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Disease
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Enzyme
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Gene/Protein
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Target Concepts:
Gene/Protein
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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)
Treponema pallidum subspecies pallidum is a pathogenic spirochaete for which there are no systems of genetic exchange. In order to provide a system for the identification of T. pallidum surface proteins and potential virulence factors, we have developed a novel expression vector which confers the utility of TnphoA transposition. The relevant features of this plasmid vector, termed pMG, include an inducible tac promoter, a polylinker with multiple cloning sites in three reading frames, and an
alkaline phosphatase
(AP) gene lacking the signal sequence-encoding region. Library construction with Sau3A-digested T. pallidum genomic DNA resulted in the creation of functional T. pallidum-AP fusion proteins. Analysis of fusion proteins and their corresponding DNA and deduced amino acid sequences demonstrated that they could be grouped into three categories: (i) those with signal peptides containing leader peptidase I cleavage sites, (ii) those with signal peptides containing
leader peptidase II
cleavage sites, and (iii) those with non-cleavable hydrophobic membrane-spanning sequences. Triton X-114 detergent phase partitioning of individual T. pallidum-AP fusions revealed several clones whose AP activity partitioned preferentially into the hydrophobic detergent phase. Several of these fusion proteins were subsequently shown to be acylated by Escherichia coli following [3H]-palmitate labelling, indicating their lipoproteinaceous nature. DNA and amino acid sequence analysis of one acylated fusion protein, Tp75, confirmed the presence of a hydrophobic N-terminal signal sequence containing a consensus
leader peptidase II
recognition site. The DNA sequence of Tp75 also indicates that this is a previously unreported T. pallidum lipoprotein. T. pallidum-AP fusion proteins which partitioned into the hydrophobic detergent phase but did not incorporate palmitate were also identified. DNA and amino acid analysis of one such clone, Tp70, showed no cleavable signal but had a significant hydrophobic region of approximately 20 residues, consistent with a membrane-spanning domain. Immunoblot analysis of T. pallidum-AP fusions detected with a monoclonal antibody specific for AP identified several fusion proteins which migrated as doublets separated in apparent electrophoretic mobility by no more than 3 kDa. [35S]-methionine pulse-chase incorporation showed that the doublet AP fusions represented precursor and processed forms of the same protein. DNA and amino acid sequence analysis of clones expressing processed fusion proteins demonstrated hydrophobic N-terminal signal sequences containing consensus leader peptidase I recognition sites.
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PMID:Identification of Treponema pallidum subspecies pallidum genes encoding signal peptides and membrane-spanning sequences using a novel alkaline phosphatase expression vector. 179 55
The lsp gene of Escherichia coli encodes the inner membrane enzyme,
signal peptidase II
(SPase II). SPase II is comprised of 164 amino acid residues and contains four hydrophobic domains. A series of lsp-phoA and lsp-lacZ gene fusions have been constructed in vitro to determine the topology of SPase II. The fusion junction for each of these gene fusions was determined by DNA sequencing. The lengths of the SPase II fragment in the fusions varied from 12 to 159 amino acid residues. Strains containing SPase II-PhoA fusions to the two predicted periplasmic loops exhibited higher levels of
alkaline phosphatase
activity than fusions to the predicted cytoplasmic domains. In contrast, SPase II-LacZ fusions at the cytoplasmic and the periplasmic domains of SPase II showed high and low levels of beta-galactosidase activity, respectively, a result opposite to those shown by SPase II-PhoA fusions located at precisely the same amino acid of SPase II. Taken together, these results strongly support the predicted model for SPase II topology, i.e. this enzyme spans the cytoplasmic membrane four times with both the amino and the carboxyl termini facing the cytoplasm.
...
