EC:3.4.21.4 - FACTA Search

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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)

Soybean world production has been increasing at a rate of 5.2% per year (average yield is around 1,400 kg/ha). This production has been solely used for oil extraction and the protein meal obtained for animal rations, but lately it is being used for human consumption. Brazil, the third largest producer, has had a yearly rate of production increase of 32% in the last years. Average yields in Brazil are still low (around 1,500 kg/ha), but in experimental results, yields over 3,000 kg/ha have been obtained. Some problems needstill to be solved, such as obtention of adapted varieties, soil fertility, adequate agronomic practices, damage by insects and diseases. Protein and oil contents are highly negative correlated, they are genetically controlled and can also be influenced by environmental conditions and agronomic practices. To breed for high protein (above 48%) enhances a decrease in oil and yield, but new varieties containing 43% protein and with a good yielding capacity have been developed lately. Methionine content varies from 1.0 to 1.6% g/16g N; there is a correlation of 0.56 to 0.58 between methionine in the protein and protein in the seed. Particular attention has been given to toxic factors such as trypsin inhibitors, whose action is related to the availability or utilization of methionine; this effect, however, can be eliminated by heat.
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PMID:Production and nutritive value of soybeans. 57 63

Aspartate transaminase from chicken heart cytosol was immobilized covalently on activated thiol-Sepharose and digested with trypsin. After washing, the thiol-containing peptides were eluted with 2-mercaptoethanol and further purified by gel-filtration and paper chromatography. Three pure cysteinyl peptides were isolated. One of them may be represented as Ile-(Asp, Met, Cys, Gly, Leu, Thr2)-Lys; this peptide is identical to the fragment comprizing residues 387--395 in the peptide chain of aspartate transaminase from pig heart cytosol. It thus contains a cysteine residue homologous to Cys-390 of the pig heart enzyme. The second cysteinyl peptide had the following composition and partial sequence: Tyr-Phe-Val-Ser-Glu-Gly-Phe-Glu-Leu-Phe (Cys, Ala, Glu, Ser2, Phe)Lys, which corresponds to the sequence 242--258 of the pig enzyme and thus contains a cysteine residue homologous to Cys-252. The third cysteinyl peptide was similar to the tryptic peptide of the pig enzyme containing Cys-191.
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PMID:[Thiol peptides from the aspartate transaminase of chicken heart cytosol]. 59 23

A lethal protein with hemagglutinating activity but without trypsin inhibitory activity was isolated from beans of Phaseolus vulgaris, cultiva, and Kintoki and proved homogeneous by ultracentrifugation, disc polyacrylamide gel electrophoresis, sodium dodesyl sulfate polyacrylamide gel electrophoresis and isoelectric focusing. The molecular weight was estimated to be 104, 000 by ultracentrifugal analysis and gel filtration on Sephadex G-200. The molecule dissociates into three identical subunits in the presence of 8 M urea or 0.1% sodium dodesyl sulfate. The amino acid composition was characterized by the high content of aspartic acid and the complete absence of methionine and cystine. The carbohydrate content was 8.1%; 5.0% mannose and 3.1% glucosamine. The addition of the lethal protein to a basal diet (0.4%) resulted in the intensive depression of the growth and finally in the death of rats. The intraperitoneal injection of 250 microgram per g body weight of mouse brought about an acute toxicity which caused death of all the injected mice.
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PMID:The isolation and characterization of a lethal protein from Kintoki beans (Phaseolus vulgaris). 61 Nov 61

Moloney leukemia virus activated both the classical and alternative pathways of human complement. About 500,000 virions were required to detect activation of the classical pathway whereas 5,000 times as many virions were necessary to initiate the alternative pathway, indicating that in this system only the former is of biological significance. Disruption of the virus with Triton X-100 destroyed its ability to initiate the alternative pathway without affecting its ability to activate the classical pathway. After ultracentrifugation of disrupted virus the active component could be recovered in the supernate and was isolated by isoelectric focusing in granulated gels. Sodium dodecyl sulfate-polyacrylamide gel electrophoretic and analysis and cyanogen bromide digestion studies revealed that the activity resided in a methionine-containing protein having a pI of 7.5 and a molecular weight of approximately equal to 15,000 daltons. The purified protein interacts strongly with Clq and efficiently activates Cl. RNase and lipolytic enzymes had no effect on the isolated protein but incubation with trypsin resulted in loss of activity. Enzymatic digestion studies of surface-labeled virus indicate that the active protein is a viral membrane protein. On the basis of these results it is concluded that the complement receptor of Moloney leukemia virus is the surface protein p15E.
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PMID:Lysis of oncornaviruses by human serum. Isolation of the viral complement (C1) receptor and identification as p15E. 63 50

