion analysis and transposon mutagenesis. The nucleotide sequence of the oriT region contains 13 direct repeats of an 11 bp consensus sequence, 3 different pairs of 10 bp inverted repeats, and a segment that is extremely A-T rich. The direct repeats are within a region required for high frequency transfer and their sequence is such that their periodic alignment along the helix may induce curvature of the DNA. Analysis of Tn1725 insertions within the sequenced fragment of R46 revealed that, unlike most other transposons, transposition of Tn1725 can cause target sequence duplications of three different sizes.

Mobilization of the non-conjugative plasmid RSF1010: a genetic analysis of its origin of transfer.

The oriT site of the broad host-range multicopy IncQ plasmid RSF1010 was cloned onto the 2.2 kb pBR322-derived vector pED825. By successive subcloning and construction of deletions, the oriT region was localised on an 80-88 bp segment of DNA. This segment was contained within the HaeII fragment of RSF1010 that is known to include the relaxation nick site. The oriT region was sequenced and inverted repeats and sequences homologous to the oriT regions of ColE1 and RK2 were identified. A striking 10 bp inverted repeat at one end of the 88 bp oriT segment may be important for recognition of oriT, and its possible role in transfer is discussed. As for other plasmids, the oriT region served as the site for recA-independent, transfer-dependent, site-specific recombination. This provides genetic evidence that strand breakage and re-joining occur at oriT during transfer. Mobilization was independent of transcription by RNA polymerase in the donor cell, as shown by the lack of effect of rifampicin. Inversion of the oriT site with respect to the plasmid oriV site showed that there was no functional dependence of oriT on oriV for synthesis of primers possibly involved in recipient conjugal DNA synthesis. Alternative mechanisms are discussed.

Nucleotide sequences of five IncF plasmid finP alleles.

The nucleotide sequences of five finP alleles from various IncF plasmids (finP types I to V) as well as of three finP mutations were determined and compared. The finP gene specificity could be attributed to a variable, six-to-seven-nucleotide loop located between inverted repeats, and the sequence data were consistent with the product of finP being an RNA molecule rather than a protein. The finP mutations interrupted a proposed finP promoter or destabilized a predicted stem-and-loop structure in the finP RNA molecule.

Protein RepC is involved in copy number control of the broad host range plasmid RSF1010.

Essential replication (rep) genes of the broad host range plasmid RSF1010 have been cloned onto controlled expression vectors and their protein products have been visualized, after induction, by NaDodSO4/polyacrylamide gel electrophoresis of whole cell lysates. During this induction the replication of a coresident RSF1010 replicon, pKT210, was analyzed by quantitative DNA X DNA hybridization. The initiation of pKT210 replication was stimulated 6-fold by a simultaneous overproduction of the RepA and RepC proteins compared to cells in which only the RepA protein was overproduced. An enhanced synthesis of the RepB protein resulted in a 1.6-fold stimulation of pKT210 replication, whereas an overproduction of the RepA protein alone had no effect. Purified RepC protein has been shown to bind preferentially to DNA carrying the replication origin of RSF1010. Within this segment it was bound specifically to those DNA fragments that contained the 20-base-pair direct repeats of the origin region. These results suggest that RepC protein acts as a positive replication regulator, that its concentration is rate-limiting, and that the replication rate of RSF1010 is controlled, at least in part, at the level of RepC synthesis.

DNA sequence of the F traALE region that includes the gene for F pilin.

The complete sequence of a 1.4-kilobase PstI fragment containing the F transfer genes traA, -L, and -E is presented. The traA reading frame has been located both genetically and by comparing the primary structure of F pilin (the traA product) predicted by the DNA sequence to the amino acid composition and sequence of N- and C-terminal peptides isolated from purified F pilin. Taken together, these data show that there is a leader peptide of 51 amino acids and that F pilin contains 70 amino acids, giving molecular weights of 13,200 for F propilin and 7,200 for mature F pilin. Secondary structure predictions for F pilin revealed a reverse turn that precedes the sequence Ala-Met-Ala51, a classic signal peptidase cleavage site. The N-terminal alanine residue is blocked by an acetyl group as determined by 1H-nuclear magnetic resonance spectroscopy. The traL and traE genes encode proteins of molecular weights 10,350 and 21,200, respectively. According to DNA sequence predictions, these proteins do not contain signal peptide leader sequences. Secondary structure predictions for these proteins are in accord with traLp and traEp being membrane proteins in which hydrophobic regions capable of spanning the membrane are linked by sequences that form turns and carry positively charged residues capable of interacting with the membrane surface.