PMID:Membrane topology of Escherichia coli prolipoprotein signal peptidase (signal peptidase II). 189 46
A novel Escherichia coli (Ec) lipoprotein expression plasmid, pSJLP, was constructed. The plasmid contains a truncated
alkaline phosphatase
gene (phoA) located downstream from the Lac repressor gene lacIq and the IPTG inducible Ptac promoter. The phoA gene was truncated by deleting the native phoA signal sequence and fusing the truncated phoA gene to the lipoprotein signal sequence of the major Ec lipoprotein LPP. The recombinant LPP::PhoA fusion protein is produced and processed as a lipoprotein and can therefore be used as substrate for a novel
signal peptidase II
assay.
...
PMID:A novel Escherichia coli lipoprotein expression vector. 748 7
The Agrobacterium tumefaciens virB7 gene product contains a typical signal sequence ending with a consensus
signal peptidase II
cleavage site characteristic of bacterial lipoproteins. VirB7 was shown to be processed as a lipoprotein by (i) in vivo labeling of native VirB7 and a VirB7::PhoA fusion with [3H]palmitic acid and (ii) inhibition of VirB7 processing by globomycin, a known inhibitor of
signal peptidase II
. A VirB7 derivative sustaining a Ser substitution for the invariant Cys-15 residue within the
signal peptidase II
cleavage site could not be visualized immunologically and failed to complement a delta virB7 mutation, establishing the importance of this putative lipid attachment site for VirB7 maturation and function. VirB7 partitioned predominantly with outer membrane fractions from wild-type A348 cells as well as a delta virB operon derivative transformed with a virB7 expression plasmid. Expression of virB7 fused to phoA, the
alkaline phosphatase
gene of Escherichia coli, gave rise to high
alkaline phosphatase
activities in E. coli and A. tumefaciens cells, providing genetic evidence for the export of VirB7 in these hosts. VirB7 was shown to be intrinsically resistant to proteinase K; by contrast, a VirB7::PhoA derivative was degraded by proteinase K treatment of A. tumefaciens spheroplasts and remained intact upon treatment of whole cells. Together, the results of these studies favor a model in which VirB7 is topologically configured as a monotopic protein with its amino terminus anchored predominantly to the outer membrane and with its hydrophilic carboxyl domain located in the periplasmic space. Parallel studies of VirB5, VirB8, VirB9, and VirB10 established that each of these membrane-associated proteins also contains a large periplasmic domain whereas VirB11 resides predominantly or exclusively within the interior of the cell.
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PMID:The Agrobacterium tumefaciens virB7 gene product, a proposed component of the T-complex transport apparatus, is a membrane-associated lipoprotein exposed at the periplasmic surface. 865 94
Francisella tularensis, the causative agent of tularemia, is a highly infectious pathogen of humans and animals, yet little is known about the surface proteins of this organism that mediate mechanisms of pathogenicity. lambdaTnphoA was used to generate random
alkaline phosphatase
gene fusions in a F. tularensis subsp. tularensis (strain Schu S4) genomic library to identify genes encoding exported extracytoplasmic proteins. Eleven genes encoding membrane-associated proteins were identified by this method and their respective signal peptides were characterized. Three of the genes encoded conserved 'housekeeping' enzymes, while the other eight genes were unique to F. tularensis, encoding proteins with molecular masses ranging from 11 to 78kDa as deduced from the amino acid sequences. Two genes putatively encoded lipoproteins based on the presence of characteristic
signal peptidase II
cleavage sites. Four selected proteins were found associated with outer membranes from Schu S4 and LVS strains by Western blotting. Indirect immunofluorescence of strain Schu S4 cells also showed evidence of protein localization to the outer membrane. Protein database searches produced significant alignments with proteins from other bacteria involved in carbohydrate transport, lipid metabolism, and cell envelope biogenesis, thereby providing clues for putative functions. These findings demonstrated that TnphoA mutagenesis can be used in conjunction with F. tularensis genome sequence data to provide a foundation for studies to identify and define cellular surface protein virulence factors of this pathogen.
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PMID:Identification of Francisella tularensis genes encoding exported membrane-associated proteins using TnphoA mutagenesis of a genomic library. 1545 81
