UNIPROT:P02749 - FACTA Search

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Query: UNIPROT:P02749 (beta2-glycoprotein I)
836 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An anticoagulant protein, factor IX/factor X-binding protein (IX/X-bp), isolated from the venom of Trimeresurus flavoviridis, binds with factor IX and factor X in the presence of Ca2+ with a 1 to 1 stoichiometry (Atoda, H., and Morita, T. (1989) J. Biochem. (Tokyo) 106, 808-813). Analysis of S-pyridylethylated IX/X-bp by sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed a 16.0-kDa band (designated the A chain) and a 15.5-kDa band (designated the B chain). These two chains were separated by reversed-phase high performance liquid chromatography, and their complete amino acid sequences were determined by sequencing of the peptides obtained after digestion with lysyl endopeptidase, chymotrypsin, and V8 protease from Staphylococcus aureus and after chemical cleavage with cyanogen bromide. The A chain had an amino-terminal sequence of Asp-Cys-Leu-Ser-Gly- and consisted of 129 residues with Mr 14,830. The B chain has an amino-terminal sequence of Asp-Cys-Pro-Ser-Asp- and consists of 123 residues of Mr 14,440. There was 47% identity between the A and the B chain. The sequence of IX/X-bp showed 25-37% identity with that of the C-type carbohydrate recognition domain-like structure of acorn barnacle lectin, human and rat asialoglycoprotein receptors, the human lymphocyte Fc epsilon receptor for immunoglobulin E, proteoglycan core protein, pancreatic stone protein, and tetranectin. The sequences of the first 18 amino acid residues of both the A and B chains were also, to a certain extent, homologous to the partial amino acid sequence of the b subunit of factor XIII, a member of the beta 2-glycoprotein I-like family. In this region, some similarity with the amino-terminal amino acid sequence of botrocetin was also observed.
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PMID:The primary structure of coagulation factor IX/factor X-binding protein isolated from the venom of Trimeresurus flavoviridis. Homology with asialoglycoprotein receptors, proteoglycan core protein, tetranectin, and lymphocyte Fc epsilon receptor for immunoglobulin E. 183 Nov 97

The horseshoe crab clotting factor, factor C, present in the hemocytes is a serine-protease zymogen activated with lipopolysaccharide. It is a two-chain glycoprotein (Mr = 123,000) composed of a heavy chain (Mr = 80,000) and a light chain (Mr = 43,000) [T. Nakamura et al. (1986) Eur. J. Biochem. 154, 511-521]. In our continued study of this zymogen, we have now also found a single-chain form of factor C (Mr = 123,000) in the hemocyte lysate. The heavy chain had the NH2-terminal sequence of Ser-Gly-Val-Asp-, consistent with that of the single-chain factor C, indicating that the heavy chain is derived from the NH2-terminal part of the molecule. The light chain had an NH2-terminal sequence of Ser-Ser-Gln-Pro-. Incubation of the two-chain zymogen with lipopolysaccharide resulted in the cleavage of a Phe-Ile bond between residues 72 and 73 of the light chain. Concomitant with this cleavage, the A (72 amino acid residues) and B chains derived from the light chain were formed. The complete amino acid sequence of the A chain was determined by automated Edman degradation. The A chain contained a typical segment which is similar in sequence to a family of repeats in human beta 2-glycoprotein I, complement factors B, protein H, C4b-binding protein, and coagulation factor XIII b subunit. The NH2-terminal sequence of the B chain was Ile-Trp-Asn-Gly-. This chain contained the serine-active site sequence-Asp-Ala-Cys-Ser-Gly-Asp-Ser-Gly-Gly-Pro-. These results indicate that horseshoe crab factor C exists in the hemocytes in a single-chain zymogen form and is converted to an active serine protease by hydrolysis of a specific Phe-Ile peptide bond.
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PMID:Lipopolysaccharide-sensitive serine-protease zymogen (factor C) of horseshoe crab hemocytes. Identification and alignment of proteolytic fragments produced during the activation show that it is a novel type of serine protease. 330 57

