EC:3.1.3.1 - FACTA Search

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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)

Ultrastructural studies on the Malpighian tubules of Glomeris marginata (Villers) reveal considerable morphological differences between the upper, fluid secreting, segment, and the lower segment which is at present of unknown function. Previous reports have shown that the upper tubule has a high permeability to compounds of high molecular weight. This may be accounted for by the fact that the epithelium shows very extensive intercellular spaces which are linked directly to junctions apparently specialised to provide a low resistance extracellular pathway between the haemocoel and the tubule lumen. Histochemical studies on the localisation of phosphatase enzymes reveal intracellular vesicles with acid phosphatase activity. The basal labyrinth of the lower tubule exhibits considerable alkaline phosphatase activity which is apparently identical in location to the enzyme revealed by two different ATPase localisation techniques.
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PMID:Ultrastructural studies on the Malpighian tubule of the pill millipede, Glomeris marginata (villers). 14 32

The response of tumorigenic human synovial sarcoma (HSS) cell line to 10(-5)M optimum concentration of retinoic acid (RA) included changes in morphology, growth rate, suppression of anchorage-independent growth, induction of high alkaline phosphatase activity and excessive secretion of a 68 kDA glycoprotein of unknown function. HSS cells pretreated with 10(-5)M RA exhibited differential response to 3 potent anticancer drugs, namely cisplatin, vincristine and adriamycin. Sensitivity of the cells to cisplatin was found to be considerably enhanced after exposure to retinoic acid.
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PMID:Differential response of retinoic acid pretreated human synovial sarcoma cell line to anticancer drugs. 166 53

Studies of T (thymus-derived) lymphocyte ontogeny in the guinea pig have been hampered by the lack of suitable antigenic or other markers for various T cell subpopulations in this species. Monoclonal antibodies that recognize three distinct surface proteins of guinea pig T cells and react with all peripheral T cells have been used in combination with membrane alkaline phosphatase (AP) to characterize stages of guinea pig T cell development and to determine anatomical localization of different T cell subpopulations. Flow cytofluorographic analysis of thymus, spleen, and lymph node lymphocytes was used to characterize monoclonal antibody specificity. Cortical thymocytes in tissue sections expressed membrane AP activity and contained nuclear terminal deoxynucleotidyl transferase; medullary thymocytes reacted strongly with one of the monoclonal antibodies (8BE6), minimally with a second (5CD2), and not at all with a third (11AE3). In contrast, polyclonal rabbit antiguinea pig T cell antiserum reacted with both cortical and medullary thymocytes. Staining of tissue sections of lymph node and spleen revealed AP+ lymphocytes to be present peripheral to the mantle region of lymph node follicles and to be randomly scattered throughout the splenic red pulp. T cells reactive with monoclonal antibodies were located primarily in paracortical regions of lymph node and the central region around the periarteriolar regions of the spleen. Dual staining of frozen sections and cell suspension of guinea pig lymphoid tissues for AP activity and surface proteins unique to T cells showed that AP+ cells lacked T cell markers. Dual staining for AP activity and surface immunoglobulins or esterase activity showed that AP+ cells are not likely to be derived from either B cell or monocyte-macrophage lineages. AP+ cells in guinea pig secondary lymphoid tissue may represent a unique subset of lymphocytes of unknown function.
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PMID:Guinea pig T lymphocyte development analyzed by enzyme histocytochemistry, monoclonal antibodies, and flow cytometry. 257 90

Alkaline phosphatase [ALP; orthophosphoric-monoester phosphohydrolase (alkaline optimum), EC 3.1.3.1] is a ubiquitous enzyme of unknown function expressed at high levels in cells of mineralizing tissues. To study the structure, function, and expression of ALP, a full-length cDNA of rat ALP (2415 bases) was isolated from a ROS 17/2.8 osteosarcoma cell lambda gt10 cDNA library. The predicted amino acid sequence spans 524 residues and includes an N-terminal signal peptide of 17 amino acids, the phosphohydrolase active site, a rather hydrophilic backbone with five potential N-glycosylation sites, and a short hydrophobic C-terminal sequence. ALP negative CHO cells transfected with an expression vector containing the ALP coding sequences express ALP. The rat bone, liver, and kidney ALP shows remarkable 90% homology with the corresponding human enzyme, the most divergent region being the C-terminal hydrophobic domain through which the enzyme may be anchored to the plasma membrane. The rat ALP also shows 50% homology with the human placental and intestinal ALP and 25% homology with the Escherichia coli ALP. The amino acids involved in catalysis show nearly complete homology among all known ALP sequences, suggesting that these enzymes evolved from a common ancestral gene. The rat ALP cDNA pRAP 54, used as a hybridization probe in RNA blot analysis of several tissues that express ALP, revealed the presence of an ALP mRNA of approximately equal to 2500 bases. Furthermore, hybridization patterns derived from Southern blot analysis of rat chromosomal DNA offered molecular evidence that the ALP expressed in ROS 17/2.8 osteosarcoma and various rat tissues, excluding the intestine, is the product of the same single copy gene.
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PMID:Structure and expression of rat osteosarcoma (ROS 17/2.8) alkaline phosphatase: product of a single copy gene. 342 31

