Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
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Query: EC:3.4.21.4 (
trypsin
)
42,187
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The hemoglobin of the Great Crested Newt (Triturus cristatus), an animal maintaining the gas exchange to about 85% through the skin, consists of a major (HbM = 65%) and a minor (Hbm = 35%) component. The primary structures of the four chains are presented. They could be separated by reversed-phase HPLC and were cleaved with
trypsin
and additionally by acid hydrolysis. Both the native chains and their peptides were sequenced by liquid and gas phase sequenators. At the N-terminus the alpha M-chains are by one amino-acid residue longer and the beta M-chains by one residue shorter, resulting in a chain length of 142 and 145, respectively. The alpha m-chains are of normal length whereas in the beta m-chains the C-terminal histidine in position 146 is missing. Both alpha-chains differ by 50 residues (35.2%) and the beta-chains by 63 (43.2%). The alpha-chains were compared with those of other salamandroid hemoglobins. The difference to human hemoglobin is marked by 61 (43.3%) amino-acid substitutions in both alpha-chains and by 78 (53.4%) in both beta-chains. Numerous heme contacts and positions involved in the subunit interface are affected by replacements. The most interesting of them were studied by molecular modeling. The importance of the missing beta m-146(
HC3
)His and of the substitution of several amino-acid residues involved in the binding of organic phosphates is discussed with respect to the reduced Bohr effect of Triturus cristatus hemoglobin.
...
PMID:The first sequenced normal hemoglobin lacking histidine in position 146 of the beta-chains. The primary structures of the major and minor hemoglobin components of the great crested newt (Triturus cristatus, Urodela, Amphibia). 324 54
Two chondroitin sulfate-containing complexes have been isolated from fetal bovine serum and shown to contain the serine protease inhibitor bikunin. A complex of 126 kDa contains bikunin linked by a chondroitin sulfate chain to a protein with homology to the HC2 component of the human inter-alpha-trypsin inhibitor. This complex represents the extracellular matrix stabilizing factor recently described as a bikunin-containing fraction necessary for expansion of the cumulus matrix [(1992) J. Biol. Chem. 267, 12380-12386]. A second complex of 236 kDa contains, in addition to bikunin and HC2, a bovine homolog of
HC3
of the human pre-
alpha-trypsin
inhibitor. Thus, bovine bikunin is a chondroitin sulfate proteoglycan that achieves multifunctionality by linkage to proteins homologous to human serine antiproteinase complexes.
...
PMID:Subunit structure of bovine ESF (extracellular-matrix stabilizing factor(s)). A chondroitin sulfate proteoglycan with homology to human I alpha i (inter-alpha-trypsin inhibitors). 768 11
Pre-
alpha-trypsin
inhibitor (P alpha I) is a serine-proteinase inhibitor of M(r) 130,000 found in human serum. This protein belongs to the family of proteins called inter-alpha-trypsin inhibitor (ITI). P alpha I is composed of a heavy chain (
HC3
) and of a light chain (bikunin), synthesized by two separate mRNA. Bikunin is identical to the ITI light chain, the structure of which has already been established. The
HC3
is obtained from a precursor called H3. The bikunin is covalently linked to
HC3
by a chondroitin-4-sulfate glycosaminoglycan. We report here the H3 full-length cDNA sequence and the deduced amino-acid sequence of the heavy-chain H3 precursor. The high degree of similarity between the nucleotide and amino-acid sequences of ITI heavy-chain families H1, H2, H3 is examined with respect to their probable structure and assembly with bikunin in the final proteins, P alpha I and ITI.
...
