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)

The Rho(D) antigen of red cell membranes was solubilized using ethylene-diamine tetraacetic acid (EDTA) and 2-mercaptoethanol. The solubilized antigen was partially separated from other solubilized membrane components using molecular filtration. The antigen was treated with various enzymes to learn some of the chemical characteristics. It was found that the activity of the antigen, as measured by hemagglutination inhibition, was not affected by bee venom phospholipase A, Clostridium welchii phospholipase C, calf-intestinal alkaline phosphatase, Vibrio cholerae neuraminidase, pig kidney leucine aminopeptidase, bovine pancreatic carboxypeptidase A, and pig pancreatic carboxypeptidase B. However, the proteolytic enzymes, pronase, trypsin, chymotrypsin and papain, did destroy Rho(D) activity as measured by hemagglutination inhibition. These results indicate that protein is an important part of the active determinant of the Rho(D) antigen. The experiments by other investigators have shown that lipid is important to maintain the Rho(D) activity in the intact membrane; lipid probably helps to maintain the structural conformation of the Rho(D) molecule in its natural environment. The solubilized Rho(D) molecules are apparently not dependent on lipid for their Rho(D) activity.
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PMID:Studies on the characterization of the Rho(D) antigen. 10 79

A gene termed cbhE' was cloned from the QpH1 plasmid of Coxiella burnetii. Expression of recombinants containing cbhE' in vitro and in Escherichia coli maxicells, produced an insert-encoded polypeptide of approx. 42 kDa. The CbhE protein was not cleaved when intact maxicells were treated with trypsin. Hybridizations of total DNA isolated from the six strains of C. burnetii indicate that this gene is unique to C. burnetii strains associated with acute disease, i.e., Hamilton[I], Vacca[II], and Rasche[III]. The cbhE' gene was not detected in strains associated with chronic disease (Biotzere[IV] and Corazon[V]) or the Dod[VI] strain. The cbhE' open reading frame (ORF) is 1022 bp in length and is preceded by a predicted promoter/Shine-Dalgarno (SD) region of TCAACT(-35)-N16-TAAAAT(-10)-N14-AGAAGGA (SD) located 10 nucleotides (nt) before the presumed AUG start codon. The ORF ends with a single UAA stop codon and has no apparent Rho-factor-independent terminator following it. The cbhE' gene codes for the CbhE protein of 341 amino acid (aa) residues with a deduced Mr of 39,442. CbhE is predominantly hydrophilic with a predicted pI of 4.43. The function of CbhE is unknown. No nt or aa sequences with homology to cbhE' or CbhE, respectively, were found in searches of a number of data bases.
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PMID:Analysis of the cbhE' plasmid gene from acute disease-causing isolates of Coxiella burnetii. 187 92

This paper is the first to describe characterization of monoclonal antibodies (MAbs) against a South African Territories 2 (SAT 2) foot-and-mouth disease virus (isolate Rho 1/48). Twelve MAbs which neutralized homologous virus were characterized in indirect and sandwich ELISA using purified Rho 1/48 virus particles, subunits, trypsin-treated, and chemically denatured virus. All the MAbs inhibited haemagglutination by parental virus. Binding of the MAbs to 73 SAT 2 field isolates was measured in a sandwich ELISA and defined four distinct antigenic regions. Preliminary characterization of escape mutants selected with some of the MAbs using virus neutralization tests, ELISA, and amino acid sequencing is included. MAbs 2, 25, 40, 48 and 64, reacted with a linear epitope on the VP1 loop region. An amino acid change at position 149 (valine to glutamic acid) was detected in mutants selected by MAb 2 and 40 and this eliminated binding and neutralization by all the other MAb. This epitope was conformation-dependent and was conserved in all 73 isolates of SAT 2 examined. Escape mutants isolated with MAb 41 and 44, had changes at positions 156 (glycine to aspartic acid), or 158 (serine to leucine) respectively. These MAbs bound with Rho 1/48 only out of 73 field strain viruses studies and the reactions of MAbs from the other groups was unaltered. MAb 27, 28 and 37 reacted with a conformation-dependent epitope on VP1 which was not conserved in field isolates. All mutants selected by these MAbs had a single amino acid substitution at position 149 (valine to alanine). The same change was always found in field isolates which did not bind MAbs from this group. MAb 11 reacted with a linear epitope associated with amino acids 147 or 148 on VP1 and showed similar binding characteristics to a conformation dependent MAb 7, no amino acid residue changes were found within VP1 for monoclonal antibody 7 mutants.
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PMID:Characterization of monoclonal antibodies against a type SAT 2 foot-and-mouth disease virus. 769 30

