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Query: EC:3.1.3.1 (
alkaline phosphatase
)
47,916
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The platelet aggregation inhibitor pallidipin is a protein present in the saliva of the blood-sucking triatomine bug Triatoma pallidipennis. Expression of recombinant pallidipin in the periplasm of Escherichia coli was achieved by placing its coding sequence downstream of the
alkaline phosphatase
(APase) or trc promoter in frame with bacterial leader peptide DNA sequences derived from APase or from the periplasmic form of cyclophilin (Cph). In each case the DNA sequence of mature pallidipin was merged to the leader peptide coding part, either directly, or while introducing additional amino acids, in order to assess their influence on the activity of the
leader peptidase
and on the biological activity of the recombinant protein. All tested constructs gave rise to abundant periplasmic expression of pallidipin, which was then purified by a combination of cation- and anion-exchange chromatography followed by size-exclusion gel chromatography. Recombinant pallidipin had the expected molecular mass (approximately 19 kDa) and was correctly processed, as demonstrated by SDS/PAGE and N-terminal amino acid sequencing. The highest expression levels were obtained with the three APase-derived expression plasmids. Platelet aggregation tests revealed that E. coli-derived pallidipin was fully active, with an IC50 of 33-89 nM, comparable with that of the native protein, except when an additional N-terminal lysyl-isoleucyl dipeptide was present, which resulted in an IC50 more than ten times higher.
...
PMID:Expression of active recombinant pallidipin, a novel platelet aggregation inhibitor, in the periplasm of Escherichia coli. 773 84
The soluble core domain of cytochrome b5 of liver endoplasmic reticulum was appended at its amino terminus to full-length
alkaline phosphatase
secretory signal sequence including the ribosomal binding site. The chimeric precursor gene was placed under the transcriptional control of the native pho promoter in a prokaryotic expression vector. Induction of Escherichia coli by growth in a phosphate-limited medium resulted in abundant synthesis of cytochrome b5 as detected spectrophotometrically and by visual transformation of the bacteria to a pink color. The signal-appended cytochrome b5, but not the corresponding signal-deficient derivative, was translocated across the bacterial inner membrane and processed to yield authentic, haem-assembled cytochrome b5 within the periplasm. The eventual processing of the chimeric cytochrome b5 precursor was unusual regarding the known reaction specificity of
signal peptidase
. The exported, mature haemoprotein was biochemically indistinguishable from its native mammalian counterpart. At peak induction, approximately 6 mg of correctly matured cytochrome b5 per liter of culture was exported. This amount of cytochrome b5 constituted 6% (w/w) of the periplasmic protein. The appearance of the exported apo-cytochrome b5 preceded the formation of holo-protein. Thus the eukaryotic cytoplasmic protein was efficiently exported from E. coli and post-translocationally modified to generate a functional haemoprotein in the periplasm.
...
PMID:Efficient bacterial export of a eukaryotic cytoplasmic cytochrome. 776 9
Ovomucoids are commonly present in bird egg white and exhibit inhibitory activity toward various serine proteases. To investigate the structure-function relationship of ovomucoid domain 3, we established a secretory expression system for the chicken ovomucoid domain 3 (OMCHI3)-encoding gene in Escherichia coli by ligating it downstream from the tac promoter and signal peptide of E. coli
alkaline phosphatase
. E. coli JM105 was transformed with the resulting plasmid and induced with 1 mM isopropyl-beta-D-thiogalactopyranoside (IPTG). The mature OMCHI3 was detected in the culture supernatant, and was purified to homogeneity by three-step chromatography. Amino-acid sequence analysis showed that processing by the
signal peptidase
was carried out exactly at the expected site. Measurements of circular dichroism spectra and inhibitory activity indicated that OMCHI3 was produced in the properly folded form. Furthermore, site-specific replacement of the Ala residue at the P1 site with Met or Lys resulted in acquisition of inhibitory activity toward chymotrypsin or trypsin, respectively, indicating that the P1 site is the predominant determinant for inhibitory specificity.
...
PMID:Secretory production of chicken ovomucoid domain 3 by Escherichia coli and alteration of inhibitory specificity toward proteases by substitution of the P1 site residue. 820 80
As a first step toward understanding the topology of the signal peptide with respect to the membrane during the protein export process, we have examined the constraints on the length of the cleavage region needed to achieve
signal peptidase
recognition and cleavage. Using the signal peptide of Escherichia coli
alkaline phosphatase
, a series of cleavage region mutants has been constructed. Variations in length were brought about by replacing the wild type cleavage region of the signal peptide with polymers of increasingly more residues. In each case, alanine residues are used exclusively in the -1 and -3 positions to provide only one viable cleavage site. Glutamine residues are used in all other positions in order to vary the length from 3 to 13 total residues. Analysis of these mutants revealed that cleavage regions ranging from 3 to 9 residues are completely and efficiently processed. The extent of processing drops substantially thereafter, with no processing observed for signal peptides with 13-residue long cleavage regions. A second mutant with a 13-residue long cleavage region was designed and analyzed to ensure that the lack of processing reflected a cleavage problem and not a translocation defect. The results are consistent with the notion that the
signal peptidase
active site is in close proximity to the periplasmic surface of the inner membrane and that interaction of the cleavage region with the
signal peptidase
probably depends on, and is constrained by, other interactions involving the signal peptide.
