EC:3.4.21.4 - FACTA Search

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)

Light-activated cyclic GMP-phosphodiesterase (PDE) is the key effector enzyme of vertebrate photoreceptor cells which regulates the level of the internal transmitter cyclic GMP. PDE consists of catalytic P alpha and P beta subunits, and two copies of inhibitory P gamma subunit. The two P gamma subunits block the enzyme's activity in the dark and are removed by the alpha-subunit of transducin (alpha 1) upon light-activation of photoreceptor cells. Here we have examined the role of various regions of P gamma, the N-terminal, the central cationic and the C-terminal regions, in interaction with the catalytic subunits of PDE. N-Terminal truncation of P gamma (12-87-P gamma) did not change the potency of PDE inhibition, and thus we conclude that the P gamma N-terminal region is not critical for P gamma-P alpha beta interaction. The central region, 24-46-P gamma, participates in interaction with the catalytic P alpha beta subunits. A synthetic peptide corresponding to this site inhibited approximately 50% of trypsin-activated PDE (tPDE) (Ki approximately 15 microM) and competed with P gamma for inhibition of tPDE. We demonstrated, by using h.p.l.c. gel filtration, that 125I-Tyr-24-46-P gamma peptide bound with high affinity to tPDE, but not to P alpha beta gamma 2. The C-terminal region of 46-87-P gamma was found to be the major region involved in inhibition of PDE. It fully inhibited tPDE with a Ki of approximately 0.8 microM. It also bound to tPDE, but not P alpha beta gamma 2, in h.p.l.c. gel-filtration experiments. In addition, P gamma was cross-linked by p-phenylenedimaleimide to both P alpha and P beta, as was shown by using subunit-specific anti-P alpha, -P beta and -P gamma antibodies. Cys68 of P gamma, which presumably participates in cross-linking, is located near the P gamma C-terminus. These data provide evidence for two regions of P gamma that interact with, and inhibit, P alpha beta. The central region, 24-46 P gamma, is important in binding, but inhibits PDE only weakly, whereas the C-terminal region is most important for PDE inhibition. These results help to explain the well-known fact that P gamma trypsin-activation and C-terminal truncation both lead to PDE activation. Furthermore, our findings on the mechanism of PDE inhibition of P gamma are relevant for understanding the mechanism of PDE activation by transducin.
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PMID:Two-site high-affinity interaction between inhibitory and catalytic subunits of rod cyclic GMP phosphodiesterase. 131 66

The trypsin-inhibiting activity of human serum is lowered upon addition of formaldehyde or acetaldehyde thereto. Acetaldehyde reacts with alpha-1-proteinase inhibitor (alpha 1-PI) to decrease its trypsin-inhibiting ability. Acetaldehyde has only a slight effect on the tryptic hydrolysis of benzoyl-DL-arginine-p-nitroanilide. It did not decrease the inhibitory activity of the Kunitz inhibitor (Aprotinin) or soybean trypsin inhibitor. Since aldehydes form covalent products with primary amines, primary amides, arginine, tyrosine, and tryptophan in protein, as well as methylene bridges thereby crosslinking functional groups, it is proposed that one or more such interactions affect alpha 1-PI activity. It is further suggested that chronically high levels of acetaldehyde, as a metabolic produce of ethanol, may be a contributory factor to the generation of pancreatitis in alcoholics by possibly lowering the effective alpha 1-PI level which is a natural protective element from proteolysis by trypsin.
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PMID:Acetaldehyde decreases the antitryptic activity of alpha 1-proteinase inhibitor. 131 22

Astacin, a digestive zinc-endopeptidase from the crayfish Astacus astacus L., is the prototype for the 'astacin family', which includes mammalian metallo-endopeptidases and developmentally regulated proteins of man, fruitfly, frog and sea urchin. Here we report the X-ray crystal structure of astacin, which reveals a deep active-site cleft, with the zinc at its bottom ligated by three histidines, a water molecule and a more remote tyrosine. The third histidine (His 102) forms part of a consensus sequence, shared not only by the members of the astacin family, but also by otherwise sequentially unrelated proteinases, such as vertebrate collagenases. It may therefore represent the elusive 'third' zinc ligand in these enzymes. The amino terminus of astacin is buried forming an internal salt-bridge with Glu 103, adjacent to His 102. Astacin pro-forms extended at the N terminus, as observed for some 'latent' mammalian astacin homologues, did not exhibit this 'active' conformation, indicating an activation mechanism reminiscent of trypsin-like serine proteinases.
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PMID:Structure of astacin and implications for activation of astacins and zinc-ligation of collagenases. 131 61

