Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Molecular markers such as: lacZ (b-galactosidase), xylE (catechol 2,3-dioxygenase), lux (bacterial luciferase), luc (insect luciferase), phoA (alkaline phosphatase), gusA and gurA (beta-glucuronidase), gfp (green fluorescent protein), bla (beta-lactamase) and other antibiotic resistance markers, heavy metals resistance genes are commonly used in environmental microorganisms research (Errampaii et al., 1998; Kohler et al., 1999). Most of these markers require one or more substrates, complex media and/or expensive equipment for detection. The gfp gene is widely used as a marker because of its very useful properties such as high stability, minimal toxicity, non-invasive detection and the ability to generate the green light without addition of external cofactors and without application of expensive equipment. Various applications of that reporter gene were showed starting from monitoring of microorganism's survival in complex biological systems such as activated sludge to biodegradation of chemical compounds in soil. GFP allowed the detection, determination of spatial location and enumeration of bacterial cells from diverse environmental samples such as biofilm and water. The gfp as a biomarker was very useful in monitoring of gene expression and protein localisation in bacterial cells, too. The techniques with using gfp marker promise to supply a better understanding of environmental processes. It can make possible to use that knowledge in designing more effective and more efficient methods of biodegradation of toxic compounds from different environments.
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PMID:Green fluorescent protein as a molecular marker in microbiology. 1258 95

Relative merit of different enzyme labels for measuring cortisol directly in serum by competitive enzyme immunoassay (ELISA) was examined. Cortisol-21-hemisuccinate was labeled separately with penicillinase, horseradish peroxidase (HRP), and alkaline phosphatase (ALP) under identical reaction conditions. Antibody developed in rabbits against cortisol-3-0-(carboxymethyl)-oxime-bovine serum albumin was used to coat polystyrene tubes that were precoated with anti-rabbit gamma globulin (ARGG). Cortisol standards were prepared in steroid-free human serum in buffer (1:4) contaning 8-anilino-1-naphthalene sulfonic acid (8-ANS). Assay buffer also consisted 8-ANS. The assay involved adding standard cortisol or serum sample to antibody-coated tubes, followed by addition of enzyme label and buffer, and incubation for 2 h at 37 degrees C. The whole procedure took 3 h for completion. All three labels proved to be sensitive, with a slope around -2.0. Although penicillinase as an enzyme label was highly sensitive and stable compared with others, the assays were not always accurate and precise, especially at low concentrations of cortisol. This was mainly due to the color reagent used for measuring penicillinase activity. Serum samples that underwent 2-3 freeze-thaw cycles gave high values with HRP label compared with ALP. Therefore, utilizing ALP as an enzyme label, an ELISA was developed and its performance was comparable with some of the commercial kits already in the market.
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PMID:Comparative studies with penicillinase, horseradish peroxidase, and alkaline phosphatase as enzyme labels in developing enzyme immunoassay of cortisol. 1277 70

The human gastric pathogen Helicobacter pylori is naturally competent for genetic transformation. The H. pylori comB gene duster encodes the VirB4-homologous ATPase ComB4 and the structural proteins ComB7-ComB10, which share significant sequence identity to the Agrobacterium tumefaciens virB-encoded type IV secretion system. To study the topology of the ComB7-10 proteins, we applied TnMax transposon mutagenesis by generating fusions of ComB proteins with mature beta-lactamase (BlaM) or alkaline phosphatase (PhoA). Our data show that the putative lipoprotein ComB7 is secreted and is found membrane-attached, probably by its lipid anchor. According to our topology mapping ComB8 is a bitopic membrane protein with a short N-terminal portion in the cytoplasm and the remainder of the protein expanding into the periplasmic space. ComB9 was verified as a periplasmic protein, tightly attached to the membrane. The N-terminus of ComB10 is anchored in the cytoplasmic membrane and the major portion of the protein, including a putative coiled-coil domain, is located in the periplasm. Limited protease digestion and protein extraction under different salt and pH conditions confirmed the periplasmic localization and the tight membrane association of the ComB protein complex. A hypothetical model of the ComB DNA transformation pore in H. pylori is presented.
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PMID:Topology and membrane interaction of Helicobacter pylori ComB proteins involved in natural transformation competence. 1286 52