Virulence gene activation in Vibrio cholerae is under the control of the ToxR-ToxT regulatory cascade. The ToxR regulon consists of genes required for toxin-coregulated-pilus (TCP) biogenesis, accessory colonization factor genes, cholera toxin genes, and ToxR-activated genes (tag) of unknown function. The tagB gene was isolated by using a tagB::TnphoA fusion junction to probe a V. cholerae )395 bacteriophage lambda library. Nucleotide sequence analysis revealed that tagB is identical to tcpI, a gene which encodes a protein that negatively regulates the synthesis of the major pilin subunit of TCP (TcpA). Our results show that the tcpI gene encodes a 620-amino-acid protein that shares extensive sequence similarity with the highly conserved signaling domain in methyl-accepting chemotaxis proteins. Expression of tcpI in Escherichia coli results in the synthesis of a 71-kDa polypeptide that becomes localized to the inner membrane. Similarly, TcpI-PhoA alkaline phosphatase activity is enriched in V. cholerae inner membrane preparations. Colonies of V. cholerae tcpI::TnphoA mutant cells display increased swarming on solid media when compared with those of the parental V. cholerae O395. Taken together, these observations suggest that TcpI may play a dual role in promoting vibrio colonization of the small bowel. In response to the appropriate environmental signal(s), TcpI permits maximum expression of tcpA while simultaneously reducing vibrio chemotaxis-directed motility. We believe coordinate regulation of colonization and motility determinants, in such a fashion, facilitates efficient V. cholerae microcolony formation.
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PMID:The Vibrio cholerae toxin-coregulated-pilus gene tcpI encodes a homolog of methyl-accepting chemotaxis proteins. 800 59

A gene (phoV) encoding an alkaline phosphatase from Synechococcus sp. strain PCC 7942 was isolated by screening a plasmid gene bank for expression of alkaline phosphatase activity in Escherichia coli JM103. Two independent clones carrying the same alkaline-phosphatase-encoding gene were isolated. One of these clones (pKW1) was further analysed and the nucleotide sequence of a contiguous 3234 bp DNA fragment was determined. Two complete open reading frames (ORF1 and phoV) and an incomplete ORF3 were identified reading in the same direction. The deduced phoV gene product showed 34% identity to the alkaline phosphatase PhoA from Zymomonas mobilis, and the N-terminal part of the putative ORF3 protein exhibited 57% identity to a protein of unknown function from Frankia sp. Insertional inactivation of the Synechococcus PCC 7942 phoV gene failed, indicating an essential role for either the phoV or the ORF3 gene product. PhoV consists of 550 amino acid residues, resulting in a molecular mass of 61.3 kDa. To overexpress the Synechococcus PCC 7942 phoV gene in E. coli, plasmid pKW1 was transformed into a phoA mutant of E. coli (CC118). In E. coli strain CC118(pKW1) PhoV was expressed constitutively with high rates of activity, and was shown to be membrane associated in the periplasmic space. After partial purification of the recombinant PhoV, it was shown that, like other alkaline phosphatases, the Synechococcus PhoV had a broad pH optimum in the alkaline region and a broad substrate specificity for phosphomonoesters, required Zn2+ for activity, and was inhibited by phosphate. In contrast to several other alkaline phosphatases, PhoV was inhibited by Mn2+. Due to the lack of a Synechococcus PCC 7942 phoV mutant strain, the function of PhoV remains uncertain. However, the present results show that Synechococcus PCC 7942 has a second, probably phosphate-irrepressible, alkaline phosphatase (PhoV, 61.3 kDa) in addition to the phosphate-repressible enzyme (PhoA, 145 kDa) already described.
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PMID:The cyanobacterium Synechococcus sp. strain PCC 7942 contains a second alkaline phosphatase encoded by phoV. 857 98

The existence of specific dl-glycerol-3-phosphatase (EC 3.1.3.21) activity in extracts of Saccharomyces cerevisiae was confirmed by examining strains lacking nonspecific acid and alkaline phosphatase activities. During purification of the glycerol-3-phosphatase, two isozymes having very similar molecular weights were isolated by gel filtration and anion exchange chromatography. By microsequencing of trypsin-generated peptides the corresponding genes were identified as previously sequenced open reading frames of unknown function. The two genes, GPP1 (YIL053W) and GPP2 (YER062C) encode proteins that show 95% amino acid identity and have molecular masses of 30.4 and 27.8 kDa, respectively. The intracellular concentration of Gpp2p increases in cells subjected to osmotic stress, while the production of Gpp1p is unaffected by changes of external osmolarity. Both isoforms have a high specificity for dl-glycerol-3-phosphate, pH optima at 6.5, and KmG3P in the range of 3-4 mM. The osmotic induction of Gpp2p is blocked in cells that are defective in the HOG-mitogen-activated protein kinase pathway, indicating that GPP2 is a target gene for this osmosensing signal transduction pathway. Together with DOG1 and DOG2, encoding two highly homologous enzymes that dephosphorylate 2-deoxyglucose-6-phosphate, GPP1 and GPP2 constitute a new family of genes for low molecular weight phosphatases.
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PMID:Purification and characterization of two isoenzymes of DL-glycerol-3-phosphatase from Saccharomyces cerevisiae. Identification of the corresponding GPP1 and GPP2 genes and evidence for osmotic regulation of Gpp2p expression by the osmosensing mitogen-activated protein kinase signal transduction pathway. 866 16

