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)

Photoaffinity labeling experiments with diphtheria toxin fragment A have implicated glutamic acid 148 as a constituent of the NAD binding site. To evaluate the role of this residue in ADP-ribosylation of elongation factor 2, we replaced it with aspartic acid by in vitro mutagenesis of a toxin gene fragment cloned in Escherichia coli. Fragment A containing aspartic acid at position 148 had less than 0.6% the ADP-ribosylation activity of wild-type fragment A. The mutation produced no change in sensitivity of fragment A to trypsin and little, if any, reduction in affinity of fragment A for NAD. These results indicate that glutamic acid 148 is essential for the ADP-ribosylation of elongation factor 2 and are consistent with other data suggesting that this residue may be at or near the catalytic center of the toxin.
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PMID:Diphtheria toxin. Effect of substituting aspartic acid for glutamic acid 148 on ADP-ribosyltransferase activity. 286 66

Dynein 1 was extracted from sperm flagella of the sea urchin Tripneustes gratilla with 0.6 M NaCl and dialyzed against 0.5 mM EDTA, 14 mM 2-mercaptoethanol, 5 mM imidazole/HCl buffer, pH 7.0, for 24-48 h. In some cases, fractions containing the alpha heavy chain and the beta/intermediate chain 1 complex (beta/IC1) were separated by density gradient centrifugation in the same solution. Treatment of the samples at a trypsin:protein ratio of 1:10 w/w for 32 min at room temperature yields a crude digest from which Fragment A is purified by density gradient centrifugation. The purified Fragment A consists of two principal peptides (Mr = 195,000 and 130,000) that cosediment with the peak of ATPase activity at 12.5 S, which is slightly faster than the 11 S of the original beta/IC1 complex. When digests of the separated alpha chain and of the beta/IC1 complex are followed as a function of time, the early cleavages of the two heavy chains (Mr = 428,000) resemble each other in that both lead to similarly sized peptides of Mr 316,000 and 296,000, but only in the beta/IC1 fraction does the digestion proceed to form Fragment A. The remainder of the beta chain, termed Fragment B, occurs as an Mr 110,000 peptide sedimenting at 5.7 S with no associated ATPase activity. Fragment A has a specific ATPase activity of 4.3 mumol Pi X min-1 X mg-1, with a Km of 29 microM in 0.1 M NaCl medium, and an apparent Ki for inhibition by vanadate of 1.2 microM in the absence of salt, and 22 microM in 0.6 M NaCl. Photoaffinity labeling with [alpha-32P]8-azidoadenosine 5'-triphosphate indicates that the ATP binding site on the beta chain of dynein 1 is located on the Mr 195,000 peptide of Fragment A. The possibility that Fragments A and B of the beta/IC1 complex may correspond to the head and tail regions of the tadpole-shaped particle seen by electron microscopy is discussed.
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PMID:Tryptic digestion of dynein 1 in low salt medium. Origin and properties of fragment A. 295 97

The membrane topology of the envelope of Sendai virus was investigated using various radioactive photoactivable hydrophobic reagents: 3-(trifluoromethyl)-3-(m-[125I]iodophenyl)diazirine and the two phospholipid analogues, 1-palmitoyl-2-(2-azido-4-nitro)benzoyl-sn -glycero-3- phospho[3H]choline and 1-myristoyl-2,12-amino-(4-N-3-nitro-1-azidophenyl)dodecanoyl-sn-glycero- 3-phospho[14C]choline. The hemagglutinin-neuraminidase glycoprotein and the fusogenic (F) glycoprotein were labeled by all three probes, confirming that these proteins are integral components of the viral envelope. The labeled F glycoprotein, composed of the two subunits F1 and F2, was cleaved in situ with trypsin to yield two fragments, F32 (32 kDa) and F19 (19 kDa). F2 was not labeled by any of the probes, suggesting an external location; whereas F19 was labeled by all probes and hence contains the portion of the F glycoprotein which traverses the viral envelope. Fragment F32 reacted both with 3-(trifluoromethyl)-3-(m-[125I]iodophenyl)diazirine and with 1-palmitoyl-2-(2-azido-4-nitro)benzoyl-sn-glycero-3-phospho[3H]choline, but not with 1-myristoyl-2,12-amino-(4-N-3-nitro-1-azidophenyl)dodecanoyl-sn-glycero- 3- phospho[14C]choline. This result opens the possibility that the F glycoprotein is formed by a loop-like structure having multiple interactions with viral lipids.
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PMID:Multiple lipid interactions of the Sendai virus fusogenic protein. 304 Jul 4