Characterization of IS46, an insertion sequence found on two IncN plasmids.

The IncN plasmids R46 and N3 each contain two copies of an insertion sequence which we denote IS46. This insertion sequence has single PstI and SalI restriction sites and is 0.81 kilobases long. All four copies of IS46 were capable of forming cointegrates, although the DNA between the insertion sequences, which in each case carries a tetracycline resistance gene, was not transposable in the form of a compound transposon. IS46-mediated cointegrates resolved in Rec+ but not in RecA- cells. Recombination between two copies of IS46, causing an inversion, accounts for the existence of two distinct forms of R46. IS46-mediated deletions were probably responsible for the formation of the plasmid pKM101 from R46. IS46 was not homologous to IS1 but did show homology with IS15.

Synthesis of F-pilin polypeptide in the absence of F traJ product.

The products of a lambda transducing phage (ED lambda 101) which carries a segment of the F tra operon expressing F traA , traL , and traE activity from the lambda leftward promoter were examined using a uv-irradiated host system. After infection of an F- host, products of traE (19,500 Da) and traA (14,000 Da) were detectable among the lambda early proteins synthesized. Infection of an Flac host altered the pattern of polypeptides synthesized by the phage in that the 14,000-Da traA product became barely detectable and was replaced by a polypeptide which migrated at 7000 Da. A derivative of ED lambda 101 carrying the traA1 amber mutation was unable to synthesize either the 14,000-Da polypeptide in F- cells or the 7000-Da polypeptide in Flac cells. The 7000-Da polypeptide derived from ED lambda 101 was synthesized in the absence of traJ product in F- cells coinfected with a second transducing phage which carried a tra operon segment including traQ . It was also a product of ED lambda 134 which expresses genes traA through traH . The 7000-Da polypeptide, like F-pilin, associated primarily with the inner membrane, and could be immunoprecipitated with antiserum prepared against purified F-pili. Analysis of membranes from F- cells infected with ED lambda 101 indicated that the 14,000-Da traA product synthesized under these conditions accumulated in the inner membrane. These results show that both the 14,000-Da traA product might be processed to F-pilin in a traQ -dependent reaction which occurs in or on the inner membrane of the Escherichia coli host. However, the possibility that traQ encodes a regulatory product which affects expression of the traA sequence has not been excluded.

Overproduction, purification and characterization of the F traT protein.

A lambda transducing phage (ED lambda 110) which carries the sex factor F surface exclusion genes, traS and traT, was characterized by both genetic and physiochemical techniques. The transducing segment consists of 5.2 kilobases of F tra DNA, and carries the carboxy-terminal one-half of the upstream traG gene, as well as traS, traT, and the adjacent downstream gene traD. These tra proteins could be identified in infected UV-irradiated cells, and the major part of their synthesis was found to occur from the phage's late promoter pR' under Q control. Lysogens for ED lambda 110 were induced and found to greatly overproduce the traT gene product (TraTp), an outer membrane protein normally found in about 20,000 copies per cell, to levels which exceeded the major outer membrane proteins. This led to the development of a simple purification procedure for TraTp, the most important step of which was the construction of an appropriate ompB derivative to eliminate the major outer membrane porin proteins, which have several physical properties in common with TraTp. Purified TraTp was added to mixtures of donor and recipient cells and found to inhibit mating. The specificity of this assay was demonstrated by using an R100-1 donor, which responds to a heterologous surface exclusion system, and by using an altered TraTp containing a missense amino acid substitution. A mechanism by which TraTp mediates surface exclusion is proposed.

lambda-Transducing phages carrying transfer genes isolated from an abnormal prophage insertion into the traY gene of F.

