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Query: UNIPROT:P06889 (Mol)
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Transgenic animal models harboring chromosomally integrated shuttle vectors with bacterial reporter genes are now widely used to measure in vivo mutant frequencies. The lacZ-plasmid transgenic mouse model has a unique sensitivity to large rearrangements compared to systems using bacteriophage lambda vectors, which mainly detect point mutations and small deletions or insertions. In this study, the background mutant frequencies and spectra in the lacZ-plasmid transgenic mouse model were investigated. While the majority of the recovered lacZ-mutants appeared to have originated in the mouse, a subset of mutants are likely to represent artifacts, and occur with a frequency of about 1.3 x 10(-5), irrespective of the total mutant frequency. Galactose-insensitive host cells, due to galE back mutations or galK or galT forward mutations, grow through the positive selection system and cause a small subset of the background. When using HindIII to excise the plasmids from genomic DNA, the largest contribution to the background, (1.1 +/- 0.3) x 10(-5), appeared to be caused by star activity, i.e., cleavage at nucleotide sequences other than the HindIII restriction enzyme recognition sequence, during the recovery procedure. Finally, a total of 10 polymorphic sites in different copies of the lacZ-plasmid cluster in founder line 60 were discovered.
Environ Mol Mutagen 1999
PMID:Background mutations and polymorphisms in lacZ-plasmid transgenic mice. 1052 34

Mucus-bacterial interactions in the gastrointestinal tract and their impact on subsequent enteric infections are poorly delineated. In the present study, we have examined the binding of Salmonella typhimurium to rat intestinal mucus and characterized a mucus protein (Mucus-Rs) which specifically binds to S. typhimurium. Both virulent (1402/84), and avirulent (SF 1835) S. typhimurium were observed to bind to crude mucus, however, the virulent strain showed 6 fold more binding as compared to avirulent strain. Fractionation of crude mucus on sepharose CL-6B resolved it into three major peaks. Maximal bacterial binding was observed with a high mol. wt. glycoprotein corresponding to neutral mucin. SDS-PAGE of purified protein (termed Mucus-Rs) under non reducing conditions showed it to be a homogenous glycoprotein (mol. wt. 250 kDa), while under reducing conditions, three bands corresponding to mol. wt. of 118,75 and 60 kDa were observed. Pretreatment of Mucus-Rs with pronase, trypsin and sodium metaperiodate markedly inhibited bacterial binding. GLC analysis of Mucus-Rs showed it to contain Mannose, Glucose, Galactose, Glucosamine, Galactosamine and Sialic acid as main sugars. Competitive binding in the presence of various sugars and lectins indicated the involvement of mannose in the mucus-bacterial interactions. The Mucus-Rs binding was highly specific for S. typhimurium; no significant binding was seen with E. coli and V. cholerae. Thus, we conclude that S. typhimurium specifically binds to a 250 kDa neutral mucin of intestinal tract. This binding appears to occur via specific adhesin-receptor interactions involving bacterial pili and mannose of neutral mucin.
Mol Cell Biochem 2000 Jan
PMID:Intestinal mucins: the binding sites for Salmonella typhimurium. 1071 31

Galactose-1-phosphate uridyltransferase (GALT) is expressed in most tissues, but the near total absence of catalytic activity in humans with the disease galactosemia leads to specific organ dysfunction, the pathophysiology of which remains an enigma. To characterize the transcriptional regulation of the mouse GALT gene, we isolated and sequenced over 3 kb of a 5'-flanking sequence and functionally characterized the region using in vitro transient transfection and in transgenic mice. A minimal promoter of 145 bp was found to function in both HepG2 cells and NS20Y mouse neuroblastoma cells. The minimal promoter contains regions of homology to the corresponding rat and human GALT genes. In transgenic mice expressing a luciferase transgene under control of a 1.9-kb fragment of the mGALT promoter region, reporter activity was found in most tissues, with higher than expected reporter levels in neonatal brain. To determine if high galactose levels in tissues could induce promoter activity, we bred the mGALT:luciferase transgene into a line of mice in which the GALT gene function has been eliminated by homologous recombination. High tissue levels of galactose and metabolites did not induce reporter activity above background. The studies show that GALT transcriptional regulation is complex and not directly induced by substrate levels.
Mol Genet Metab 2001 Jan
PMID:Functional analysis of the mouse galactose-1-phosphate uridyl transferase (GALT)promoter. 1116 26