We have screened the EUROFAN (European Functional Analysis Network) deletion strain collection for yeast mutants defective in secretory/vacuolar pathways and/or associated biochemical modifications. We used systematic Western immunoblotting to analyse the electrophoretic pattern of several markers of the secretory/vacuolar pathways, the soluble alpha-factor, the periplasmic glycoprotein invertase, the plasma membrane GPI-anchored protein Gas1p, and two vacuolar proteins, the soluble carboxypeptidase Y and the membrane-bound alkaline phosphatase, which are targeted to the vacuole by different pathways. We also used colony immunoblotting to monitor the secretion of carboxypeptidase Y into the medium, to identify disruptants impaired in vacuolar targeting. We identified 25 mutants among the 631 deletion strains. Nine of these mutants were disrupted in genes identified in recent years on the basis of their involvement in trafficking (VPS53, VAC7, VAM6, APM3, SYS1), or glycosylation (ALG12, ALG9, OST4, ROT2). Three of these genes were identified on the basis of trafficking defects by ourselves and others within the EUROFAN project (TLG2, RCY1, MON2). The deletion of ERV29, which encodes a COPII vesicle protein, impaired carboxypeptidase Y trafficking from the endoplasmic reticulum to the Golgi apparatus. We also identified eight unknown ORFs, the deletion of which reduced Golgi glycosylation or impaired the Golgi to vacuole trafficking of carboxypeptidase Y. YJR044c, which we identified as a new VPS gene, encodes a protein with numerous homologues of unknown function in sequence databases.
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PMID:Mutants defective in secretory/vacuolar pathways in the EUROFAN collection of yeast disruptants. 1187 Aug 58

The Saccharomyces cerevisiae VPS55 (YJR044c) gene encodes a small protein of 140 amino acids with four potential transmembrane domains. VPS55 belongs to a family of genes of unknown function, including the human gene encoding the obesity receptor gene-related protein (OB-RGRP). Yeast cells with a disrupted VPS55 present normal vacuolar morphology, but exhibit an abnormal secretion of the Golgi form of the soluble vacuolar carboxypeptidase Y. However, trafficking of the membrane-bound vacuolar alkaline phosphatase remains normal. The endocytosis of uracil permease, used as an endocytic marker, is normal in vps55Delta cells, but its degradation is delayed and this marker transiently accumulates in late endosomal compartments. We also found that Vps55p is mainly localized in the late endosomes. Collectively, these results indicate that Vps55p is involved in late endosome to vacuole trafficking. Finally, we show that human OB-RGRP displays the same distribution as Vps55p and corrects the phenotypic defects of the vps55Delta strain. Therefore, the function of Vps55p has been conserved throughout evolution. This study highlights the importance of the multispanning Vps55p and OB-RGRP in membrane trafficking to the vacuole/lysosome of eukaryotic cells.
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PMID:Yeast Vps55p, a functional homolog of human obesity receptor gene-related protein, is involved in late endosome to vacuole trafficking. 1200 63

Bone morphogenetic proteins (BMPs) play critical roles in cellular proliferation, differentiation, and programmed cell death in multiple tissues. An increasing body of recent evidence has suggested that classes of molecules collectively termed BMP antagonists play important roles for the local regulation of BMP actions by binding BMPs and neutralizing their activities. Uterine sensitization-associated gene-1 (USAG-1) was previously reported as a gene of unknown function, preferentially expressed in sensitized endometrium of the rat uterus. Here, we show that USAG-1 is abundantly expressed in the kidney and functions as a BMP antagonist. Recombinant USAG-1 binds directly to BMPs and antagonizes the BMP-mediated induction of alkaline phosphatase in C2C12 cells. USAG-1 also induces formation of secondary axis and/or hyperdorsalization when its mRNA is injected to Xenopus embryos. In the early stage of mouse embryogenesis, USAG-1 is expressed in the first and second branchial arches and in metanephros, while in later stages the expression is confined to renal tubules and ameloblasts of teeth. Postnatally, the expression is further restricted to distal tubules of kidney, in a pattern similar to the localization of BMP-7, which has been shown to be important in the development of kidney and preservation of adult renal functions under pathological stresses. Collectively, we suggest that USAG-1 is a BMP antagonist that interacts with BMP-7 in the developing and adult kidney.
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PMID:USAG-1: a bone morphogenetic protein antagonist abundantly expressed in the kidney. 1502 Feb 44

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