PMID:Human pre-alpha-trypsin inhibitor-precursor heavy chain. cDNA and deduced amino-acid sequence. 768 78
The inter-alpha-trypsin inhibitor (ITI) family is a group of structurally related plasma serine protease inhibitors. The ITI family members consist of combinations of mature heavy chains named HC1, HC2,
HC3
linked to bikunin (a Kunitz-type protease inhibitor) by a covalent interchain protein-glycosaminoglycan-protein cross-link. The biosynthesis of the ITI family members takes place in the liver. In this report we examine the biosynthesis of these proteins using transient transfected COS-7 cells expressing one or more combinations of human ITI chains. The processing and secretion of alpha1-microglobulin and bikunin does not require the ITI heavy chains. A small proportion of the H3 chain seems to be processed into the
HC3
form in the absence of the other ITI chains. In contrast, the processing of H2 into HC2 needs the presence of the L chain. The COS-7 cells are able to link the HC2 and
HC3
heavy chains with bikunin by means of a chondroitin sulfate bridge, and thus to generate 260-kDa ITI-like proteins as well as pre-
alpha-trypsin
inhibitor (PalphaI). However, the maturation of the Hl chain into HC1 and the assembly of HC1 inside multichain proteins may take place according to a mechanism which differs from that of the H2 and H3 chains. These results indicate that the assembly of the constituent chains of the ITI-like proteins and PalphaI is not dependent on the liver machinery.
...
PMID:Assembly and secretion of recombinant chains of human inter-alpha-trypsin inhibitor in COS-7 cells. 991 30
A glycoprotein with a high inhibitory activity against
trypsin
was isolated in 1961 from human plasma and named inter-alpha trypsin inhibitor (ITI). Since then, several other proteins that share antigenic and structural similarities with ITI have been identified and classified as members of the ITI protein family. These glycoproteins built up from different combinations of four polypeptides HC1, HC2,
HC3
and bikunin are encoded by four genes H1, H2, H3, L on three chromosomes. Bikunin has two proteinase inhibitor domains and belongs to the Kunitz-type protease inhibitor family; it displays an inhibitory activity against
trypsin
, leukocyte elastase and plasmin. The heavy chains do not have any protease inhibitory properties but have the capacity to interact in vitro and in vivo with hyaluronic acid. This binding promotes the stability of the extra-cellular matrix. Consequently, the ITI protein family is suspected of playing a key role in the extra-cellular matrix biology. Isolation of free heavy chains in bronchial secretions and the recent emphasis about the bikunin role in tumoral invasion should enhance the interest about ITI protein family in the pathophysiology of chronic bronchopulmonary diseases or lung cancer progression.
...
PMID:[Proteins of the inter-alpha trypsin inhibitor (ITI) family. A major role in the biology of the extracellular matrix]. 1085 62
Alteration in the glycosaminoglycan hyaluronan (HA) has been demonstrated in numerous renal diseases. We have demonstrated that renal proximal tubular epithelial cells (PTCs) surround themselves in vitro with HA in an organized pericellular matrix or 'coat', which is associated with cell migration, and also form pericellular HA cable-like structures which modulate PTC-mononuclear leukocytes interactions. The aim of this study was to characterize potential regulatory mechanism in the assembly of PTC-HA into pericellular cables. HA cables are generated by PTCs in the absence of serum. Immunohistochemical analysis demonstrates the incorporation of components of the inter-alpha-inhibitor (IalphaI) family of proteins and versican into HA cables. Addition of an antibody to IalphaI/PalphaI (pre-alpha-inhibitor) inhibits cable formation. In contrast, inhibition of tumor necrosis factor-alpha-stimulated gene 6 (TSG-6) has no effect on cable formation, suggesting that their generation is independent of the known heavy-chain transfer activity of TSG-6. Overexpression of HAS3 is associated with induction of HA cable formation, and also increased incorporation of HA into pericellular coats. Functionally, this resulted in enhanced HA-dependent monocyte binding and cell migration, respectively. Cell surface expression of CD44 and
trypsin
-released cell-associated HA were increased in HAS3-overexpressing cells. In addition, hyaluronidase (hyal1 and hyal2) and bikunin mRNA expression were increased, whereas PalphaI
HC3
mRNA expression was unchanged in the transfected cells. The data demonstrate the importance of IalphaI/PalphaI in cable formation and suggest that expression of HAS3 may be critical for HA cable assembly.
...
PMID:Characterization of hyaluronan cable structure and function in renal proximal tubular epithelial cells. 1690 89