A set of lambda-transducing phages carrying transfer (tra) genes has been isolated from an abnormal lysogen in which a lambda prophage was inserted into the traY gene of Flac. These have been characterized genetically for complementation of Flac tra and finP point mutants and for the presence of oriT. Studies of tra gene expression during lambda repression showed that tra genes on the transducing phages were expressed from the lambda PL promoter as well as from the transfer promoters when these were present. The molecular weights of the traM (14,000) and traJ (23,500) proteins were measured after infection of ultraviolet-irradiated cells with one of the phages, ED lambda 102, and overproduction of the traJ protein upon induction of an ED lambda 102 lysogen was demonstrated. A proportion of this traJ protein was located in the inner membrane and cytoplasmic fractions of the cell, the majority being in the outer membrane. Physical analysis of the DNA carried by the lambda tra phages by determination of the phage buoyant densities in CsCl, by restriction enzyme digestion and by electron microscope heteroduplex analysis, was used to define the DNA segments encoding the tra functions. Correlation of the physical and genetical data improved the positioning of the tra genes within the transfer region. These results were combined with new restriction enzyme cleavage data to construct an improved map of this region.

Tn2301, a transposon construct carrying the entire transfer region of the F plasmid.

The largest R . BamHI fragment of the plasmid F, which carries the entire F conjugation system, has been cloned into the single R . BamHI site of the ampicillin (Ap) resistance transposon TN1. pDS1106 (ColE1 mob::Tn1) was the vector plasmid, and the resultant conjugative plasmid, pED830, was characterized both genetically and by restriction enzyme analysis. The transposon construct, denoted Tn2301, was transposable at frequencies similar to Tn1 to small nonconjugative plasmids or to the Escherichia coli host chromosome. In the former case, Apr conjugative plasmids were obtained, whereas in the latter case, Hfr strains resulted. Representative Hfr strains were characterized by quantitative and interrupted mating experiments. Extension of this technique for Hfvr formation should aid chromosome mapping both in E. coli and in other bacterial genera.

Variant pili produced by mutants of the Flac plasmid.

Transfer-proficient Flac mutants with reduced abilities to plate various F-specific phages were isolated, either by selection after mutagenesis, or as revertants of Flac traA mutants. In many of the mutants pilus-related properties were altered, including physical adsorption of R17 phage, the number of pili per cell and the outgrowth/retraction equilibrium. Complementation studies showed that the mutations were in traA, suggesting that specific alterations in the amino-acid sequence of the pilin subunit protein were responsible for the altered pilus properties. Complementation between the Flac traA mutants and the derepressed plasmid R100-1 restored phage sensitivity in some cases, suggesting that the incorporation of both mutant and R100-1 subunits into the pilus structure may result in conformational changes which increase the capacity of the pilus to interact with phages.

Further characterization of the F fertility inhibition systems of "unusual" Fin+ plasmids.

Flac mutants insensitive to transfer inhibition by R factors. JR66a and R485 were isolated and characterized. Representative mutations were cis dominant and are therefore presumed to be at the sites of action, fisU and fisV, respectively, of the FinU and FinV transfer inhibition systems encoded by JR66a and R485. The mutants were used to confirm that the FinU and FinV fertility inhibition systems are different from each other and from the FinOP, FinQ, and FinW systems of R100, R62, and R455, respectively. Together with traO and fisQ mutants of Flac, the new mutants were also used to investigate the nature of the F fertility inhibition systems encoded by a further group of "unusual" Fin+ plasmids. Of these, two incompatibility group X plasmids were found to carry finO+ genes, and of five incompatibility group I plasmids, three encoded FinQ systems, one the FinU system, and one a new system (FinR). Transfer of a variety of derepressed F-like plasmids was inhibited by the FinQ, FinU, and FinV systems, but a quantitatively very different levels; this emphasizes the differences as well as the similarities between the conjugation systems of F-like plasmids.