7-Chloro-4-nitro-benzofurazan selectively modifies one PPase Tyr residue per subunit and lowers the enzyme activity. Hydrolysis of the modified protein by trypsin and then by chymotrypsin produces the 82-89 peptide which possesses modified Tyr-89. Substrate analog (CaPPi) and the product of the enzyme reaction, MgPi, protect the enzyme against inactivation. Ions of metal-activators (Mg2+, Zn2+) exert no influence on the inactivation rate. On the contrary, the Ca(2+)-inhibitor of the enzyme accelerates the reaction by binding to the high-affinity site, and effectively decreases it when Ca2+ binds to both sites. Mg2+ competes with Ca2+ for one binding site, which is the low affinity site for Mg2+ and the high-affinity site for Ca2+. The Ca2+ saturation of the high-affinity site decreases the pK2 of Tyr-89, probably due to direct coordination between Tyr and Ca2+. The observed properties of Tyr-89 modification enable us to propose that Tyr-89 serves as a proton donor for phosphate releasing during enzymatic hydrolysis of pyrophosphate. The Ca2+ inhibitory effect on the enzyme activity may be due to the existence of a Tyr-89 bond in the Ca2+ pyrophosphatase complex.
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PMID:Tyrosine-89 is important for enzymatic activity of S. cerevisiae inorganic pyrophosphatase. 132 42

Penetration of a cell membrane as an early event in infection of cells by mammalian reoviruses appears to require a particular type of viral particle, the infectious subvirion particle (ISVP), which is generated from an intact virion by proteolytic cleavage of the outer capsid proteins sigma 3 and mu 1/mu 1C. Characterizations of the structural components and properties of ISVPs are thus relevant to attempts to understand the mechanism of penetration by reoviruses. In this study, a novel, approximately 13-kDa carboxy-terminal fragment (given the name phi) was found to be generated from protein mu 1/mu 1C during in vitro treatments of virions with trypsin or chymotrypsin to yield ISVPs. With trypsin treatment, both the carboxy-terminal fragment phi and the amino-terminal fragment mu 1 delta/delta were shown to be generated and to remain attached to ISVPs in stoichiometric quantities. Sites of protease cleavage were identified in the deduced amino acid sequence of mu 1 by determining the amino-terminal sequences of phi proteins: trypsin cleaves between arginine 584 and isoleucine 585, and chymotrypsin cleaves between tyrosine 581 and glycine 582. Findings in this study indicate that sequences in the phi portion of mu 1/mu 1C may participate in the unique functions attributed to ISVPs. Notably, the delta-phi cleavage junction was predicted to be flanked by a pair of long amphipathic alpha-helices. These amphipathic alpha-helices, together with the myristoyl group at the extreme amino terminus of mu 1/mu 1N, are proposed to interact directly with the lipid bilayer of a cell membrane during penetration by mammalian reoviruses.
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PMID:A carboxy-terminal fragment of protein mu 1/mu 1C is present in infectious subvirion particles of mammalian reoviruses and is proposed to have a role in penetration. 132 74

We have altered the amino acid at the center of the reactive site (methionine 73) of Streptomyces subtilisin inhibitor (SSI) by site-directed and cassette mutagenesis. Replacement by lysine or arginine resulted in trypsin inhibitory activity, replacement only by lysine gave inhibition of lysyl endopeptidase, and replacement by tyrosine or tryptophan resulted in inhibition of alpha-chymotrypsin. The four mutant SSIs retained their native activity against subtilisin BPN'. Thus by altering only one amino acid residue at the reactive site of SSI to the substrate specificity of the respective protease we could successfully change its inhibitory profile.
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PMID:Alteration of the specificity of the Streptomyces subtilisin inhibitor by gene engineering. 136 38

Silkworm antitrypsin (sw-AT), which was thought to belong to serpin family, changed its behavior against denaturation after chymotryptic cleavage of a single peptide bond (Tyr-Val) two amino acids away from the reactive site for trypsin (Lys-Val). This chymotrypsin-modified sw-AT became resistant to denaturation by heat, sodium dodecyl sulfate, or guanidine hydrochloride, and this characteristic was evident in its circular dichroism spectrum. The modified sw-AT was also indigestible by S. aureus V8 protease. These facts should indicate a structural change from a stressed, unstable state to a stable one accompanying the cleavage of the single peptide bond in sw-AT. The stabilizing factor was in part attributed to the interaction of a COOH-terminal fragment (5 kDa) and an NH2-terminal one (36 kDa) in modified sw-AT.
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PMID:Single site proteolysis in silkworm antitrypsin causes structural changes in behavior against denaturing reagents. 136 16