Intercellular communication plays a key role in the regulation of several physiological processes in gram-positive bacteria. Cell-cell communication is often mediated by secreted inducer peptide pheromones (IPs), which upon reaching a threshold concentration in the environment specifically activate a cognate membrane-localized histidine protein kinase (HPK). Interestingly, the majority of IP-activated HPKs fall into one distinct subfamily (HPK(10)). As part of an effort to study the mechanism underlying pheromone-mediated activation of the HPK(10) subfamily, the present work investigated the membrane topology of PlnB from Lactobacillus plantarum. Gene fusion experiments with Escherichia coli and Lactobacillus sakei, using alkaline phosphatase, beta-lactamase, and beta-galactosidase reporter fusions, suggested that PlnB is anchored to the cytoplasmic membrane via seven transmembrane segments. By domain switching between HPK(10) members, it was demonstrated that the determinants for pheromone binding and specificity are contained within the transmembrane domain. The results also indicate that the mechanism of signal transduction, in which the final transmembrane segment apparently plays a key role, is conserved between members of the HPK(10) subfamily.
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PMID:Structural analysis of the peptide pheromone receptor PlnB, a histidine protein kinase from Lactobacillus plantarum. 1461 55

AspT is an electrogenic aspartate:alanine exchange protein that represents the vectorial component of a proton-motive metabolic cycle found in some strains of Tetragenococcus halophilus. AspT is the sole member of a new family, the Aspartate: Alanine Exchanger (AAE) family, in secondary transporters, according to the computational classification proposed by Saier et al. (http://www.biology.ucsd.edu/~msaier/transport/). We analyzed the topology of AspT biochemically, by using fusion methods in combination with alkaline phosphatase or beta-lactamase. These results suggested that AspT has a unique topology; 8 TMS, a large cytoplasmic loop (183 amino acids) between TMS5 and TMS6, and N- and C-termini that both face the periplasm. These results demonstrated a unique 2D-structure of AspT as the novel AAE family.
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PMID:Membrane topology of the electrogenic aspartate-alanine antiporter AspT of Tetragenococcus halophilus. 1567 Jul 44

One of the best-studied examples of a class A beta-lactamase is Escherichia coli TEM-1 beta-lactamase. In this class of enzymes, the active-site serine residue takes on the role of a nucleophile and carries out beta-lactam hydrolysis. Here, the structures of the wild-type and the S70G enzyme determined to 1.55 and 2.1 A, respectively, are presented. In contrast to the previously reported 1.8 A structure, the active site of the wild-type enzyme (1.55 A) structure does not contain sulfate and Ser70 appears to be in the deprotonated form. The X-ray crystal structure of the S70G mutant has an altered Ser130 side-chain conformation that influences the positions of water molecules in the active site. This change allows an additional water molecule to be positioned similarly to the serine hydroxyl in the wild-type enzyme. The structure of the mutant enzyme suggests that this water molecule can assume the role of an active-site nucleophile and carry out noncovalent catalysis. The drop in activity in the mutant enzyme is comparable to the drop observed in an analogous mutation of the nucleophilic serine in alkaline phosphatase, suggesting common chemical principles in the utilization of nucleophilic serine in the active site of different enzymes.
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PMID:Structure of the wild-type TEM-1 beta-lactamase at 1.55 A and the mutant enzyme Ser70Ala at 2.1 A suggest the mode of noncovalent catalysis for the mutant enzyme. 1604 Oct 72

The dominant paradigm of protein engineering is structure-based site-directed mutagenesis. This rational approach is generally more effective for the engineering of local properties, such as substrate specificity, than global ones such as allostery. Previous workers have modified normally unregulated reporter enzymes, including beta-galactosidase, alkaline phosphatase, and beta-lactamase, so that the engineered versions are activated (up to 4-fold) by monoclonal antibodies. A reporter that could easily be "reprogrammed" for the facile detection of novel effectors (binding or modifying activities) would be useful in high throughput screens for directed evolution or drug discovery. Here we describe a straightforward and general solution to this potentially difficult design problem. The transcription factor p53 is normally regulated by a variety of post-translational modifications. The insertion of peptides into intrinsically unstructured domains of p53 generated variants that were activated up to 100-fold by novel effectors (proteases or antibodies). An engineered p53 was incorporated into an existing high throughput screen for the detection of human immunodeficiency virus protease, an arbitrarily chosen novel effector. These results suggest that the molecular recognition properties of intrinsically unstructured proteins are relatively easy to engineer and that the absence of crystal structures should not deter the rational engineering of this class of proteins.
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PMID:Rational design of p53, an intrinsically unstructured protein, for the fabrication of novel molecular sensors. 1611 6

