Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00790 (PGA)
 2,475 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cobalamin (Cbl; vitamin B(12)) malabsorption in pancreatic insufficiency can be partially corrected by bicarbonate and completely corrected by pancreatic proteases but the mechanisms involved are unknown. Because saliva contains enough R-type Cbl-binding protein (R protein) to bind all of the dietary and biliary Cbl, it is possible that R protein acts as an inhibitor of Cbl absorption and that pancreatic proteases are required to alter R protein and prevent such inhibition. To test this hypothesis we studied the ability of R protein and intrinsic factor (IF) to compete for Cbl binding and ability of pancreatic proteases to alter this competition. Human salivary R protein bound Cbl with affinities that were 50- and 3-fold higher than those of human IF at pH 2 and 8, respectively. Cbl bound to IF was transferred to an equal amount of R protein with t((1/2))'s of 2 and 90 min at pH 2 and 8, respectively, and within several hours respective ratios of R protein-Cbl/IF-Cbl of 50 and 2 were observed. Cbl bound to R protein was not transferred to IF at either pH 2 or 8. Incubation of R protein with pancreatic proteases at pH 8 led to a 150-fold decrease in its affinity for Cbl. Incubation of R protein-Cbl with pancreatic proteases led to complete transfer of Cbl to IF within 10 min. Gel filtration studies with R protein-[(57)Co]Cbl and (125)I-R protein showed that pancreatic proteases partially degraded R protein. Pancreatic proteases differed in their ability to effect these changes with trypsin > chymotrypsin > elastase. Pancreatic proteases did not alter IF in any of the parameters mentioned above. Pepsin failed to alter either R protein or IF. THESE STUDIES SUGGEST THE FOLLOWING: (a) that Cbl is bound almost exclusively to R protein in the acid milieu of the stomach, rather than to IF as has been assumed previously; (b) that Cbl remains bound to R protein in the slightly alkaline environment of the intestine until pancreatic proteases partially degrade R protein and enable Cbl to become bound exclusively to IF; and (c) that the primary defect in Cbl absorption in pancreatic insufficiency is a lack of pancreatic proteases and a failure to alter R protein and effect the transfer of Cbl to IF. These studies also suggest that the partial correction of Cbl malabsorption observed with bicarbonate is due to neutralization of gastric HCl, since at slightly alkaline, pH IF can partially compete with R protein for the initial binding and retention of Cbl.
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PMID:Effect of proteolytic enzymes on the binding of cobalamin to R protein and intrinsic factor. In vitro evidence that a failure to partially degrade R protein is responsible for cobalamin malabsorption in pancreatic insufficiency. 2 56

Pepsin-treated type I collagen fibrils were reconstituted by warming to 37 degrees C in the presence of DOPA at a concentration of 1 x 10(-3)M. Following a 1-1.5-h lag period the "gels" became progressively stabilized as indicated by an inability to disperse these at 0 degrees C. Following 24 h of incubation at 37 degrees C, the DOPA-collagen gels were insoluble in dilute acetic acid even under denaturing conditions. The effect on both gel stability and solubility was concentration-dependent and was maximum at 1 x 10(-3)M. Gel solubility changes were significant, with the greatest change occurring between concentrations of 3.1 x 10(-5)M and 1.65 x 10(-5)M. DOPA exposure did not alter the fibrillar banding pattern seen at the electron microscopic level. Collagen felts prepared by lyophilization of DOPA-collagen gels demonstrated an increase in shrinkage temperature which after 24 h exceeded that of rat tail tendon. Preformed collagen felts incubated for 24 h in the presence of 1 mM DOPA also had a greatly increased shrinkage temperature. Pepsin-treated collagen control felts were altered with respect to control felts in a time dependent manner. The wet tensile strength increased to four times that of control after 3 days of incubation at 37 degrees C. Matrix extensibility initially increased to 1.5 times that of control felts after 4 days of incubation at 37 degrees C, but decreased to below control values following 6 additional days of incubation. These properties suggest that DOPA may be useful as a stabilizing agent of collagen biomedical prostheses.
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PMID:The stabilization of fibrillar collagen matrices with 3,4-dihydroxyphenylalanine. 191 1

Escherichia coli contains multiple enzymes that hydrolyze deoxyribose fragments (phosphoglycolaldehyde, PGA) from the 3' termini of a synthetic DNA substrate. The major such activities are the main bacterial apurinic endonucleases, exonuclease III and endonuclease IV. In a double mutant deficient in both of these oxidation repair enzymes, Mg++-dependent 3'-PGA diesterase was detected at 3% the level found in wild-type bacteria. Gel filtration fractionated this residual diesterase activity into two peaks of Mr 40,000-52,000 (Pool A) and Mr 22,000-30,000 (Pool B) with differing abilities to remove 3'-phosphates from DNA. These multiple repair activities were resolved in 3'-PGA diesterase activity gels. The exonuclease III and endonuclease IV bands were identified using the purified proteins and by their specific absence from strains defective for the respective structural genes. Gel filtration Pool B yielded two activity bands of apparent Mr 25,000 and 28,000, but Pool A did not form a new band in the activity gels. Incubation of activity gels in different transition metals or boiling of the samples before electrophoresis also served to distinguish the various activities. The possible identities of the novel E. coli 3'-PGA diesterases and the importance of multiple repair enzymes for 3' damages are discussed.
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PMID:Multiple DNA repair activities for 3'-deoxyribose fragments in Escherichia coli. 246 96

