Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

A novel inhibitor of cysteine proteinases has been isolated from fruit bodies of a mushroom Clitocybe nebularis. The inhibitor was purified to homogeneity by affinity chromatography and gel filtration, followed by reverse-phase high pressure liquid chromatography. The active inhibitor has an apparent molecular mass of about 34 kDa by gel filtration and by SDS-polyacrylamide gel electrophoresis without prior boiling of the sample. Boiling in 2.5% SDS or incubation in 6 m guanidine hydrochloride resulted in a single band of 17 kDa, indicating homodimer composition with no intersubunit disulfide bonds. The inhibitor in nondenaturing buffer is resistant to boiling in water, retaining its activity and dimer composition. The mushroom protein is a tight binding inhibitor of papain (K(i) = 0.59 nm), cathepsin L (K(i) = 0.41 nm), cathepsin B (K(i) = 0.48 micrometer), and bromelain (K(i) = 0.16 micrometer) but is inactive toward cathepsin H, trypsin, and pepsin. Its isoelectric point is 4.4, and sugar analysis indicates the absence of carbohydrate. A single protein sequence of 150 amino acids, containing no cysteine or methionine residues, was obtained by amino acid sequencing. The calculated molecular mass of 16854 Da corresponds well with the value obtained by mass spectrometry. A major part of this sequence was verified by molecular cloning. The monomer sequence is clearly devoid of typical cystatin structure elements and has no similarity to any other known cysteine proteinase inhibitors but bears some similarity to a lectin-like family of proteins from mushrooms. The inhibitor, which is present in at least two other members of the Clitocybe genus, has been named clitocypin (Clitocybe cysteine proteinase inhibitor).
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PMID:Clitocypin, a new type of cysteine proteinase inhibitor from fruit bodies of mushroom clitocybe nebularis. 1074 21

We purified the most potent thrombin inhibitor described to date from the rhynchobdellid leech Theromyzon tessulatum. Designated theromin, it was purified to apparent homogeneity by gel permeation and anion exchange chromatography followed by two reverse-phase steps of high performance liquid chromatography. The primary sequence of theromin (a homodimer of 67 amino acid residues including 16 cysteine residues) was determined by a combination of reduction and s-beta-pyridylethylation, Edman degradation, trypsin enzymatic digestion, and matrix-assisted laser desorption mass spectrometry measurement. Theromin exhibits no sequence homology with any other thrombin inhibitors. Furthermore, theromin significantly diminishes, in a dose-dependent manner, the level of human granulocyte and monocyte activation induced by lipopolysaccharides. In summary, this potent thrombin inhibitor promises to have high biomedical significance.
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PMID:Theromin, a novel leech thrombin inhibitor. 1083 66

UDP-galactose 4-epimerase from Escherichia coli is a homodimer of molecular weight 39 kDa/subunit having noncovalently bound NAD acting as cofactor. Denaturation by 8 M urea at pH 7.0 causes 85% loss of its secondary structure and dissociation of its constituent molecules. Dilution of the denaturant by buffer at pH 8.5 leads to functional reconstitution of the dimeric holoenzyme. The refolding process is biphasic: after 2 min an equilibrium conformer is formed having 72% of its native secondary structure and by 60 min reactivation becomes complete. The early intermediate has lower energy of activation against thermal denaturation than the reactivated state. Patterns of trypsin digestion suggests a native like structure of this intermediate. Variation of solvent viscosity and ionic strength and inclusion of proline cis-trans isomerase in the refolding process do not alter kinetics of reactivation. Moreover, unaltered kinetics of reactivation against variation of temperature, pH, and duration of denaturation strongly suggests absence of proline cis/trans isomerization. Measurement of kinetics of (i) recovery of tertiary structure by protein fluorescence; (ii) incorporation of NAD from quantitation of bound cofactor; (iii) formation of substrate binding site by specific interaction with extrinsic fluorophore 1-anilino-8-naphthalene sulfonic acid and quenching by 5'-UMP, a competitive inhibitor; and (iv) recovery of activity indicate that they are all comparable. It appears that internal rearrangement of the protein during refolding, shielded from solvent, is the rate-limiting step of generation of cofactor binding site which ultimately leads to maturation of the holoenzyme structure.
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PMID:UDP-galactose 4-epimerase from Escherichia coli: formation of catalytic site during reversible folding. 1143 50

