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Query: UNIPROT:P43026 (
lipopolysaccharide
)
62,215
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A polysaccharide fraction (PS) was separated by mild hydrolysis from Haemophilus influenzae
lipopolysaccharide
. This preparation contained glycosyl-galactosyl, rhamnosyl,
glucosaminyl
and mannosyl residues (molar ratio: 4-1-1-2-2). It was nontoxic and immunogenic and consisted of at least one stable molecular group (fraction A; MW approximately equal to 10(6)) and an association of aggregated units (fraction B;MW approximately equal to 10(4)). This study evaluated the capacity of phagocytosis and quantitative nitroblue-tetrazolium reduction of mouse macrophages in presence of these polysaccharide fractions. After a 24-h incubation period, PS and fraction A, at 1 mg/ml, increased both phagocytosis and reduction potential of mouse peritoneal macrophages by 100%. In contrast, 1-h incubation with PS or fraction A induced a decrease of 50% in phagocytosis but no modification of NBT reduction. An identical incubation with various sugars showed that only mannosyl polymers could significantly decrease this phagocytic process. As in the case of toxic lipopolysaccharides, macrophages responded to a nontoxic preparation obtained from an endotoxin. We confirmed the role of mannosyl residues in recognition of macrophage binding receptors. Moreover, we suggest that this mannose binding ability was dependent on dose, aggregation state and molecular weight of the preparation.U
...
PMID:Action of a polysaccharide fraction of Haemophilus influenzae lipopolysaccharide on macrophage: implication of receptor for mannosyl-polysaccharides. 629 79
The chemical structure of the lipid A component from the
lipopolysaccharide
of a Proteus mirabilis Re-mutant (strain R45) was analysed. It consists of a beta(1-6)-linked D-glucosamine disaccharide which carries two phosphate groups, one being ester-linked to position 4' of the nonreducing
glucosaminyl
residue and the other being bound to the glycosidic hydroxyl group of the reducing
glucosaminyl
residue. The ester-bound phosphate group is quantitatively substituted by a 4-amino-4-deoxy-L-arabinopyranosyl residue, the glycosidic phosphoryl group appears to be unsubstituted. Two available hydroxyl groups of the disaccharadide (probably at positions 3 and 3') are acylated by approximately 1 mol each of (R)-3-tetradecanoyloxytetradecanoic and (R)-3-hydroxytetradecanoic acid/mol. The amino group of the nonreducing
glucosaminyl
residue carries (R)-3-tetradecanoyloxytetradecanoic and that of the reducing residue (R)-3-hydroxytetradecanoic acid. In addition smaller amounts of (R)-3-hexadecanoyloxytetradecanoic acid are present in amide linkage. The attachment site of the oligosaccharide portion to lipid A was also investigated. It was found that the hydroxyl group at position 6' of the nonreducing
glucosaminyl
residue carries 3-deoxy-D-manno-octulosonic acid. This indicates that the saccharide portion in this Proteus
lipopolysaccharide
is linked to lipid A via the primary hydroxyl group in position 6'.
...
PMID:Chemical structure of the lipid A component of the lipopolysaccharide from a Proteus mirabilis Re-mutant. 636 Jun 83
Two amidases have been partially purified from the slime mold Dictyostelium discoideum; these act sequentially on the beta-hydroxymyristyl-amide groups present in the
lipopolysaccharide
derivative (4'-O-phosphoryl-N-beta-hydroxymyristyl-D-
glucosaminyl
)-beta-(1 leads to 6)-N-beta-hydroxymyristyl-D-glucosamine-1-phosphate (III). Amidase-I, which specifically removes the myristyl chain near the 1-phosphate of compound III (apparent Km, 3.7 microM), has been purified 110-fold from a lysate of D. discoideum NC4 cultivated on Escherichia coli. The partially purified enzyme contains no other amidase or phosphatase activities; however, an esterase activity can be detected. The second amidase has been purified about 12-fold from the extracellular fluid of D. discoideum AX3 cultured axenically. This amidase hydrolyzes the distal amide linkage in III (apparent Km, approximately 20 microM) only after prior deacylation of the first site by amidase-I. The preparation is free from phosphatases and glycosidases that can act on
lipopolysaccharide
. The differential expression of the amidases in D. discoideum and some of their kinetic properties have been described. The amidases should prove useful in structure-function studies of
lipopolysaccharide
.
...
PMID:Fatty acyl amidases from Dictyostelium discoideum that act on lipopolysaccharide and derivatives. I. Partial purification and properties. 710 2
The substrate specificities of two fatty acyl amidases partially purified from the slime mold Dictyostelium discoideum have been studied. The amidase act on
lipopolysaccharide
derivatives, such as (4'-O-phosphoryl-N-beta-hydroxymyristyl-D-
glucosaminyl
)-beta-(1 leads to 6)-N-beta-hydroxymyristyl-D-glucosamine-1-phosphate (III) in a sequential manner. Amidase-I removes the beta-hydroxymyristyl residue present on the amino group adjacent to the 1-phosphate and the product formed is a substrate for amidase-II; the latter removes the remaining beta-hydroxymyristyl residue from the distal amino group. Compound III itself is resistant to amidase-II. Removal of the C-1 or C-4 phosphate groups does not influence recognition by the amidases or their sequential action. Both amidases are specific for long chain fatty amide linkages. Thus, a formyl group on the glucosamine amino group adjacent to the C-1 phosphate is not hydrolyzed by amidase-I; however, this substituent does not hinder the action of amidase-II on the distal fatty acyl amide. The presence of the beta-hydroxyl group in myristyl-amide residues is not required for hydrolysis. Further, while amidase-I requires disaccharide structures for its action, amidase-II acts on monosaccharides as well. Finally, the effects of a variety of substrate analogs and divalent ions on the activity of the enzymes are reported.
...
PMID:Fatty acyl amidases from Dictyostelium discoideum that act on lipopolysaccharide and derivatives. II. Aspects of substrate specificity. 710 3
Activity screening and insertional inactivation of
lipopolysaccharide
(
LPS
) biosynthetic genes in Helicobacter pylori have led to the successful characterization of two key enzymes encoded by HP0159 (JHP0147) and HP1105 (JHP1032) open reading frames (ORFs) which are members of the large and diverse carbohydrate active enzymes (CAZY) GT-8 (rfaJ) family of glycosyltransferases. Activity screening of a genomic library led to the identification of the enzyme involved in the biosynthesis of the type 2 N-acetyl-lactosamine O-chain backbone, the beta-1,3-N-acetyl-
glucosaminyl
transferase. In addition, the activity screening approach led to the identification and characterization of a key core biosynthetic enzyme responsible for the biosynthesis of the alpha-1,6-glucan polymer. This alpha-1,6-glucosyltransferase protein is encoded by the HP0159 ORF. Both enzymes play an integral part in the biosynthesis of
LPS
, and insertional inactivation leads to the production of a truncated
LPS
molecule on the bacterial cell surface. The
LPS
structures were determined by mass spectrometry and chemical analyses. The linkage specificity of each glycosyltransferase was determined by nuclear magnetic resonance (NMR) analysis of model compounds synthesized in vitro. A cryogenic probe was used to structurally characterize nanomole amounts of the product of the HP1105 (JHP1032) enzyme. In contrast to the HP0159 enzyme, which displays the GT-8-predicted retaining stereochemistry for the reaction product, HP1105 (JHP1032) is the first member of this GT-8 family to have been shown to have an inverting stereochemistry in its reaction products.
...
PMID:Novel biosynthetic functions of lipopolysaccharide rfaJ homologs from Helicobacter pylori. 1581 25
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