Mice deficient in galactose-1-phosphate uridyltransferase (GALT) demonstrate abnormal galactose metabolism but no obvious clinical phenotype. To further dissect the pathways of galactose metabolism in these animals, galactose oxidation and metabolite levels were studied in 16-day-old sucklings and the effect of a 4 week prior exposure to a 40% glucose or 40% galactose diet was determined in 7-week-old mice. Suckling GALT-deficient (G/G) mice slowly oxidized [1-14C]galactose to 14CO2, 4.0% of the dose when fed and 7.9% when fasted compared to normal animals 38.3 and 36.4% in 4 h, respectively. Plasma of G/G sucklings contained 11.1 mM galactose and erythrocyte galactose 1-phosphate levels were 28.2 and 31.9 mg/dl packed cells. Galactose, galactitol, galactonate, and galactose 1-phosphate were found in G/G suckling mouse tissues. The tissue galactose concentrations were 10% or less of that in plasma, suggesting that there was limited cellular entry of galactose. In 7-week-old fasted mice with 4 weeks prior exposure to glucose or galactose-containing diet, 4-h oxidation was 12.9 and 15.0% of the administered radiolabeled galactose, respectively. Normal animals oxidized 33.9 and 37.9% of the dose when fed the same diets, respectively. The ability of G/G mice to oxidize galactose in the absence of GALT activity suggests the presence of alternate metabolic pathways for galactose disposition. G/G mice fed the galactose-free 40% glucose diet had erythrocyte galactose 1-phosphate levels ranging from 6.4 to 17.7 mg/dl packed cells and detectable galactose and galactose metabolites in tissues, suggesting that these animals endogenously produced galactose. The plasma of 40% galactose-fed G/G mice contained 9.1 mM galactose with red blood cell galactose 1-phosphate averaging 43.6 mg/dl. Tissues of these animals also contained high levels of galactose and galactose 1-phosphate. Liver contained over 4 micromol/g galactonate but little galactitol. Despite the elevated galactose and galactose 1-phosphate, the animals tolerated the high-galactose diet and were indistinguishable from normal animals, exhibiting no manifestations of galactose toxicity seen in human GALT-deficient galactosemia. The data suggest that high galactose 1-phosphate levels do not cause galactose toxicity and that high galactitol in combination with galactose 1-phosphate may be a prerequisite. Absence of GALT appears necessary but insufficient to produce human galactosemic phenotype.
Mol Genet Metab 2001 Apr
PMID:Galactose metabolism in mice with galactose-1-phosphate uridyltransferase deficiency: sucklings and 7-week-old animals fed a high-galactose diet. 1128 4

Galactose is transferred via several linkages to acceptor structures by galactosyltransferase enzymes. In prokaryotes, galactose is mainly found on lipopolysaccharides and capsular polysaccharides. In eukaryotes, galactosyltransferases, which are localized in the Golgi apparatus, are involved in the formation of several classes of glycoconjugates and in lactose biosynthesis. Although they sometimes catalyze identical reactions, prokaryotic and eukaryotic galactosyltransferases share only little structural similarities. In mammals, 19 distinct galactosyltransferase enzymes have been characterized to date. These enzymes catalyze the transfer of galactose via beta1-4, beta1-3, alpha1-3 and alpha1-4 linkages. The present review focuses on the description of these mammalian galactosyltransferases.
Cell Mol Life Sci 2002 Jul
PMID:The galactosyltransferase family. 1222 57

