Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.1.52 (PNGase F)
 1,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Three forms of N-acetyl-beta-D-glucosaminidase (NAG: A, B and I) were separated from baboon kidney using Con A-Sepharose and DEAE-Trisacryl chromatography. 2. The A form was further purified into two forms A-1 and A-2 using hydroxylapatite chromatography and anodic PAGE. Both were homogeneous on SDS-PAGE and anodic PAGE but microheterogeneous on PAG-IEF, which could be eliminated by prior treatment with endoglycosidase H or glycopeptidase F. 3. The carbohydrate content accounted for some of this microheterogeneity since it varied from 31 for A-1 to 17% for A-2 and the sialic acid was 6 and 1%. Deamidation may also contribute since the acidic amino acids (29 mol%) and ammonia were high following acid hydrolysis. 4. The mol. wt for A-1, determined by SDS-PAGE, was 52.1 K. 5. The pH optimum was 4.55 and the pI4.97. 6. The optimum temperature for NAG A and B was 50 degrees and 42 degrees C, but B retained more activity above 55 degrees C. 7. The Km for N-acetyl-beta-D-glucosamine and -galactosamine for both isoforms was 0.497 and 0.627 mM respectively. 8. Several ions were found to be uncompetitive inhibitors. Ag+ and Pb2+ were the most potent having Ki values of 3.6 and 8.5 mM respectively. Acetate acted as a competitive inhibitor.
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PMID:Properties of the isoenzyme forms A-1, A-2 and B of N-acetyl-beta-D-glucosaminidase purified from baboon kidneys. 199 68

The PAG family is encoded by distinct genes expressed in extra-embryonic chorionic membranes (TR--trophoblast, TRD--trophectoderm) of various pregnant mammals. The objective of our study was to determine N-glycodiversity of porcine PAG protein family (pPAG) produced in vitro by TR or TRD explants of gilts (n=26) throughout pregnancy (16-77 dpc). Explants were cultured for over 1200 h (TR, 16 dpc) or for 8 h (TRD, 17-77 dpc). Released proteins were isolated from media by separating ultra-filtration (>10 kDa). A deglycosylation (removal of N-linked carbohydrate side chains) of proteins was performed by glycopeptidase F, and compared to non-deglycosylated forms by PAGE-Western blotting with anti-pPAG sera and additionally to polypeptide pPAG precursors, coded by ORF of their cloned cDNAs. We demonstrated gestation-stage dependent diversity of deglycosylated/glycosylated forms of the pPAG proteins produced in vitro in the pig. TR explants harvested on 16 dpc during long term culture released 43 kDa pPAG proteins. These proteins were deglycosylated to approximately 36.9 and approximately 39.6 kDa (16 dpc). Tissue harvested on 17 dpc in vitro secreted 65-68 kDa pPAG proteins which were reduced to three forms, 50.6, 58.7 and 63.5 kDa. In addition, approximately 73.3 kDa major pPAG proteins (77 dpc) were reduced to at least three forms: approximately 39.6, approximately 36.9 and approximately 33.4 kDa. Such N-deglycosylation was not detected on days 25-61. N-deglycosylation of native pPAG proteins clearly corresponded to three N-glycosylation sites of asparagines (N-x-S/T) found in ORF of the pPAG2-like precursors, identified by their in silico translated cDNAs. Thus, the pregnancy-stage dependent N-glycodiversity of the pPAG protein family, containing an average 9.66% of N-linked oligosaccharides, may play some role(s) in porcine conceptus attachment, successful implantation and during advanced pregnancy.
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PMID:N-glycodiversity of the Pregnancy-Associated Glycoprotein family (PAG) produced in vitro by trophoblast and trophectoderm explants during implantation, placentation and advanced pregnancy in the pig. 1509 96

Placental PAG mRNA expression and N-glycodiversity of multiple PAG proteins secreted in vitro by trophectoderm (chorion epithelium) of wild pecoran Bovidae taxons was not examined previously. The study on European bison (Eb) aimed: (1) to determine placental PAG mRNA expression by in situ hybridisation; (2) to identify a profile of pecoran PAG protein family secreted in vitro by cotyledonary (CT) explants; (3) to examine N-glycodiversity of the PAG proteins in this wild taxon. In addition, we compared (4) a profile and N-glycodiversity of the PAG protein family secreted in vitro by CT and interCT-trophectoderm (intCT-TRD) explants of domestic ruminants. Cotyledonary sections of the Eb were used for in situ hybridisation (ISH) with (35)S-labelled probes produced with porcine PAG cDNA as templates. Various CT and intCT-TRD explants were long-term cultured in vitro. Chorionic proteins were isolated from media, ultra-filtrated (>10 kDa MWCO) and analysed by PAGE-Western blotting with various polyclonal anti-PAG sera. Protein samples with or without enzymatic deglycosylation were examined after different times of explant cultures. Released chorionic proteins were deglycosylated by N-glycanase F (PNGase F+) and compared to glycosylated forms (PNGase F-). This is the first paper demonstrating the PAG-like mRNA transcript expression (by ISH) and N-glycodiversity of immuno-reactive PAG-like proteins (produced in vitro by chorionic explants) of European bison. Various PAG proteins of Eb (EbPAG) were secreted by CT explants during long-term in vitro studies. Major approximately 78, approximately 67 and approximately 65 kDa EbPAG-like proteins were reduced by enzymatic deglycosylation (at least by 10 kDa). Considerably smaller amounts of approximately 45 kDa EbPAG-like proteins were also observed. In addition, we have found that various PAG proteins (30-73 kDa) were secreted by bovine CT explants, during long-term in vitro cultures. Corresponding amounts of PAG proteins, similar in M(r), were also secreted by intCT-TRD explants, whose tissues were not utilised for PAG protein extraction during other scientists' previous studies. It seems that the M(r)-heterogeneity and N-glycodiversity of the PAG protein family can play very important role during feto-placental interactions in Bovidae species.
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PMID:Chorionic mRNA expression and N-glycodiversity of pregnancy-associated glycoprotein family (PAG) of the European bison (Bison bonasus). 1614 14