UNIPROT:P43026 - FACTA Search

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

There are large developmental increases in the rates of dolichol-linked oligosaccharide synthesis and protein N-glycosylation when resting murine splenic B lymphocytes are activated by bacterial lipopolysaccharide (LPS). These in vivo and in vitro studies were carried out to investigate the underlying biochemical mechanisms involved in the dramatic increase in the rate of oligosaccharide-lipid biosynthesis in LPS-stimulated B cells. Metabolic labelling experiments showed that the rate of synthesis of N-acetyl-glucosaminylpyrophosphoryldolichol (GlcNAc-P-P-Dol), mannosylphosphoryldolichol (Man-P-Dol) and glucosylphosphoryldolichol (Glc-P-Dol) increased 4- to 15-fold between 20 and 40 h after exposure to LPS. When the glycosyltransferase activities catalysing the formation of the three dolichol-bound monosaccharides were assayed in vitro with endoplasmic reticulum (ER)-enriched fractions, the initial rates were found to be elevated 4-fold prior to the major increases in oligosaccharide-lipid intermediate biosynthesis observed in vivo. Based on kinetic analyses, the higher enzyme activities were due to an increase in the amount of the three glycosyltransferases in activated cells. The time courses for elevated cellular content and rate of synthesis of guanosine-diphosphomannose (GDP)-Man corresponded to the developmental increase in oligosaccharide-lipid synthesis. The kinetics and magnitude of the induction of oligosaccharide-lipid synthesis were similar whether the initial rates were calculated on the basis of [2-3H]mannose-labelling or the specific activity of the GDP-[2-3H]mannose pool.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Expression of dolichol-linked saccharide intermediate synthesis during the development of B lymphocytes. 172 46

Rough mutants from Salmonella typhimurium and Salmonella minnesota were transformed with a plasmid containing a 6.5-kilobase insert of DNA from Chlamydia trachomatis assumed to encode a glycosyltransferase. Transformation resulted in the expression of a genus-specific chlamydial epitope on the lipopolysaccharide (LPS) of the recombinant strains. Proteinase K-digested whole-cell lysates of the recombinants and of controls were subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by silver staining or Western blot analysis. Two LPS populations were detected in the recombinants, the parent LPS and a faster-migrating component. The latter stained with monoclonal antibody against the genus-specific chlamydial epitope and was not seen in the controls. LPS was extracted and purified from recombinants of S. minnesota R595 and R4 and characterized by the passive hemolysis and passive hemolysis inhibition assays and by hydrolysis kinetics. Different antigenic determinants could be distinguished from each other by the passive hemolysis inhibition test with monospecific antigen-antibody reactions. Rabbits were immunized with heat-killed recombinant bacteria to study the immunogenic properties of the recombinants. In all animals, antibodies were raised against the parent core specificity and against the chlamydia-specific epitope. The data show that the recombinant bacteria are useful as immunogens to prepare polyclonal antisera against chlamydiae and that LPS isolated from them exhibits the same antigenic determinants as chlamydial LPS and may thus be used as a substitute for chlamydial LPS in serological assays.
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PMID:Antigenic and immunogenic properties of recombinants from Salmonella typhimurium and Salmonella minnesota rough mutants expressing in their lipopolysaccharide a genus-specific chlamydial epitope. 243 22

R-prime plasmids carrying the pyrE-rfa-cysE region of the chromosome of Salmonella typhimurium were isolated by using the vector pULB113 (RP4::mini-Mu). One of the R-prime plasmids was used as a source of DNA to clone the rfa genes for lipopolysaccharide synthesis to pBR322. The following three hybrid plasmids were constructed: pKZ15, with a 4.0-kilobase EcoRI fragment of S. typhimurium DNA, containing the rfaG gene; pKZ27, a 9-kilobase BglII fragment with the rfaG, rfaB, and rfaI genes; and pKZ26, a 7.7-kilobase HindIII fragment with the rfaG, rfaB, rfaI, and rfaJ genes. We propose that these cloned genes code for four glycosyltransferases used for synthesis of the lipopolysaccharide core region (rfaG for glucosyltransferase I; rfaI for galactosyltransferase I; rfaB for galactosyltransferase II; and rfaJ for glucosyltransferase II). For all four genes, mutants which lacked the appropriate enzyme activity were complemented by the plasmids to give completed core lipopolysaccharide with O (somatic) side chains; for rfaG, rfaB, and rfaI, mutants gave restored or even amplified levels of the appropriate glycosyltransferase in in vitro assays. We show that the order of genes in the region is pyrE-rfaG-(rfaB-rfaI)-rfaJ-rfaL-rfaF -cysE.
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PMID:Cloning of rfaG, B, I, and J genes for glycosyltransferase enzymes for synthesis of the lipopolysaccharide core of Salmonella typhimurium. 315 16