beta2-Glycoprotein I was shown to bind reversibly to calmodulin in a Ca2+-dependent manner with a 1:1 stoichiometry, a Kd of 3 x 10(-9) M and a Hill coefficient of 1.4. A sequence in beta2-glycoprotein I (Lys-Pro-Gly-Tyr-Val-Ser-Arg-Gly-Gly-Met-Arg-Lys-Phe-Ile-) limited by Cys-32 and Cys-47 is suggested to be the calmodulin-binding region. This sequence was the only one in beta2-glycoprotein I theoretically having the ability to form a basic amphiphilic alpha-helix typical of a calmodulin binding sequence. The peptide corresponding to this sequence was synthesized and found to inhibit the interaction between beta2-glycoprotein I and calmodulin with an IC50 value of 0.38 x [beta2-glycoprotein I] and to displace the beta2-glycoprotein I from the beta2-glycoprotein I/calmodulin complex with an IC50 value of 0.90 x [beta2-glycoprotein I].
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PMID:Characterization of the interaction between beta2-glycoprotein I and calmodulin, and identification of a binding sequence in beta2-glycoprotein I. 918 41

Apolipoprotein H (apoH; also known as beta2-glycoprotein I), is an essential cofactor for the binding of certain antiphospholipid antibodies (APA) to anionic phospholipid. The gene coding for apoH is polymorphic, with the occurrence of several common alleles in the general population. This genetically determined variation can effect the binding of apoH to anionic phospholipids and consequently the production of APA. Our group has identified two common mutations at codons 306 (Cys-->Gly) and 316 (Trp-->Ser) in the fifth domain of apoH which affect the binding of apoH to anionic phospholipids (phosphatidylserine or cardiolipin). ApoH from serum samples homozygous for each of these mutations or compound heterozygotes for both mutations showed no binding with anionic phospholipids on ELISA. In vitro mutagenesis and transient expression of these mutations in COS-1 cells followed by cardiolipin binding studies confirmed that Gly306 and Ser316 are causative mutations. Our data indicate that the fifth domain of apoH is essential for anionic phospholipid binding and genetically determined variation in this domain can affect the production of apoH-dependent APA.
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PMID:Genetics of apolipoprotein H (beta2-glycoprotein I) and anionic phospholipid binding. 981 64

beta2-glycoprotein I is a phospholipid-binding protein of 326 amino acids and is found in plasma at a concentration of approximately 200 microg/ml. It has a sequence of positively charged amino acids located at the carboxy terminus that mediates anionic phospholipid binding. Two polymorphisms (306Cys-->Gly and 316Trp-->Ser) located at the phospholipid-binding site have been described. Homozygous state for either mutation and a compound heterozygous state show no phospholipid binding. Interestingly, heterozygotes for either 306Cys-->Gly or 316Trp-->Ser mutation have normal cardiolipin binding suggesting that beta2-glycoprotein I may circulate as a multimeric structure where wild-type subunits compensate the defective binding of the mutant ones. We investigated the effect of these mutations on quaternary structure of beta2-glycoprotein I and phospholipid binding. As previously reported, under native conditions, beta2-glycoprotein I shows an apparent molecular weight of approximately 320 kDa and it can be dissociated into subunits of lower molecular weight by boiling in 6 M urea. We show that the multimeric structure is not affected by the presence of mutations in the phospholipid-binding domain. beta2-glycoprotein I induces aggregation of anionic phospholipid vesicles suggesting again a multivalent interaction where at least two binding sites are required to bridge adjacent vesicles. beta2-glycoprotein I-induced aggregation does not cause vesicle fusion or damage as demonstrated by fluorescence resonance energy transfer (FRET) or encapsulated calcein release. In conclusion, the normal cardiolipin binding in heterozygous state for mutations at phospholipid-binding domain may be due to the multimeric structure of beta2-glycoprotein I.
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PMID:Polymorphisms beta2-glycoprotein I: phospholipid binding and multimeric structure. 1259 Sep 55