Soybean inhibitor D-II is an inhibitor of bovine trypsin. Sequence analysis was carried out on the reduced and S-carboxymethylated protein by conventional methods to establish the complete amino acid sequence. The sequence of D-II indicated high homology with other legume inhibitors, but it was unique because of the occurrence of identical residues (arginine) at both of the reactive sites. This structure is thought to reflect that of a prototype double-headed inhibitor. The possible evolutionary process of the legume double-headed inhibitors is discussed on this basis. Comparison with another soybean inhibitor C-II suggested that a single methionine (C-II)-glutamine (D-II) replacement at the P2'position resulted in the loss of alpha-chymotrypsin inhibitory activity of D-II. The results of a hydrogen peroxide oxidation experiment on C-II supported this suggestion. The sequence of the amino-terminal 21 residues of inhibitor E-I was determined using a sequentor. It was shown that this inhibitor lacks the amino-terminal nine residues of D-II.
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PMID:Studies on soybean trypsin inhibitors, XII. Linear sequences of two soybean double-headed trypsin inhibitors, D-II and E-I. 64 Oct 33

Macromomycin is a protein isolated from the culture filtrate of Streptomyces macromomyceticus. It is an antibiotic and also cytotoxic to a broad spectrum of carcinoma cells, the ID50 for P388 leukemia cells being 1 X 10(-9) M. Macromomycin binds rapidly and tightly to the P388 cell membrane and the eventual death of the cell cannot be reversed by either washing the toxin away or treating the cell with trypsin. The cytotoxicity does not appear to be specific for any phase of the P388 cell cycle. Macromomycin is a single polypeptide, pI 5.38, devoid of methionine and arginine residues and contains 4 cysteine residues joined by two intramolecular disulfide bonds. The cytotoxicity results in inhibition of DNA, RNA, and protein synthesis in P388, the latter inhibition occurring a few hours after the inhibition of nucleic acid synthesis. The antibiotic and antitumor activities are destroyed rapidly by ultraviolet light, which gives a product that differs little in amino acid composition, molecular weight, and antigenic property, but can be separated from the native macromomycin by ion exchange chromatography. It is proposed that macromomycin has an ultraviolet-sensitive prosthetic group upon which much of the biological activity is based.
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PMID:Studies on macromomycin, an antitumor protein. 64 Oct 69

Intraduodenal amino acids are known to stimulate the release of gastric inhibitory polypeptide and cholecystokinin. In order to separate and quantitate gastric inhibitory polypeptide secretion selectively, 12 normal subjects received an intraduodenal perfusion of a mixed amino acid solution (158 mM) containing either methionine, phenylalanine, tryptophan, and valine (perfusate 1), or an amino acid solution containing arginine, histidine, isoleucine, leucine, lysine, and threonine (perfusate 2). Serum concentrations of gastric inhibitory polypeptide and insulin were significantly greater in the group receiving perfusate 2 (P less than 0.001). In contrast, after administration of amino acid perfusate 1, there was only a slight increase in serum gastric inhibitory polypeptide concentration and insulin secretion increased only slightly. Mean trypsin and bilirubin outputs in the group receiving perfusate 1 were nearly 3 times greater than the outputs of the group receiving the other amino acid mixture. This study expands the importance of intraduodenal amino acid mixtures in stimulating secretion of gastric inhibitory polypeptide and insulin and quantitatively separates gastric inhibitory polypeptide release from release of hormones that stimulate pancreatic enzyme secretion, such as cholecystokinin.
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PMID:Selective release of gastric inhibitory polypeptide by intraduodenal amino acid perfusion in man. 64 19