The biosynthetic function of the lgtABE genetic locus of Neisseria meningitidis was determined by structural analysis of lipopolysaccharide (LPS) derived from mutant strains and enzymic assay for glycosyltransferase activity. LPS was obtained from mutants generated by insertion of antibiotic resistance cassets in each of the three genes lgtA, lgtB, lgtE of the N. meningitidis immunotype L3 strain phi3 MC58. LPS from the parent strain expresses the terminal lacto-N-neotetraose structure, Galbeta1-->4GlcNAcbeta1-->3Galbeta1-->4Glc. Mild hydrazine treatment of the LPS afforded O-deacylated samples that were analyzed directly by electrospray ionization mass spectrometry (ESI-MS) in the negative ion mode. In conjunction with results from sugar analysis, ESI-MS revealed successive loss of the sugars Gal, GlcNAc, and Gal in lgt B, lgt A, and lgt E LPS, respectively. The structure of a sample of O- and N-deacylated LPS derived by aqueous KOH treatment of lgt B LPS was determined in detail by two-dimensional homo- and heteronuclear NMR methods. Using a synthetic beta-GlcNAc acceptor and a beta-lactose acceptor, the glycosyltransferase activities encoded by the lgtB and lgtA genes were unambiguously established. These data provide the first definitive evidence that the three genes encode the respective glycosyltransferases required for biosynthesis of the terminal trisaccharide moiety of the lacto-N-neotetraose structure in Neisseria LPS. From ESI-MS data, it was also determined that the Gal-deficient LPS expressed by the lgt E mutant is identical to that of the major component expressed by immunotype L3 galE-deficient strains. The galE gene which encodes for UDP-glucose-4-epimerase plays an essential role in the incorporation of Gal into meningococcal LPS.
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PMID:Functional relationships of the genetic locus encoding the glycosyltransferase enzymes involved in expression of the lacto-N-neotetraose terminal lipopolysaccharide structure in Neisseria meningitidis. 870 94

The gene kdtA of Chlamydia pneumoniae strain TW-183, encoding the enzyme 3-deoxy-alpha-D-manno-octulosonic acid (Kdo) transferase of lipopolysaccharide biosynthesis, was cloned and sequenced. A single open reading frame of 1314 bp was identified, the deduced amino acid sequence of which revealed 69% similarity and 43% identity with KdtA of Chlamydia trachomatis and Chlamydia psittaci. The gene was expressed in the Gram-positive host Corynebacterium glutamicum and the primary gene product was characterized as a multifunctional glycosyltransferase. Cell-free extracts generated in vitro the genus-specific epitope of Chlamydia composed of the trisaccharide alphaKdo(2-8)alphaKdo(2-4)alphaKdo. The results show that a single polypeptide affords three different glycosidic bonds, which is in contradiction to the dogma of glycobiology: 'one enzyme - one glycosidic bond'.
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PMID:Molecular cloning, sequence analysis, and functional characterization of the lipopolysaccharide biosynthetic gene kdtA encoding 3-deoxy-alpha-D-manno-octulosonic acid transferase of Chlamydia pneumoniae strain TW-183. 874 24