...
PMID:Signal peptide cleavage regions. Functional limits on length and topological implications. 820 36
We have recently reported a phoA expression vector, termed pMG, which, like TnphoA, is useful in identifying genes encoding membrane-spanning sequences or signal peptides. This cloning system has been modified to facilitate the distinction of outer membrane and periplasmic
alkaline phosphatase
(AP) fusion proteins from inner membrane AP fusion proteins by transforming pMG recombinants into Escherichia coli KS330, the strain utilized in the "blue halo" assay first described by Strauch and Beckwith (Proc. Natl. Acad. Sci. USA 85:1576-1580, 1988). The lipoprotein mutation lpp-5508 of KS330 results in an outer membrane that is leaky to macromolecules, and its degP4 mutation greatly reduces periplasmic proteolytic degradation of AP fusion proteins. pMG AP fusions containing cleavable signal peptides, including the E. coli periplasmic protein beta-lactamase, the E. coli and Chlamydia trachomatis outer membrane proteins OmpA and MOMP, respectively, and Tp 9, a Treponema pallidum AP recombinant, diffused through the leaky outer membrane of KS330 and resulted in blue colonies with blue halos. In contrast, inner membrane AP fusions derived from E. coli proteins, including
leader peptidase
, SecY, and the tetracycline resistance gene product, as well as Tp 70, a T. pallidum AP recombinant which does not contain a signal peptide, resulted in blue colonies without blue halos. Lipoprotein-AP fusions, including the Borrelia burgdorferi OspA and T. pallidum Tp 75 and TmpA showed halo formation, although there was significantly less halo formation than that produced by either periplasmic or outer membrane AP fusions. In addition, we applied this approach to screen recombinants constructed from a 9.0-kb plasmid isolated from the B31 virulent strain of B. burgdorferi. One of the blue halo colonies identified produced an AP fusion protein which contained a signal peptide with a
leader peptidase I
cleavage recognition site. The pMG/KS330r- cloning and screening approach can identify genes encoding proteins with cleavable signal peptides and therefore can serve as a first step in the identification of genes encoding potential virulence factors.
...
PMID:Use of the "blue halo" assay in the identification of genes encoding exported proteins with cleavable signal peptides: cloning of a Borrelia burgdorferi plasmid gene with a signal peptide. 832 Feb 28
A chimeric precursor interlinked by an arginine residue between the full-length signal sequence of
alkaline phosphatase
and the eukaryotic cytoplasmic cytochrome b5 was constructed. Expression of the chimeric precursor protein in Escherichia coli resulted in efficient export of spectrally authentic cytochrome b5 into the periplasm [Karim, Harding, Evans, Kaderbhai and Kaderbhai (1993) Bio/Technology 11, 612-618]. On sequencing, the apparent absence of arginine at the N-terminus of the secreted cytochrome b5 implied that the chimera was either miscleaved by
signal peptidase
or further processed following signal excision by an uncharacterized peptidase. The influence of the N-terminal region of cytochrome b5 on the unusual processing of the chimeric precursor was investigated by engineering a number of variant forms in which the region between Arg+1 and the mature portion of cytochrome b5 was extended and varied. Observations of the in vivo processed patterns of these variant cytochrome b5 forms exported into the periplasm revealed that the absence of arginine was due to neither miscleavage of the translocated precursor by the
signal peptidase
nor the nature of the early region of cytochrome b5. In fact, the selective excision of the arginine residue occurred subsequent to signal sequence deletion by an aminopeptidase which was sensitive to the metal chelator o-phenanthroline. We show that this aminopeptidase also participates in the trimming of the N-terminal arginine residue of the bacterial
alkaline phosphatase
to generate the three isoenzymes in the periplasm.
...
PMID:Processing of chimeric mammalian cytochrome b5 precursors in Escherichia coli: reaction specificity of signal peptidase and identification of an aminopeptidase in post-translocational processing. 835 42
The oversynthesis of the secreted
alkaline phosphatase
(PhoA) in E.coli K12802 cells due to transformation with the PhoA+ plasmid pHI-7 leads to a change in its biogenesis--alternative localization and accumulation of the enzyme intermediate forms corresponding to different stages of the its post-translational modification. Instead of the soluble PhoA available in the parent strain mostly as a completely processed mature metazyme III localized in the periplasm, five enzyme forms were discovered in the PhoA overproducer: a cytoplasmic PhoA precursor (prePhoA) as insoluble aggregates; three soluble metazymes of a mature active form localized in the periplasm as in well as in culture medium; and a soluble high-molecular form in the periplasm. PrePhoA was isolated and purified by removal of soluble cell fractions using differential centrifugation, solubilization of membrane proteins with Triton X100, dissolution of the aggregates in the buffer with 8M urea and FPLC on MonoQ. Extracellular PhoA was purified by ultrafiltration, thermal treatment, and gel chromatography on Sepharose CL-4B. It was shown that the isolated prePhoA can be transformed into a mature form in the presence of a
leader peptidase
in 0.8 urea and is completely cleaved with proteinase K. Three forms of the mature PhoA vary in resistance to proteinase K and trypsin. Metazyme I, the unprocessed mature PhoA, is the most resistant to proteolysis.