To examine the relationship between folding and aggregation in the periplasm of Escherichia coli, we have analysed the cellular fates of exported proteins fused to either the wild-type maltose-binding protein (MalE) or the aggregation-prone variant MalE31. The propensity of fusion proteins to aggregate in the periplasm was determined by the intrinsic folding characteristics of the upstream protein. When beta-lactamase or alkaline phosphatase was linked to the C-terminus of MalE31, the resultant fusion proteins accumulated in an insoluble form, but retained their catalytic activity. In addition, these protein aggregates induced an extracytoplasmic stress response, similar to unfused MalE31. However, using a fluorescent substrate, we found that alkaline phosphatase activity was present inside periplasmic aggregates. These results suggest that periplasmic inclusion body formation may result in intermolecular interactions between participating proteins without loss of function of the fused enzymes.
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PMID:Formation of active inclusion bodies in the periplasm of Escherichia coli. 1702 May 81

We cloned the aspT gene encoding the L-aspartate:L-alanine antiporter AspTCt in Comamonas testosteroni genomic DNA. Analysis of the nucleotide sequence revealed that C. testosteroni has an asp operon containing aspT upstream of the l-aspartate 4-decarboxylase gene, and that the gene order of the asp operon of C. testosteroni is the inverse of that of Tetragenococcus halophilus. We used proteoliposomes to confirm the transport processes of AspTCt. To elucidate the two-dimensional structure of AspTCt, we analysed its membrane topology by means of alkaline phosphatase (PhoA) and beta-lactamase (BlaM) fusion methods. The fusion analyses revealed that AspTCt has seven transmembrane segments (TMs), a large cytoplasmic loop containing approximately 200 amino acid residues between TM4 and TM5, a cytoplasmic N-terminus, and a periplasmic C-terminus. These results suggest that the orientation of the N-terminus of AspTCt differs from that of tetragenococcal AspT, even though these two AspT orthologues catalyse the same transport reactions.
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PMID:Membrane topology of aspartate:alanine antiporter AspT from Comamonas testosteroni. 1715 63

Search for anti-beta-lactamase and synthesis of newer penicillin were suggested to overcome resistance to penicillin in chemotherapy. It was found that clavulanic acid, an ant-beta-lactamase was ineffective due to its structural modification by bacteria. Thus, there is a need for the synthesis of newer pencillins. Retro-synthesis was inspired by the success of forward reaction i.e.conversion of penicillin G to 6-aminopenicillanic acid (6-APA) by biological process. In the present study a better enzymatic method of synthesis of newer pencillin by a beta-lactamase-free penicillin amidase produced by Alcaligenes sp. is attempted. Antibacterial and toxicological evaluation of the enzymatically synthesized beta-lactams are reported. Condensation of 6-APA with acyl donor was found to be effective when the reaction is run in dimethyl formamide (DMF 50% v/v) in acetate buffer (25 mM pH 5.0) at 37 degrees C. Periplasm entrapped in calcium alginate exihibited the highest yield (approximately 34%) in synthesis. The minimum inhibitory concentration of the synthetic products against Staphylococcus aureus and Salmonella typhi varied between 20-80 microg/ml. Some of the products exhibited antibacterial activity against enteric pathogens. It was interesting to note that product A was potent like penicillin G. LD50 value of three products (product A, B and C) was more than 12 mg/kg. Furthermore, these synthetic beta-lactams did not exihibit any adverse effect on house keeping enzymes viz., serum glutamate oxalacetate-trans-aminase, serum glutamate pyruvate -trans-aminase, acid phosphatase, alkaline phosphatase of the test animals. The hematological profile (RBC and WBC) of the test animals also remained unaffected.
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PMID:Antibacterial and toxicological evaluation of beta-lactams synthesized by immobilized beta-lactamase-free penicillin amidase produced by Alcaligenes sp. 1825 14


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