A novel method for insertion/deletion mutagenesis in meningococci was devised. This consisted of ligating a digest of total chromosomal DNA to a 1.1 kb restriction fragment containing an erythromycin-resistance marker (ermC), and subsequent transformation of the ligation mixture into the homologous meningococcal strain H44/76. Southern blotting of a number of the resulting erythromycin-resistant transformants demonstrated that all carried the ermC gene inserted at different positions in the chromosome. Mutants with a specific phenotype were identified by screening with the anti-lipopolysaccharide (LPS) monoclonal antibody MN4A8B2, which is specific for immunotype L3. In this way, two independent L3-negative mutant strains were isolated. In transformation experiments with chromosomal DNA from these mutants, erythromycin-resistance and lack of MN4A8B2 reactivity were always linked, showing that the insertion/deletion was in a locus involved in LPS biosynthesis. On SDS-PAGE, the mutant LPS displayed an electrophoretic mobility intermediate between that produced by the previously isolated galE and rfaF mutant strains. Chemical analysis of the mutant LPS revealed that the structure was probably lipid A-(KDO)2-(Hep)2. Chromosomal DNA flanking the ermC insertion in these two mutant strains was cloned, and used as probe for the isolation of the corresponding region of the wild-type strain. From hybridization and polymerase chain reaction (PCR) analysis, it could be concluded that both mutations map to the same locus. The affected gene probably encodes the glycosyltransferase necessary for adding N-acetylglucosamine to heptose.
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PMID:Identification of a locus involved in meningococcal lipopolysaccharide biosynthesis by deletion mutagenesis. 883 Feb 68

The whole genome sequence (1.83 Mbp) of Haemophilus influenzae strain Rd was searched to identify tandem oligonucleotide repeat sequences. Loss or gain of one or more nucleotide repeats through a recombination-independent slippage mechanism is known to mediate phase variation of surface molecules of pathogenic bacteria, including H. influenzae. This facilitates evasion of host defenses and adaptation to the varying microenvironments of the host. We reasoned that iterative nucleotides could identify novel genes relevant to microbe-host interactions. Our search of the Rd genome sequence identified 9 novel loci with multiple (range 6-36, mean 22) tandem tetranucleotide repeats. All were found to be located within putative open reading frames and included homologues of hemoglobin-binding proteins of Neisseria, a glycosyltransferase (lgtC gene product) of Neisseria, and an adhesin of Yersinia. These tetranucleotide repeat sequences were also shown to be present in two other epidemiologically different H. influenzae type b strains, although the number and distribution of repeats was different. Further characterization of the lgtC gene showed that it was involved in phenotypic switching of a lipopolysaccharide epitope and that this variable expression was associated with changes in the number of tetranucleotide repeats. Mutation of lgtC resulted in attenuated virulence of H. influenzae in an infant rat model of invasive infection. These data indicate the rapidity, economy, and completeness with which whole genome sequences can be used to investigate the biology of pathogenic bacteria.
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PMID:DNA repeats identify novel virulence genes in Haemophilus influenzae. 885 19

Helicobacter pylori NCTC 11637 lipopolysaccharide (LPS) expresses the human blood group antigen Lewis x (Le(x)) in a polymeric form. Le(x) is beta-D-galactose-(1-4)-[alpha-L-fucose-(1-3)]-beta-D-acetylglucosamine. Schematically the LPS structure is (Le(x))n-core-lipid A. In this report, we show that Le(x) expression is not a stable trait but that LPS displays a high frequency (0.2 to 0.5%) of phase variation, resulting in the presence of several LPS variants in one bacterial cell population. One type of phase variation implied the loss of alpha1,3-linked fucose, resulting in variants that expressed nonsubstituted polylactosamines (also called the i antigen), i.e., Le(x) minus fucose; LPS: (lactosamine)n-core-lipid A. The switch of Le(x) to i antigen was reversible. A second group of variants arose by loss of polymeric main chain which resulted in expression of monomeric Le(y); LPS: (Le(y))-core-lipid A. A third group of variants arose by acquisition of alpha1,2-linked fucose which hence expressed Le(x) plus Le(y); LPS: (Le(y))(Le(x))n-core-lipid A. The second and third group of variants switched back to the parental phenotype [(Le(x))-core-lipid A] in lower frequencies. Part of the variation can be ascribed to altered expression levels of glycosyltransferase levels as assessed by assaying the activities of galactosyl-, fucosyl-, and N-acetylglucosaminyltransferases. Clearly phase variation increases the heterogeneity of H. pylori, and this process may be involved in generating the very closely related yet genetically slightly different strains that have been isolated from one patient.
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PMID:Phase variation in Helicobacter pylori lipopolysaccharide. 942 41