Dextran-binding antibody was isolated in high yield from plasma of all 40 blood donors screened in a South Indian population. The antibody was purified by a single step affinity chromatography on Sephadex G100 using 1-O-methyl alpha-D-glucoside as eluant. Analysis of protein peaks obtained in size exclusion high pressure liquid chromatography (HPLC) revealed dominance of IgG and suggested the presence of polymeric IgA in this antibody. Methyl and para-nitrophenyl alpha-D-glucosides, in contrast to their beta-anomers, were very efficient inhibitors of binding of this antibody to dextran. Galactose and glucose were equally good inhibitors. Among disaccharide inhibitors sucrose was more efficient than maltose or melibiose. Hemoglobin artificially glycosylated to contain covalently-linked glucose or alpha-anomeric galactose was sugar-specifically recognized by this antibody. Galactose moieties in glycoproteins or polysaccharides were, however, not recognized. The dextran-binding antibody bound sugar-specifically to glycoconjugates from yeast (Saccharomyces cerevisiae) and to lipopolysaccharides from Klebsiella and group A Streptococci, but not to lipopolysaccharides from E. coli. Inhibition studies suggested glucose moiety with unsubstituted C2 and C4 and alpha-anomeric C1 as ideal for recognition by the dextran-binding antibody. Concentration of glucose required for 50% inhibition of binding of the purified antibody to polystyrene-coated dextran in phosphate buffered saline was above the glucose concentrations in normal sera, but well below those reached in diabetic sera. Binding of the antibody from dialysed plasma to immobilized dextran was lowered only marginally in presence of glucose at 4.5mM (which nears normal serum glucose concentrations), but substantially in presence of the sugar at 20mM and above which are reached in diabetic sera. If verified in vivo, inhibition of this antibody by high serum glucose may possibly be among reasons for the increased susceptibility of diabetics to infection.
Mol Immunol 2003 May
PMID:Dextran-binding human plasma antibody recognizes bacterial and yeast antigens and is inhibited by glucose concentrations reached in diabetic sera. 1269 19

Galactose is metabolized in humans and other species by the three-enzyme Leloir pathway comprised of galactokinase (GALK), galactose 1-P uridylyltransferase (GALT), and UDP-galactose 4'-epimerase (GALE). Impairment of GALT or GALE in humans results in the potentially lethal disorder galactosemia, and loss of either enzyme in yeast results in galactose-dependent growth arrest of cultures despite the availability of an alternate carbon source. In contrast, loss of GALK in humans is not life-threatening, and in yeast has no impact on the growth of cultures challenged with galactose. Further, the growth of both GALT-null and GALE-null yeast challenged with galactose is rescued by loss of GALK, thereby implicating the GALK reaction product, gal-1P, for a role in the galactose-sensitivity of both strains. However, the nature of that relationship has remained unclear. Here we have developed and applied a doxycycline-repressible allele of galactokinase to define the quantitative relationship between galactokinase activity, gal-1P accumulation, and growth arrest of galactose-challenged GALT or GALE-deficient yeast. Our results demonstrate a clear threshold relationship between gal-1P accumulation and galactose-mediated growth arrest in both GALT-null and GALE-null yeast, however, the threshold for the two strains is distinct. Further, we tested the galactose-sensitivity of yeast double-null for GALT and GALE, and found that although loss of GALT barely changed accumulation of gal-1P, it significantly lowered the accumulation of UDP-gal, and also dramatically rescued growth of the GALE-null cells. Together, these data suggest that while gal-1P alone may account for the galactose-sensitivity of GALT-null cells, other factors, likely to include UDP-gal accumulation, must contribute to the galactose-sensitivity of GALE-null cells.
Mol Genet Metab 2008 Feb
PMID:Distinct roles of galactose-1P in galactose-mediated growth arrest of yeast deficient in galactose-1P uridylyltransferase (GALT) and UDP-galactose 4'-epimerase (GALE). 1798 Oct 65