We have identified four discrete proteolytic fragments of von Willebrand factor (vWF) that define two collagen-binding domains. Two of the fragments tested, T 96 kDa and T 55 kDa, were generated by digestion with trypsin, and two, Fragments I and III, with Staphylococcus aureus V8 protease. The larger Fragment III, a disulfide-linked homodimer, extends between residues 1 and 1365 of the 2050-residue vWF subunit and comprises the sequence of all the others. T 96 kDa, also a disulfide-linked homodimer, extends between residues 449 and 728. T 55 kDa and Fragment I, both single-chain polypeptides, have a partial sequence overlap corresponding to residues 911-1114, and together extend from residue 730 to 1365. The ability of the fragments to interfere with the vWF-collagen interaction was evaluated by measuring inhibition of 125I-labeled vWF binding to fibrillar bovine collagen types I and III. All the four fragments tested inhibited binding. Native conformation was essential for expression of this function; denaturation with guanidine hydrochloride and reduction of disulfide bonds resulted in marked reduction or complete loss, respectively, of the inhibitory activity at all the concentrations tested. Two monoclonal antibodies were prepared, one directed against T 96 kDa and the other against Fragment I. Both antibodies partially inhibited vWF binding to collagen, and their inhibitory effect was enhanced when they were used together. 125I-Labeled Fragment I bound to collagen in a saturable manner, and the binding was completely blocked by both T 96 kDa and T 55 kDa. Thus, we have identified at least two distinct functional domains of vWF that concurrently mediate the vWF-collagen interaction. The two domains appear to share a common recognition site on collagen.
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PMID:Isolation and characterization of two domains of human von Willebrand factor that interact with fibrillar collagen types I and III. 349 19

The primary structure of the cholesterol side-chain cleavage cytochrome P-450 (P-450scc) from bovine adrenocortical mitochondria has been determined. At the initial stage an exhaustive chymotryptic digestion of carboxymethylated P-450scc was performed, and the amino acid sequence of 66 peptides was determined. At the second stage an investigation of the amino acid sequence of individual fragments I (Mr 29 800) and II (Mr 26 600) of the limited trypsinolysis of P-450scc was carried out. Fragment I was digested with trypsin, Staphylococcus aureus V8 proteinase and thermolysin; fragment II was cleaved with trypsin and S. aureus V8 proteinase. In addition, the amino acid sequence of some CNBr peptides of P-450scc has been investigated. The primary structure of cytochrome P-450scc determined with protein chemistry methods proved the multistage cholesterol transformation to pregnenolone to be catalyzed by a single species of cytochrome P-450scc which consists of 481 amino acids. The results from protein sequencing of P-450scc are in good agreement with those obtained recently from nucleotide sequencing. The localization of peptide bonds cleaved under limited proteolysis of P-450 with trypsin to fragments I and II, I and III (Mr 16 800) is presented. It is shown that the transformation of P-450scc to P-420 is accompanied by the appearance of an additional trypsin-sensitive peptide bond in the N-terminal part of P-450scc.
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PMID:Primary structure of the cholesterol side-chain cleavage cytochrome P-450 from bovine adrenocortical mitochondria and some aspects of its functioning on a structural level. 351 2

Lipoprotein lipases from human, bovine or guinea-pig milk were purified, judged for domain relationships by characterization of sites sensitive to proteases, and structurally compared. The subunit of human lipoprotein lipase migrated slightly slower than those of bovine or guinea-pig lipoprotein lipases on sodium dodecyl sulfate/polyacrylamide gel electrophoresis. Bovine lipoprotein lipase is known to be a dimer of two non-covalently linked subunits of equal size, and the lipases from all three sources now yielded homogeneous N-terminal amino acid sequences (followed for 15-27 residues). The results indicate that the two subunits are identical. Bovine lipoprotein lipase had two additional N-terminal residues, Asp-Arg, compared to the human and guinea-pig enzymes, and the next two positions revealed residue differences, but further on homologies were extensive between all three enzymes as far as presently traced. Exposure of bovine lipoprotein lipase to trypsin led to production of three fragments (T1, T2a, and T2b), suggesting cleavage at exposed segments delineating domain borders. Time studies gave no evidence for precursor-product relationships between the fragments, and prolonged digestion did not lead to further cleavage. Fragments T2a and T2b had the same N-terminal sequence as intact lipase. Fragment T1 revealed a new sequence, and represents the C-terminal half of the molecule. Plasmin caused a similar cleavage as trypsin, whereas thrombin, factor Xa, and tissue plasminogen activator did not cleave the enzyme. Chymotrypsin cleaved off a relatively small fragment from the C-terminal of the molecule, after which exposure to trypsin still resulted in cleavage at the same sites as in intact lipase. Tryptic cleavage of guinea-pig lipoprotein lipase yielded two fragments. One had a similar size as bovine fragment T2b; the other had a similar size as bovine fragment T1 and an N-terminal sequence homologous with that of T1. Thus, trypsin recognizes the same unique site in guinea-pig lipoprotein lipase as in the bovine enzyme. This confirms the conclusion that this segment is the border between two domains in the subunit. The binding site for heparin was retained after both tryptic and chymotryptic cleavages and was identified as localized in the C-terminal part of the molecule.
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PMID:Lipoprotein lipases from cow, guinea-pig and man. Structural characterization and identification of protease-sensitive internal regions. 353 11