The structural polypeptides of two strains of measles virus grown in Vero cells were analysed in SDS-PAGE slab gels. Six major polypeptides were identified with mol. wt. of 79000, 72000, 60000, 43000, 40000 and 36000. The largest polypeptide was sensitive to trypsin digestion and was the dominant glycosylated polypeptide identified when the virus was grown in medium containing 3H-fucose or 3H-glucosamine or when the virus was treated with galactose oxidase and labelled with 3H-sodium borohydride. It is concluded that the 79000 mol. wt. polypeptide represents the haemagglutinin. Treatment with non-ionic detergent removed this polypeptide and also the 40000 mol. wt. polypeptide from the virus envelope. The 40000 mol. wt. polypeptide is probably associated with haemolysin and cell fusion activities and is analogous to the F1 of paramyxoviruses. A polypeptide of mol. wt. approx. 20000 detected after glycoprotein labelling may represent the F2 of measles virus. The 43000 mol. wt. polypeptide co-migrates with cellular actin and is the only major measles polypeptide that is heavily labelled when the virus is grown on Vero cells prelabelled with 35S-methionine. Thus it may represent cellular actin incorporated into the virus during maturation. The quantity of the 72000 mol. wt. polypeptide relative to the other major polypeptides varied considerably in different virus preparations. The role of the polypeptide could not be defined. By analogy with previously published data the 60000 and 36000 mol. wt. polypeptides are inferred to represent nucleocapsid and membrane proteins, respectively.
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PMID:Structural polypeptides of measles virus. 65 Jan 74

In contrast to other studies, our results demonstrate that low concentration of trypsin degrades a high proportion of proteolipid from CNS myelin. The Wolfgram protein and BP are vulnerable and completely lost on trypsinolysis, perhaps accounting for some of the peptides retained by the myelin. In PNS myelin, the major PO protein, a hydrophobic glycoprotein, is readily degraded to a stable 18,000--19,000 molecular weight unit, referred to as TPO protein, still retaining the carbohydrate unit which probably exists as a nonasaccharide grouping. Production of the TPO glycoprotein results from cleavage of a lysinyl-methionine or arginyl-methionine linkage probably found approximately 80--100 residues from the NH2-terminal isoleucine of the PO molecule. This linkage must be especially accessible to trypsin since the TPO protein is also generated in high yield when isolated PO protein is treated with trypsin in solution for 0.5 hours. Further incubation for 24 hours fully degrades the TPO protein to over 20 tryptic peptides, shown by peptide mapping, unlike the situation in myelin where the TPO unit is stable and resists further proteolysis. The TPO unit is also produced when PO protein is treated with BrCN. The PO protein contains 3 methionine residues but presumably the methionine residue in the trypsin-sensitive region is crucial; cleavage leads to the same TPO unit minus NH2-terminal methionine. Another methionine residue also exists in the TPO protein but it may be resistant to BrCN cleavage or else occupy a near-end position. Other proteins were also identified on PAGE of trypsinized PNS myelin: albumin, P2 protein, and PO protein. Albumin and P2 protein were identified in the acidic extract by reaction with specific antibody. The PO protein was isolated; it moved similarly to standard protein on SDS-PAGE and gave the appropriate amino acid analysis. However, it cannot be determined at this time whether a portion of these proteins remains because they are partially inaccessible to trypsin, or else are slightly attacked and thus represent early stages of trypsinolysis. The P2 protein of trypsinized myelin appears to migrate slightly faster than standard P2 protein on PAGE. Further work should clarify this point. Amino acid analysis and sequence data show that the PO protein is particularly hydrophobic, very likely existing in PNS myelin as an amphipathic molecule which penetrates the bilayer but which has a hydrophilic portion exposed. It is this hydrophilic region that contains much lysine, particularly the crucial lysinyl-methionine linkage, that is so trypsin-sensitive. Determination of the amino acid sequence of terminal portions of the isolated PO and TPO proteins serves to firmly establish the PO protein as a unique entity probably exclusive to PNS myelin. It can be concluded that the study of trypsin activity toward PNS myelin has made possible a new understanding of how proteins are positioned in the membrane, and provided valuable insight into the PO protein.
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PMID:The action of trypsin on central and peripheral nerve myelin. 69 76

An unadecapeptide, obtained by papain digestion of denatured human alpha-1-proteinase inhibitor (alpha-1-PI), has been isolated and sequenced. The structure of this fragment overlaps with the NH2-terminal sequence of modified inhibitor (alpha-1-PI) prepared from dissociated complexes of alpha-1-PI with trypsin, chymotrypsin, and elastase. Furthermore, structural homology with the reactive centers of proteinase inhibitors from other sources is readily detectable. Methionine has been found to occupy the apparent P1 position in alpha-1-PI and the potential inactivation of the inhibitor by oxidation of this critical residue may be important in obtaining a biochemical link with the development of lung disease.
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PMID:Structural evidence for methionine at the reactive site of human alpha-1-proteinase inhibitor. 70 Dec 39

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