The amino acids of Lady Amherst's pheasant and golden pheasant egg-white lysozymes have been sequenced. The carboxymethylated lysozymes were digested with trypsin followed by sequencing of the tryptic peptides. Lady Amherst's pheasant lysozyme proved to consist of 129 amino acid residues, and a relative molecular mass of 14,423 Da was calculated. This lysozyme had 6 amino acids substitutions when compared with hen egg-white lysozyme: Phe3 to Tyr, His15 to Leu, Gln41 to His, Asn77 to His, Gln 121 to Asn, and a newly found substitution of Ile124 to Thr. The amino acid sequence of golden pheasant lysozyme was identical to that of Lady Amherst's phesant lysozyme. The phylogenetic tree constructured by the comparison of amino acid sequences of phasianoid birds lysozymes revealed a minimum genetic distance between these pheasants and the turkey-peafowl group.
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PMID:The amino acid sequence of Lady Amherst's pheasant (Chrysolophus amherstiae) and golden pheasant (Chrysolophus pictus) egg-white lysozymes. 136 78

Alginate is believed to be a major virulence factor in the pathogenicity of Pseudomonas aeruginosa in the lungs of patients suffering from cystic fibrosis. Guanosine diphospho-D-mannose dehydrogenase (GDPmannose dehydrogenase, EC 1.1.1.132) is a key enzyme in the alginate biosynthetic pathway which catalyzes the oxidation of guanosine diphospho-D-mannose (GDP-D-mannose) to GDP-D-mannuronic acid. In this paper, we report the structural analysis of GMD by limited proteolysis using three different proteases, trypsin, submaxillary Arg-C protease, and chymotrypsin. Treatment of GMD with these proteases indicated that the amino-terminal part of this enzyme may fold into a structural domain with an apparent molecular mass of 25-26 kDa. Multiple proteolytic cleavage sites existed at the carboxyl-terminal end of this domain, indicating that this segment may represent an exposed region of the protein. Initial proteolysis also generated a carboxyl-terminal fragment with an apparent molecular mass of 16-17 kDa which was further digested into smaller fragments by trypsin and chymotrypsin. The proteolytic cleavage sites were localized by partial amino-terminal sequencing of the peptide fragments. Arg-295 was identified as the initial cleavage site for trypsin and Tyr-278 for chymotrypsin. Catalytic activity of GMD was totally abolished by the initial cleavage. However, binding of the substrate, GDP-D-mannose, increased stability toward proteolysis and inhibited the loss of enzyme activity. GMP and GDP (guanosine 5'-mono- and diphosphates) also blocked the initial cleavage, but NAD and mannose showed no effect. These results suggest that binding of the guanosine moiety at the catalytic site of GMD may induce a conformational change that reduces the accessibility of the cleavage sites to proteases. Binding of [14C]GDP-D-mannose to the amino-terminal domain was not affected by the removal of the carboxyl-terminal 16-kDa fragment. Furthermore, photoaffinity labeling of GMD with [32P]arylazido-beta-alanine-NAD followed by proteolysis demonstrated that the radioactive NAD was covalently linked to the amino-terminal domain. These observations imply that the amino-terminal domain (25-26 kDa) contains both the substrate and cofactor binding sites. However, the carboxyl-terminal fragment (16-17 kDa) may possess amino acid residues essential for catalysis. Thus, proteolysis had little effect on substrate binding, but totally eliminated catalysis. These biochemical data are in complete agreement with amino acid sequence analysis for the existence of substrate and cofactor sites of GMD. A linear peptide map of GMD was constructed for future structure/functional studies.
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PMID:Characterization of guanosine diphospho-D-mannose dehydrogenase from Pseudomonas aeruginosa. Structural analysis by limited proteolysis. 137 Apr 73

An automated method for the optimal placement of polar hydrogens in a protein structure is described. This method treats the polar, side chain hydrogens of lysine, serine, threonine, and tyrosine and the amino terminus of a protein. The program, called NETWORK, divides the potential hydrogen-bonding pairs of a protein into groups of interacting donors and acceptors. A search is conducted on each of the local groups to find an arrangement which forms the most hydrogen bonds. If two or more arrangements have the same number of hydrogen bonds, the arrangement with the shortest set of hydrogen bonds is selected. The polar hydrogens of the histidyl side chain are specifically treated, and the ionization state of this residue is allowed to change, if this change results in additional hydrogen bonds for the local group. The program will accept Protein Data Bank as well as Biosym-format coordinate files. Input and output routines can be easily modified to accept other coordinate file formats. The predictions from this method are compared to known hydrogen positions for bovine pancreatic trypsin inhibitor, insulin, RNase-A, and trypsin for which the neutron diffraction structures have been determined. The usefulness of this program is further demonstrated by a comparison of molecular dynamics simulations for the enzyme cytochrome P-450cam with and without using NETWORK.
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PMID:A method for determining the positions of polar hydrogens added to a protein structure that maximizes protein hydrogen bonding. 137 79

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