In Escherichia coli F632, the 14-kilobase pair chromosomal region located between waaC (formerly rfaC) and waaA (kdtA) contains genes encoding enzymes required for the synthesis of the type R2 core oligosaccharide portion of lipopolysaccharide. Ten of the 13 open reading frames encode predicted products sharing greater than 90% total similarity with homologs in E. coli K-12. However, the products of waaK (rfaK) and waaL (rfaL) each resemble homologs in Salmonella enterica serovar Typhimurium but share little similarity with E. coli K-12. The F632 WaaK and WaaL proteins therefore define differences between the type R2 and K-12 outer core oligosaccharides of E. coli lipopolysaccharides. Based on the chemical structure of the core oligosaccharide of an E. coli F632 waaK::aacC1 mutant and in vitro glycosyltransferase analyses, waaK encodes UDP-N-acetylglucosamine:(glucose) lipopolysaccharide alpha1, 2-N-acetylglucosaminyltransferase. The WaaK enzyme adds a terminal GlcNAc side branch substituent that is crucial for the recognition of core oligosaccharide acceptor by the O-polysaccharide ligase, WaaL. Results of complementation analyses of E. coli K-12 and F632 waaL mutants suggest that structural differences between the WaaL proteins play a role in recognition of, and interaction with, terminal lipopolysaccharide core moieties.
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PMID:The assembly system for the lipopolysaccharide R2 core-type of Escherichia coli is a hybrid of those found in Escherichia coli K-12 and Salmonella enterica. Structure and function of the R2 WaaK and WaaL homologs. 953 65

Mice are frequently used in models for the study of immunological processes related to inflammation. Since it is known that the degree of fucosylation of human acute phase proteins (APPs) is altered as a consequence of an inflammatory response, we have undertaken this study to gain more insight into the fucosylation of acute phase proteins as it occurs in mouse liver. Mice carrying the cluster of the three genes encoding human alpha1-acid glycoprotein (AGP), one of the well known APPs, were used and the fucosylation of AGP was assessed. A complete absence of fucosylation on the transgenic human AGP was found, which is in sharp contrast to AGP in human serum, of which a major proportion is normally alpha3-fucosylated. Remarkably, a large proportion of mouse AGP did contain fucose residues. Fucosylation was also detected on another APP, mouse protease inhibitor (PI). Alpha3-fucosylation of the transgenic human AGP can be achieved in vitro, using an alpha3/4-fucosyltransferase (alpha3/4-FucT) isolated from human milk, showing that the glycoprotein is not intrinsically resistant to fucosylation. Upon subsequent measurement of the activities of the possible fucosyltransferases present in liver membranes of parent and transgenic mice, only an N-linked-core alpha6-FucT and no alpha2-, alpha3- or alpha4-FucT activity was detected. This indicates that fucose residues found on the mouse serum proteins AGP and PI, which are synthesized in the liver, are most probably in alpha6-linkage to the core chitobiosyl unit. Interestingly, both alpha6- and alpha3-FucT activity was detectable in human liver membranes. None of the above mentioned findings were influenced by the induction of an acute phase response by administration of bacterial lipopolysaccharide. This study shows that: (a) alpha6-FucT is probably a protein specific-glycosyltransferase, since mouse AGP, but not human AGP, may be used as an acceptor; (b) in contrast to human liver, mouse liver does not express any alpha3-FucT-activity, thereby making the mouse incapable of producing the Sialyl Lewis(x) epitope on APPs, which is an important part of the inflammatory reaction in humans. This last finding indicates that the mouse is not suitable as a model for the study of those phenomena related to inflammation in humans, in which glycosylation of acute phase proteins could play a significant role.
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PMID:Sialyl Lewis(x) epitopes do not occur on acute phase proteins in mice: relationship to the absence of alpha3-fucosyltransferase in the liver. 961 26

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