The limited proteolysis of bovine brain calmodulin with trypsin in the presence or absence of various metal ions was reinvestigated in detail by HPLC. With metal ion-free calmodulin, limited proteolysis occurred at Arg 37 and Arg 106 with a cleavage ratio of 1 to 5, resulting in fragments consisting of residues 1-37, 38-148, 1-106 and 107-148. Fragments 1-37 and 107-148 accumulated under metal ion-free conditions. In the presence of calcium ions, the susceptibility of these sites to trypsin decreased and limited proteolysis occurred at Lys 77 as already reported by other workers. Fragment 78-148 accumulated, whereas fragment 1-77 was unstable under calcium-bound conditions, giving smaller peptides. Upon binding of manganese ions, calmodulin underwent a change of susceptibility to trypsin, resulting in cleavage at Lys 77, as observed for calcium-bound calmodulin. In the presence of zinc or magnesium ions, calmodulin was cleaved at the same sites as metal ion-free calmodulin under conditions where calmodulin would be expected to bind the respective ions.
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PMID:Limited digestion of calmodulin with trypsin in the presence or absence of various metal ions. 371 Oct 69

The complete amino acid sequence of fragment B from diphtheria toxin has been determined. The polypeptide chain was split with cyanogen bromide, o-iodosobenzoic acid, clostripain and trypsin; all amino acid sequence analyses were made by automated Edman degradation. Fragment B, which corresponds to the carboxy terminus of the toxin molecule, contains 342 amino acids and has an Mr of 37240. The proposed amino acid sequence fully confirms the structure recently deduced from the nucleotide sequence of the structural gene. The complete sequence is analyzed in relationship with the role of fragment B in the transfer of diphtheria toxin fragment A from the extracellular medium into the cell cytoplasm.
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PMID:The complete amino acid sequence of diphtheria toxin fragment B. Correlation with its lipid-binding properties. 396 29

A tryptic fragment (A) of Mr 25000 was prepared from bovine secretory component. The fragment binds polymeric immunoglobulin, although 9 times less effectively than secretory component on a molar basis. The fragment has four buried half-cystine residues and two exposed half-cystine residues. It gives rise to two fragments of Mr 11000-13000 on prolonged digestion with trypsin, and these do not bind polymeric immunoglobulin. It is proposed that fragment A consists of two immunoglobulin-like domains. Bovine secretory component was found to have 9-11 buried half-cystine residues and four exposed half-cystine residues. Reduction and alkylation of the exposed residues decreases the binding of polymeric immunoglobulin by 3-fold. Initial tryptic cleavage of bovine secretory component gives a fragment (Q) disulphide-bridged to a further fragment (T). Fragment Q is similar in size to a three-domain immunoglobulin fragment, and fragment T is similar in size to a two-domain immunoglobulin fragment. The two-domain fragment A is derived from fragment Q by further tryptic cleavage. The results are compatible with the proposal by Mostov, Friedlander & Blobel [(1984) Nature (London) 308, 37-43] that secretory component consists of multiple immunoglobulin-like domains. The results also indicate that optimal binding of polymeric immunoglobulin involves several domains stabilized by an exposed disulphide bridge.
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PMID:Fragmentation and reduction of bovine secretory component. Preparation of a biologically active fragment and some evidence for a multiple-domain structure. 398 39

Limited proteolysis has been used to probe the subunit structure (Mr = 52,000) of the dihydrolipoyl transacylase (E2) component of the branched-chain alpha-keto acid dehydrogenase complex from bovine liver. Digestion of the complex at 0 degrees C with a low concentration of trypsin produces an inner E2 core that retains the activity for the transacylation reaction and is completely dissociated from the decarboxylase (E1) component. The trypsinized E2 maintains the highly assembled structure and migrates faster than the native E2 in the Sepharose 4B column. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis shows that the inner E2 core consists of two lipoate-free tryptic fragments, i.e. fragment A and fragment B with Mr = 26,000 and 22,000, respectively. Both fragments apparently fail to bind the E1 component. Fragment A is converted into fragment B by increasing trypsin concentrations. Fragment B is a stable limit polypeptide containing the intersubunit-binding sites for E2. The assemblage of fragment B confers the cubelike appearance of the inner E2 core in electron micrographs. Activity measurements indicate that the larger fragment A, but not fragment B, possesses transacylation activity. It is likely that a critical portion of the active site is present in the 4,000-dalton fragment that is lost during the conversion of fragment A to B.
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PMID:Subunit structure of the dihydrolipoyl transacylase component of branched-chain alpha-keto acid dehydrogenase complex from bovine liver. Characterization of the inner transacylase core. 405 56


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