Signals initiated by the precursor B cell receptor (pre-BCR) are critical for B cell progenitors to mature into precursor B cells. The pre-BCR consists of a homodimer of microH chains, the covalently associated surrogate L (SL) chain composed of VpreB and lambda5, and the transmembrane signal molecules Ig(alpha) and Igbeta. One way to explain how maturation signals are initiated in late progenitor B cells is that the pre-BCR is transported to the cell surface and interacts from there with a ligand on stroma cells. To address this hypothesis, we first produced soluble Fab-like pre-BCR and BCR fragments, as well as SL chain, in baculovirus-infected insect cells. Flow cytometry revealed that, in contrast to Fab-like BCR fragments, the soluble pre-BCR binds to the surface of stroma and several other adherent cell lines, but not to B and T lymphoid suspension cells. The specific binding of the soluble pre-BCR to stroma cells is saturable, sensitive to trypsin digestion, and not dependent on bivalent cations. The binding of pre-BCR seems to be independent of the H chain of IgM (microH chain), because SL chain alone was able to interact with stroma cells. Finally, soluble pre-BCR specifically precipitated a 135-kDa protein from ST2 cells. These findings not only demonstrate for the first time the capacity of a pre-BCR to specifically bind to a structure on the surface of adherent cells, but also suggest that the pre-BCR interacts via its SL chain with a putative ligand on stroma cells.
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PMID:Surrogate light chain-mediated interaction of a soluble pre-B cell receptor with adherent cell lines. 1171 6

Osteoclasts and osteoblasts are responsible for strict bone maintenance with a balance between bone formation and resorption by interacting with each other. Recently, it has been revealed that osteoblasts/stromal cells regulate differentiation of osteoclasts/hematopoietic cells by two factors, the receptor activator of nuclear factor-kappaB (NF-kappaB) ligand (RANKL) on the plasma membrane, and secreted osteoprotegerin (OPG). However, no factors have yet been reported by which osteoclasts/hematopoietic cells regulate osteoblasts/stromal cells. To elucidate the possibility of signal transduction from osteoclasts to osteoblasts, we studied the conditioned medium of mouse osteoclast-like myeloma cell line RAW264.7 treated with RANKL. We found that this medium contains a factor that inhibits differentiation of mouse osteoblast precursor-like cell line MC3T3-E1 to osteoblasts induced by bone morphogenetic protein 4 (BMP-4) and named this factor osteoblastogenesis inhibitory factor (OBIF). OBIF was purified by successive three-step chromatography by heparin affinity, anion exchange, and reversed-phase columns. Osteoblastogenesis inhibitory activity made one peak in each chromatography step, showing the factor is a single entity. Active fractions were loaded on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and bands of proteins were excised, digested by trypsin, and analyzed by liquid chromatography equipped with tandem mass spectrometry (LC/MS/MS). Consequently, we have identified this factor to be platelet-derived growth factor BB (PDGF BB) homodimer. Furthermore, this identification of PDGF BB as OBIF was confirmed by neutralization of the inhibitory activity of the medium with anti-PDGF antibody. These results show, for the first time, that osteoclasts regulate osteoblasts directly and suggest that PDGF BB is a key factor in bone remodeling.
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PMID:Platelet-derived growth factor BB secreted from osteoclasts acts as an osteoblastogenesis inhibitory factor. 1181 56