Patients with an influenza virus infection can be complicated by acute encephalopathy and encephalitis. To investigate the immune reactions involved in the neurocomplication, mouse microglia and astrocytes were isolated, infected with human H1N1 and avian H5N1 influenza viruses, and examined for their immune responses. We observed homogeneously distributed viral receptors, sialic acid (SA)-alpha2,3-Galactose (Gal) and SA-alpha2,6-Gal, on microglia and astrocytes. Both viruses were replicative and productive in microglia and astrocytes. Virus-induced apoptosis and cytopathy in infected cells were observed at 24 h post-infection (p.i.). Expression of IL-1beta, IL-6 and TNF-alpha mRNA examined at 6 h and 24 h p.i. was up-regulated, and their expression levels were considerably higher in H5N1 infection. The amounts of secreted proinflammatory IL-1beta, IL-6 and TNF-alpha at 6 h and 24 h p.i. were also induced, with greater induction by H5N1 infection. This study is the first demonstration that both human H1N1 and avian H5N1 influenza viruses can infect mouse microglia and astrocytes and induce apoptosis, cytopathy, and proinflammatory cytokine production in them in vitro. Our results suggest that the direct cellular damage and the consequences of immunopathological injury in the CNS contribute to the influenza viral pathogenesis.
Cell Mol Immunol 2008 Apr
PMID:Apoptosis and proinflammatory cytokine responses of primary mouse microglia and astrocytes induced by human H1N1 and avian H5N1 influenza viruses. 1844 41

The vtc2 mutant of Arabidopsis thaliana is vitamin C deficient and is defective in the ascorbate biosynthesis enzyme GDP-L-Galactose phosphorylase/L -Galactose guanylyltransferase. The connection between the VTC2 gene and this enzyme has only recently been established, and little is known about the molecular characteristics of the VTC2 gene. In this paper, the expression of the VTC2 gene was characterized on both the RNA and the protein level. The VTC2 gene was expressed in all developmental stages, and the mRNA was expressed at a higher level in green tissues than in the root. VTC2 mRNA expression was induced strongly by exposing dark-grown seedlings to light, to levels higher than found in light-grown seedlings. A VTC2:GUS fusion protein was detected only in green tissues. Unexpectedly, a VTC2:YFP fusion protein was found not only in the cytosol, but also in the nucleus, which suggests that GDP-L-Galactose phosphorylase/L: -Galactose guanylyltransferase might be a dual-function protein, which has both enzymatic and regulatory function.
Plant Mol Biol 2008 Sep
PMID:An expression analysis of the ascorbate biosynthesis enzyme VTC2. 1851 87

Yeast recombinant plasmid containing FRT-sequence flanked by hybrid GAL-CYC promoter and NPTII gene was developed. GAL-CYC promoter contains four UAS sequences and two closely associated TATA-boxes in CYC part. This construct provides galactose-inducible synthesis of neomycinphosphotransferase from NPTII gene, and, thus, resistance of transformed cells to G418 antibiotic. Nucleosome positioning within NPTII gene in repressed and active states was studied. Under repressive conditions (growth on glucose) stable positioning of three nucleosomes was detected. Two nucleosomes are localized in CYC-part. One of them encompasses both TATA-boxes. The third nucleosome overlaps FRT sequence and start of NPTII gene coding sequence. All three nucleosomes show multiple positioning. It suggests possibility of nucleosome sliding along DNA. After induction of NPTII expression by galactose sliding of two nucleosomes is detected. Sliding leads to exposure of TATA-box and long promoter segment. Sliding results in stable repositioning of nucleosomes at new sites. 5'-distal nucleosome moves closer to UAS-sequences. As a results UAS becomes spatially closer to TATA-box. This proximity facilitates assembly of preinitiation complex. Nucleosomes slides independently from each other. The second nucleosome moves towards FRT-sequence and repositions at its nucleosome positioning signal. Galactose-induced expression does not affect nucleosome positioning with coding region of NPTII gene. Unidirectional sliding and repositioning are detected without induction after deacetylase inhibition with trichostatine A. Basal expression of NPTII gene was shown without activation of GAL-CYC promoter and after spatial uncoupling of coding sequence and promoter by gene inversion. In these cases it seems that expression is driven by TATA-like element in FRT-sequence. This element is located in permanently exposed area (in vivo data).
Mol Biol (Mosk)
PMID:[Nucleosome positioning within neomycinphosphotransferase gene (NPTII) on yeast plasmid in repressed and active state]. 1914 Mar 24


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