Although Elisa assays detecting rheumatoid factor's (RF) show high sensitivity and specificity, difficulties with IgA- and especially IgG-RF testing in ELISA systems, due to interaction from 'contaminating' IgM-RF is still thought to be a problem. Sera from 15 Rheumatoid Arthritis patients with high disease activity and high IgM-RF values were Dithiothreitol (DTT) treated. IgM-RF values were reduced to approximately zero in all tested sera. IgA-RF activity declined as expected, but also showed a statistically significant correlation between % reduction after DTT treatment and the IgM-RF value from the same serum sample. IgG-RF also decreased after DTT treatment, most pronounced for high IgG-RF values. A correlation (not statistically significant) between the % reduction in IgG-RF after DTT treatment and the IgM-RF value from the same serum sample was observed. Pepsin and Diethylammonium ethyl (DEAE) reduced the IgG-RF activity even more than after DTT treatment of the sera. Fractionation by Gel filtration of 8 serum samples showed that all the RF activity were found according to the 'first top' of the gel filtration curve.
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PMID:ELISA estimations of rheumatoid factor IgM, IgA, and IgG in sera from RA patients with high disease activity. DTT treatment studies. 323 67

A procollagen in the soluble fraction of rabbit vitreous was isolated by dialysis against dilute acetic acid and partially purified by Bio-Gel A 5M gel filtration. The molecule was identified to be type II procollagen by comparing its segment-long-spacing (SLS) banding pattern with that of standard type II collagen isolated from rabbit articular cartilage. Electron microscopy of the SLS of this type II procollagen revealed a fuzzy propeptide extension at the N-terminal end of the molecule. Pepsin digestion of the procollagen removed this extension, thus converting the molecule into a collagen which had mobility similar to that of pepsin-soluble cartilage type II collagen in SDS-polyacrylamide gel electrophoresis. No inter-chain disulfide bond was found in the propeptide extension when the procollagen samples were electrophoresized with or without mercaptoethanol. Comparison of the cyanogen bromide peptide map of the type II procollagen with that of the pepsin-soluble type II collagen indicated that two extra peptides were present in the digest of procollagen. All of this evidence suggested that the procollagen in the soluble vitreous body of the rabbit eye was a novel type II procollagen with a propeptide extension only at the N-terminus.
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PMID:Identification of type II procollagen in rabbit vitreous. 401 Nov 29

An inhibitor I-1, capable of acting on both alpha-amylase and trypsin, was purified to homogeneity from ragi (finger-millet) grains. The factor was found to be stable to heat treatment at 100 degrees C for 1 h in the presence of NaCl and also was stable over the wide pH range 1-10. Pepsin and Pronase treatment of inhibitor I-1 resulted in gradual loss of both the inhibitory activities. Formation of trypsin-inhibitor I-1 complex, amylase-inhibitor I-1 complex and trypsin-inhibitor I-1-amylase trimer complex was demonstrated by chromatography on a Bio-Gel P-200 column. This indicated that the inhibitor is 'double-headed' in nature. The inhibitor was retained on a trypsin-Sepharose 4B column at pH 7.0. Elution at acidic pH resulted in almost complete recovery of amylase-inhibitory and trypsin-inhibitory activities. alpha-Amylase was retained on a trypsin-Sepharose column to which inhibitor I-1 was bound, but not on trypsin-Sepharose alone. Modification of amino groups of the inhibitor with 2,4,6-trinitrobenzenesulphonic acid resulted in complete loss of amylase-inhibitory activity but only 40% loss in antitryptic activity. Modification of arginine residues by cyclohexane-1,2-dione led to 85% loss of antitryptic activity after 5 h, but no effect on amylase-inhibitory activity. The results show that a single bifunctional protein factor is responsible for both amylase-inhibitory and trypsin-inhibitory activities with two different reactive sites.
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PMID:Natural plant enzyme inhibitors. Characterization of an unusual alpha-amylase/trypsin inhibitor from ragi (Eleusine coracana Geartn.). 679 40

The present study was designed to compare collagen synthesized by rabbit lens epithelial cells in culture with rabbit lens capsule collagen. Confluent monolayers of rabbit lens epithelial cells were established. Incorporation of [3H]-proline into glycoproteins secreted into the medium and cell surface components were analyzed in the presence of protease inhibitors. Gel filtration chromatography on sodium dodecyl sulfate--agarose (Bio-gel A-5m) of [3H]-labeled newly synthesized proteins by lens epithelial cells in culture resolved into a single precursor of approximate molecular weight of 160,000 daltons. Neither the medium nor the cell layer showed any evidence of low-molecular weight hydroxyproline-containing material. Limited pepsin digestion of this material cleaved the higher molecular weight chains into smaller components ranging from 25,000 to 110,000 daltons. Pepsin digestion and direct extraction of the collagenous components of the rabbit lens capsule revealed materials of high--molecular weight proteins similar to that synthesized in culture. Low--molecular weight (55,000 daltons) protein was only detected in lens capsules after prolonged pepsin digestion. S-Carboxylation of the lens capsules collagens did not affect their mobilities, but repepsinization gave rise to 110,000 dalton protein, although no significant changes in the amino acid composition were noticed. The absence of synthesis of low--molecular weight protein by cell culture and the presence of low--molecular weight components only after prolonged pepsin digestion of lens capsule could be the result of unusual susceptibility of the basement membrane collagens to pepsin attack.
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PMID:Structure and biosynthesis of rabbit lens capsule collagen. 681 26