...
PMID:[Features of the biogenesis of Escherichia coli alkaline phosphatase during its supersynthesis]. 836 88
A tripartite fusion construct encoding the amino-terminal half of EcoRI endonuclease followed by amino acids 217-299 of the filamentous bacteriophage gene I protein (pI) attached to the enzymatic portion of
alkaline phosphatase
results in the production of two proteins. The larger protein, pIf, is the complete tripartite fusion protein while the smaller protein, pIf*, results from internal initiation of translation at pI methionine 241. Both pIf and pIf* span the Escherichia coli inner membrane via a 20-amino-acid hydrophobic stretch of pI with their amino termini in the cytoplasm and their carboxyl-terminal
alkaline phosphatase
domains in the periplasm. The
alkaline phosphatase
moiety of approximately 70% of pIf is released into the periplasm by in vivo proteolysis, but only about 10% of pIf* is cleaved. Neither DegP, OmpT, nor protease III are responsible for the cleavage in vivo, and
leader peptidase
is unable to cleave the fusion protein in vitro. Deletion and substitution analyses demonstrate that the degree of periplasmic cleavage depends on the sequence of the cytoplasmic domain of the fusion proteins. Possible mechanisms for this transmembrane-directed cleavage event are compared to proposed models for signal transduction.
...
PMID:The membrane domain of a bacteriophage assembly protein. Transmembrane-directed proteolysis of a membrane-spanning fusion protein. 844 11
Bradyrhizobium japonicum mutant 132 was obtained by random TnphoA mutagenesis of strain 110spc4. A 6.5 kb BamHI kanamycin-resistance-coding DNA fragment of mutant 132 was used as a hybridization probe to clone the corresponding wild-type fragment. DNA sequence analysis of a 3213 bp BamHI-ClaI fragment revealed that three open reading frames (ORFs) were encoded in the same orientation. Based on sequence similarities to other proteins in the database, the second ORF was called sipS (
signal peptidase
). The TnphoA insertion in mutant 132 was found to be in frame near the 3' end of sipS. The resulting SipS-PhoA hybrid polypeptide was shown to be expressed in free-living B. japonicum and in Escherichia coli cultures. An immunoblot analysis with a polyclonal antibody directed against the
alkaline phosphatase
revealed the appearance of a weak signal of a 70 kDa polypeptide both in B. japonicum and in E. coli, in agreement with the calculated size of the hybrid polypeptide. A much stronger 52 kDa band was also detected. Mutant 132 was specifically disturbed in the interaction with soybean (Glycine max) when the bacteria were released from the infection threads. The bacteroids were not stably maintained within the symbiosome. Numerous vesicles were found in the plant cytosol, which finally resulted in the formation of large vacuoles within the infected nodule cells. Immunohistochemical analyses with antibodies directed against nodulins of the peribacteroid membrane indicated a lower expression of these proteins. The mutant phenotype was genetically complemented by a 4.4 kb BamHI fragment including sipS. Subfragments thereof also complemented a temperature-sensitive E. coli lepB mutant, demonstrating that the B. japonicum fragment was functionally replacing Lepts in E. coli. Genetic studies suggested that the three genes are organized in one common operon which is expressed from a promoter upstream of the sequenced region. Inactivation of the gene downstream of sipS did not result in a detectable phenotype.
...
PMID:A TnphoA insertion within the Bradyrhizobium japonicum sipS gene, homologous to prokaryotic signal peptidases, results in extensive changes in the expression of PBM-specific nodulins of infected soybean (Glycine max) cells. 882 87
This report describes the properties and the functional utility of an unprocessed precursor protein overproduced in Escherichia coli. The precursor protein is from a fusion between DNA sequences coding for the
alkaline phosphatase
signal sequence and the full-length of rat liver cytochrome b(5). The intact precursor protein accumulated in the membranes represented to over 5% of the total bacterial protein. A procedure involving disruption of the bacterial cells by sonication, isolation of the membranes by differential centrifugation, solubilization with a polar solvent, and ion-exchange chromatography provided milligram quantities of the undegraded precursor in a homogeneous and soluble form. The chimeric precursor protein displayed a characteristic b-type hemoprotein spectrum, identical to that of the native cytochrome b(5). The properties of the precursor protein have been examined by a range of biophysical and biochemical methods. Molecular modeling suggests an amphipathic structure in which a fully preserved soluble core of cytochrome b(5) is terminally bonded by hydrophobic interactions between the amino-terminal signal sequence and the carboxy-terminal membrane anchoring hemoprotein sequence. The precursor substrate was recognized and efficiently cleaved by
signal peptidase
.
...
PMID:Expression, isolation, and characterization of a signal sequence-appended chimeric precursor protein. 886 Jun 48
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