GTP-binding proteins of the Rho family are maintained as cytosolic complexes with RhoGDI in resting cells, but are released and translocate to the membrane during the course of cell activation. Membrane association of Rac/Rho/CDC42 was specifically induced by GTP analogs and required a heat- and trypsin-labile membrane component. Translocation was associated with the release of Rho family proteins from RhoGDI, but such release did not occur in the absence of membranes, nor was release in the absence of guanosine 5'-O-(thiotriphosphate) (GTP gamma S) sufficient for membrane association. Membrane binding was correlated with exchange of GTP gamma S for GDP on Rac, and only GTP gamma S-bound Rac became membrane localized. We propose that translocation of Rac and other members of the Rho family is controlled by membrane-associated guanine nucleotide exchange factors, providing a mechanism to regulate the release and activation of individual members of the Rho family during cell stimulation.
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PMID:Guanine nucleotide exchange regulates membrane translocation of Rac/Rho GTP-binding proteins. 798 40

Treatment of the Rho-ADP-ribosylating C3-like transferase from Clostridium limosum by ultraviolet irradiation in the presence of [carbonyl-14C]NAD incorporated 1 mol of label/mol of exoenzyme. Concomitantly, the transferase and NAD glycohydrolase activity was impaired. A peptide containing the radiolabel was obtained by proteolysis with either staphylococcal protease V8 or trypsin. Their amino acid sequences were Ala/Asp-Gly-Tyr-Ile-Glu-Pro-Ile-Ser-Thr-Phe-Lys-Gly-Gln-Leu-X-Val-Leu-Le u-Pro- Arg and Gly-Gln-Leu-X-Val-Leu-Leu-Pro-Arg, respectively. These sequences correspond with regions Ala-160 through Arg-179 and Gly-171 through Arg-179, respectively, of the very similar Clostridium botulinum C3 transferase, with X being Glu in the unlabeled enzyme. This identifies the glutamic acid residue that corresponds to Glu-174 of C. botulinum C3 transferase as part of the NAD-binding site of the catalytic center of the C. limosum exoenzyme.
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PMID:NAD-binding site of the C3-like ADP-ribosyltransferase from Clostridium limosum. 822 42

Inappropriate trypsinogen activation is discussed as an early intracellular event in the secretagogue-induced model of acute pancreatitis. However, the mechanisms by which trypsinogen is activated are not well characterized. In the present work, trypsinogen activation was studied in intact acinar cells using bis-(CBZ-arginyl)-Rhodamine 110 [(CBZ-Arg)2-Rho 110] as a cell-permeant substrate for trypsin and also independently via the formation of trypsinogen activation peptide (TAP). Preincubation with 10 nM caerulein increased the Rho 110-substrate cleavage more than threefold. This proteolytic activity was fully sensitive to a benzamidine (BA)-type serine protease inhibitor. The appearance of enzymatic activity was paralleled by the formation of TAP. The lack of effect of the high-molecular soybean trypsin inhibitor indicates an intracellular substrate cleavage. The cathepsin B inhibitor CA-074 prevented neither the caerulein-induced formation of TAP nor the (CBZ-Arg)2-Rho 110-cleaving activity. BA inhibited the Rho 110-substrate cleavage and significantly reduced the TAP formation. These results show that trypsinogen activation in caerulein-hyperstimulated acinar cells may occur independently of the activity of cathepsin B. On the contrary, the effect of BA suggests the role of a serine protease in trypsinogen activation.
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PMID:Trypsinogen activation in rat pancreatic acinar cells hyperstimulated by caerulein. 954 Aug 55

Rho-associated kinase (Rho-kinase), the putative target of the small GTP-binding protein Rho, phosphorylated neurofilament protein (NF-L) in vitro with approximately 1 mole phosphate per mole NF-L. Phosphorylated NF-L no longer formed the 10 nm filaments, and NF-L filaments were phosphorylated with a result of nearly complete disassembly. NF-L phosphorylated by Rho-kinase was digested with trypsin, and digested fragments were assigned by MALDI/TOF. Unique phosphorylation sites were found at Ser-26 and Ser-57 in the head domain of NF-L. These results indicate that domain- and site-specific phosphorylation by Rho-kinase may regulate the assembly-disassembly of NF-L filaments.
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PMID:Domain- and site-specific phosphorylation of bovine NF-L by Rho-associated kinase. 957 Nov 64