A full-length cDNA of 794 bp encoding a putative copper/zinc-superoxide dismutase (Cu/Zn-SOD) from Pagrus major was cloned by the PCR approach. Nucleotide sequence analysis of this cDNA clone revealed that it comprises a complete open reading frame coding for 154 amino acid residues. The deduced amino acid sequence showed high similarity (53-91%) with the sequences of Cu/Zn-SOD from other species. Computer analysis of the residues required for coordinating copper (His-47, 49, 64, and 121) and zinc (His-64, 72, 81, and Asp-84), as well as the two cysteines (58 and 147) that form a single disulfide bond, were well conserved among all reported Cu/Zn-SOD sequences. To further characterize the Pagrus major Cu/Zn-SOD, the coding region was subcloned into an expression vector, pET-20b(+), and transformed into Escherichia coli BL21(DE3). The expression of the Cu/Zn-SOD was confirmed by enzyme activity stained on a native-gel and purified by Ni(2+)-nitrilotriacetic acid Sepharose superflow. Dimer was the major form of the enzyme in equilibrium. The dimerization of the enzyme was inhibited under acidic pH (below 4.0 or higher than 10.0). The half-life was 8.6 min and the inactivation rate constant (k(d)) was 9.69 x 10(-2) min(-1) at 70 degrees C. The enzyme activity was not significantly affected under 4% SDS or 0.5 M imidazole. The enzyme was resistant to proteolysis by both trypsin and chymotrypsin.
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PMID:Characterization of copper/zinc-superoxide dismutase from Pagrus major cDNA and enzyme stability. 1182 45

Xanthine oxidoreductase (XOR) is a 300-kDa homodimer that can exist as an NAD+-dependent dehydrogenase (XD) or as an O2-dependent oxidase (XO) depending on the oxidation state of its cysteine thiols. Both XD and XO undergo limited cleavage by chymotrypsin and trypsin. Trypsin selectively cleaved both enzyme forms at Lys184, while chymotrypsin cleaved XD primarily at Met181 but cleaved XO at Met181 and at Phe560. Chymotrypsin, but not trypsin, cleavage also prevented the reductive conversion of XO to XD; thus the region surrounding Phe560 appears to be important in the interconversion of the two forms. Size exclusion chromatography showed that disulfide bond formation reduced the hydrodynamic volume of the enzyme, and two-dimensional gel electrophoresis of chymotrypsin-digested XO showed significant, disulfide bond-mediated, conformational heterogeneity in the N-terminal third of the enzyme but no evidence of disulfide bonds between the N-terminal and C-terminal regions or between XOR subunits. These results indicate that intrasubunit disulfide bond formation leads to a global conformational change in XOR that results in the exposure of the region surrounding Phe560. Conformational changes within this region in turn appear to play a critical role in the interconversion between the XD and XO forms of the enzyme.
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PMID:Structural and conformational analysis of the oxidase to dehydrogenase conversion of xanthine oxidoreductase. 1191 70

FliH is a regulatory component for FliI, the ATPase that is responsible for driving flagellar protein export in Salmonella. FliH consists of 235 amino acid residues, has a quite elongated shape, exists as a homodimer and together with FliI forms a heterotrimer. Here, we have investigated the structural properties of the FliH homodimer in further detail. Like intact His-tagged FliH homodimer, fragment His-FliH(N2) (consisting of the first 102 amino acid residues of FliH), exhibited anomalous elution behavior in gel filtration chromatography; the same was true of His-FliH(C1) (consisting of amino acid residues 119-235), but to a much lesser degree. Thus the elongated shape of FliH appears to derive primarily from its N-terminal region. A deletion version of N-His-FliH, lacking amino acid residues 101-140, does not dimerize and so we were able to establish the gel filtration properties of an almost full-size monomeric form; it also exhibited anomalous elution behavior. We performed trypsin proteolysis of the FliH homodimer and subjected the cleavage products to gel filtration chromatography. FliH was degraded by trypsin and a contaminating protease into two stable fragments: FliH(Prt1) (missing both the first ten and the last 12 amino acid residues), and FliH(Prt2) (missing both the first ten and the last 63 amino acid residues); however, substantial amounts remained undigested even after 24 hours. Under native conditions, both FliH(Prt1) and FliH(Prt2) co-eluted with undigested His-FliH from the gel filtration column, indicating that the fragments exist as a hybrid dimer with intact FliH. These results suggest that the two subunits within the dimer differ in their proteolytic susceptibility. No heterotrimer was observed by gel filtration chromatography when His-FliI was mixed with either His-FliH/FliH(Prt1) or His-FliH/FliH(Prt2) hybrid dimers. A hybrid dimer of FliH and His-FliHDelta1 (lacking the first ten amino acid residues) retained the ability to form a complex with His-FliI. In contrast, hybrid dimers consisting of FliH and either His-FliH(W223ochre) or His-FliH(V172ochre) failed to complex to His-FliI, demonstrating that the C-terminal region of both FliH monomers within the FliH dimer are required for heterotrimer formation.
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PMID:Structural properties of FliH, an ATPase regulatory component of the Salmonella type III flagellar export apparatus. 1221 91