Alginate gel beads containing nifedipine (NP) were prepared using a gelation of alginate with calcium cations. The dissolution and absorption of NP from alginate gel beads were evaluated as a controlled-release formulation of NP. The release of NP from alginate gel beads was affected by the composition of uronic acid in alginate, and by the NP content in alginate gel beads. NP absorption after oral administration to beagle dogs of alginate gel beads prepared by air-drying was significantly lower than that after the administration of NP powder alone, due to the limited release of NP from the alginate gel beads in the gastrointestinal tract. On the other hand, the alginate gel beads prepared by freeze-drying improved the absorption of NP because of the increasing disintegration of alginate gel beads with decreasing structural strength. However, this method had poor reproducibility, compared with air-dried alginate gel beads. The gel beads with added alginate propylene glycol ester (PGA) swelled and released calcium ions rapidly, even in water. This is because PGA gels weakly to the calcium cation. Consequently, it was observed that NP release from the PGA gel beads was highly accelerated compared to the release from alginate gel beads. The higher serum level of NP with large variance was obtained after the oral administration of the PGA gel beads. Gel beads consisting of a 1:1 ratio of PGA to alginate had intermediate characteristics between the alginate and PGA gel beads in respect to NP release and absorption.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Preparation and evaluation of a controlled-release formulation of nifedipine using alginate gel beads. 835 94

The biocompatibility and biodegradation rate of component materials are critical when designing a drug-delivery device. The degradation products and rate of degradation may play important roles in determining the local cellular response to the implanted material. In this study, we investigated the biocompatibility and relative biodegradation rates of PLA, PGA and two poly(lactic-co-glycolic acid) (PLGA) polymers of 50:50 mol ratio, thin-film component materials of a drug-delivery microchip developed in our laboratory. The in vivo biocompatibility and both in vivo and in vitro degradation of these materials were characterized using several techniques. Total leukocyte concentration measurements showed normal acute and chronic inflammatory responses to the PGA and low-molecular-weight PLGA that resolved by 21 days, while the normal inflammatory responses to the PLA and high-molecular-weight PLGA were resolved but at slower rates up to 21 days. These results were paralleled by thickness measurements of fibrous capsules surrounding the implants, which showed greater maturation of the capsules for the more rapidly degrading materials after 21 days, but less mature capsules of sustained thicknesses for the PLA and high-molecular-weight PLGA up to 49 days. Gel-permeation chromatography of residual polymer samples confirmed classification of the materials as rapidly or slowly degrading. These materials showed thinner fibrous capsules than have been reported for other materials by our laboratory and have suitable biocompatibility and biodegradation rates for an implantable drug-delivery device.
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PMID:Differential degradation rates in vivo and in vitro of biocompatible poly(lactic acid) and poly(glycolic acid) homo- and co-polymers for a polymeric drug-delivery microchip. 1555 50

The RNA-binding protein CsrA represses biofilm formation, while the non-coding RNAs CsrB and CsrC activate this process by sequestering CsrA. We now provide evidence that the pgaABCD transcript, required for the synthesis of the polysaccharide adhesin PGA (poly-beta-1,6-N-acetyl-d-glucosamine) of Escherichia coli, is the key target of biofilm regulation by CsrA. csrA disruption causes an approximately threefold increase in PGA production and an approximately sevenfold increase in expression of a pgaA'-'lacZ translational fusion. A DeltacsrBDeltacsrC mutant exhibits a modest decrease in pgaA'-'lacZ expression, while the response regulator UvrY, a transcriptional activator of csrB and csrC, stimulates this expression. Biofilm formation is not regulated by csrA, csrB or uvrY in a DeltapgaC mutant, which cannot synthesize PGA. Gel mobility shift and toeprint analyses demonstrate that CsrA binds cooperatively to pgaA mRNA and competes with 30S ribosome subunit for binding. CsrA destabilizes the pgaA transcript in vivo. RNA footprinting and boundary analyses identify six apparent CsrA binding sites in the pgaA mRNA leader, the most extensive arrangement of such sites in any mRNA examined to date. Substitution mutations in CsrA binding sites overlapping the Shine-Dalgarno sequence and initiation codon partially relieve repression by CsrA. These studies define the crucial mechanisms, though not the only means, by which the Csr system influences biofilm formation.
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PMID:CsrA post-transcriptionally represses pgaABCD, responsible for synthesis of a biofilm polysaccharide adhesin of Escherichia coli. 1591 13


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