In a cell-free system from neutrophil cytosol GTP(&ggr ;)S can induce an increase in the number of free filament barbed ends and massive actin polymerisation and cross-linking. GTP(&ggr ;)S stimulation was susceptible to an excess of GDP, but not Bordetella pertussis toxin and could not be mimicked by aluminium fluoride, myristoylated GTPgammaS.Gialpha2 or Gbeta1gamma2 subunits of trimeric G proteins. In contrast, RhoGDI and Clostridium difficile toxin B (inactivating Rho family proteins) completely abrogated the effect of GTPgammaS. When recombinant, constitutively activated and GTPgammaS-loaded Rac1, RhoA, or Cdc42 proteins alone or in combination were probed at concentrations >100 times the endogenous, however, they were ineffective. Purified Cdc42/Rac-interactive binding (CRIB) domain of WASP or C3 transferase did not prevent actin polymerisation by GTPgammaS. The action of GTPgammaS was blocked by mM [Mg2+], unless a heat- and trypsin-sensitive component present in neutrophil plasma membrane was added. Liberation of barbed ends seems therefore to be mediated by a toxin B-sensitive cytosolic Rho-family protein, requiring a membrane-associated guanine nucleotide exchange factor (GEF) for its activation by GTPgammaS under physiologic conditions. The inefficiency of various protein kinase and phosphatase inhibitors (staurosporine, genistein, wortmannin, okadaic acid and vanadate) and removal of ATP by apyrase, suggests that phosphate transfer reactions are not required for the downstream propagation of the GTPgammaS signal. Moreover, exogenously added phosphoinositides failed to induce actin polymerisation and a PtdIns(4,5)P2-binding peptide did not interfere with the response to GTPgammaS. The speed and simplicity of the presented assay applicable to protein purification techniques will facilitate the further elucidation of the molecular partners involved in actin polymerisation.
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PMID:GTPgammaS-induced actin polymerisation in vitro: ATP- and phosphoinositide-independent signalling via Rho-family proteins and a plasma membrane-associated guanine nucleotide exchange factor. 958 May 66

Purified membrane fractions have been widely used for the study of the factors regulating the functions of Rho small GTP-binding proteins. Using brush border membranes from the rat kidney as a model, we observed that in vitro incubation of these membranes resulted in time- and temperature-dependent proteolytic degradation of Cdc42 and RhoA. Treatment of kidney brush border membranes with various nucleotides showed that GDP and GTP weakly protected Cdc42 but not RhoA and that their nonhydrolyzable counterparts, guanosine 5'-O-[beta-thio] diphosphate (GDP beta S) and guanosine 5'-O-[gamma-thio]triphosphate (GTP gamma S), were highly efficient in protecting both proteins from endogenous proteolytic activity whereas ADP and ATP were without effect. GTP gamma S also protected Cdc42 and RhoA from proteolytic degradation in crude cell membranes from several rat tissues including intestine, kidney, liver, and testis. In addition, Cdc42 and RhoA associated with brush border membranes were largely resistant to increased proteolytic degradation induced by membrane treatment with the denaturing reagent urea as well as to added trypsin when incubated in the presence of GTP gamma S. In brush border membranes, the resistance to endo- and exo-genous proteolytic activity conferred by GTP gamma S was usually lower for RhoA than for Cdc42. GTP gamma S also protected recombinant Cdc42 and RhoA from the action of proteases associated with brush border membranes. The only protease inhibitor protecting Cdc42 but not RhoA from proteolytic degradation in brush border membranes was the synthetic peptide acetyl-Tyr-Val-Ala-Asp-aldehyde, a selective inhibitor of interleukin-1 beta-converting enzyme. This latter result showed that different proteases cleaved the two Rho proteins. Taken together, these results suggest that the GTP gamma S-bound forms of Cdc42 and RhoA are maintained in a conformation that protects them from proteases found in many cell membranes.
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PMID:Guanine nucleotides protect Rho proteins from endogenous proteolytic degradation in renal membranes. 966 7

Myosin regulatory light chain (RLC) phosphorylation has been implicated in Rho-mediated stress fibre formation. The recent observation that Rho kinase phosphorylates RLC in vitro suggests that serine/threonine kinases other than those in the myosin light chain kinase (MLCK) family have the potential to activate myosin II. In this study we report that gamma-PAK, which is activated by the GTP-binding proteins Cdc42 and Rac, catalyses phosphorylation of intact non-muscle myosin II and isolated recombinant RLC. gamma-PAK phosphorylated endothelial cell myosin II to 0.85 +/- 0.02 mol PO4 per mol RLC. Phosphorylation is Ca2+/calmodulin-independent and the enzyme has a K(m) and Vmax for myosin II regulatory light chain of 12 microM and 180 nmol/min/mg respectively. No myosin II heavy chain phosphorylation was detected. Phosphopeptide maps and phosphoamino acid analysis revealed that gamma-PAK phosphorylates Ser-19 but does not phosphorylate Thr-18. A panel of recombinant RLC mutants was used to confirm that Ser-19 is the only phosphorylation site modified by gamma-PAK. On substitution of both Ser-19 and Thr-18 with Ala or Glu, no phosphorylation of other Ser/Thr residues in the RLC was detected. Similar to MLCK, Arg-16 is required for interaction of gamma-PAK with the substrate, since converting Arg-16 to Ala significantly reduced RLC phosphorylation. Endothelial cell monolayers permeabilized with saponin retract upon exposure to either Cdc42 or trypsin-activated gamma-PAK and ATP. Activation of gamma-PAK is required to initiate Ca2+/calmodulin-independent cell retraction and actin rearrangement. Taken together, these data suggest that myosin II activation by the p21-activated family of kinases may be physiologically important in regulating cytoskeletal organization.
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PMID:Phosphorylation of non-muscle myosin II regulatory light chain by p21-activated kinase (gamma-PAK). 1004 84

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