A full-length cDNA clone of 744 bp encoding a putative copper/zinc-superoxide dismutase (Cu/Zn-SOD) from lemon (Citrus limon) was cloned by PCR approach. Nucleotide sequence analysis of this cDNA clone revealed that it comprised an open reading frame coding for 152 amino acid residues. The deduced amino acid sequences showed high identity (65-84%) with the sequences of the Cu/Zn-SODs from other plant species. Computer analysis of the residues required for coordinating copper (His-45, -47, -62, and -119) and zinc (His-62, -70, and -79 and Asp-82), as well as the two cysteines (56 and 145) that form a single disulfide bond, showed they were well-conserved among all reported Cu/Zn-SOD sequences in the present study. To further characterize the lemon Cu/Zn-SOD, the coding region was subcloned into an expression vector, pET-20b(+), and transformed into Escherichia coliBL21(DE3). Expression of the Cu/Zn-SOD was confirmed by enzyme activity staining on a native gel and purified by Ni(2+)-nitrilotriacetic acid Sepharose superflow. The purified enzyme showed two active forms (70% monomer and 30% dimer) in equilibrium, and the specific activity was 7 456 units/mg. The activity of the dimer was 65% higher than that of the monomer. The thermal inactivation rate constant K(d) value calculated for the dimer at 90 degrees C was -7.0 x 10(-3) min(-1), and the half-life for inactivation was 99 min. Both activity and forms of the enzyme were affected very little by acidic pH, basic pH, or 4% SDS. The dimeric structure was more resistant to heat and proteolytic attack with trypsin or chymotrypsin compared to the monomeric structure. Imidazole caused the dimer to dissociate into monomers. These studies suggested subunit interaction might be important for enzyme stability.
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PMID:Copper/zinc-superoxide dismutase from lemon cDNA and enzyme stability. 1245 42

Tyrosinase is a glycoprotein responsible for the synthesis of melanin in melanocytes. A large number of mutations have been identified in tyrosinase, with many leading to its misfolding, endoplasmic reticulum (ER) retention, and degradation. Here we describe the folding and maturation of human tyrosinase (TYR) using an in vitro translation system coupled with ER-derived microsomes or with semipermeabilized cells, as an intact ER source. TYR remained misfolded as determined by its sensitivity to trypsin digestion and its persistent interaction with the ER resident lectin chaperones calnexin and calreticulin when produced in ER-derived microsomes or nonmelanocytic semipermeabilized cells. However, when TYR was translocated into semipermeabilized melanocytes, chaperone interactions were transient, maturation progressed to a trypsin-resistant state, and a TYR homodimer was formed. The use of semipermeabilized mouse melanocytes defective for tyrosinase or other melanocyte-specific proteins as the ER source indicated that proper TYR maturation and oligomerization were greatly aided by the presence of wild type tyrosinase and tyrosinase-related protein 1. These findings suggested that oligomerization is a step in proper TYR maturation within the ER that requires melanocyte-specific factors.
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PMID:Tyrosinase maturation and oligomerization in the endoplasmic reticulum require a melanocyte-specific factor. 1272 9


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