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)

Specific HKg immunostaining detected with antiserum against the light chain (LC) of HKg was restricted to SRIF neurons of the hypothalamic periventricular area projecting to median eminence (ME). Heavy chain (HC) immunoreactivity related to HKg and/or low molecular weight kininogen (LKg) was found in some other hypothalamic territories. Specific TKg was mainly associated with vasopressin in neurons of suprachiasmatic (SCN), supraoptic (SON) and paraventricular (PVN) nuclei. By direct RIA, hypothalamus was found to contain the highest level of TKg (10ng/mg protein) and after trypsin hydrolysis and HPLC separation of kinins, 10.3 pg BK and 7.3 pg T-kinin/mg protein.
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PMID:Immunolocalization of high molecular weight kininogen (HKg) and T kininogen (TKg) in the rat hypothalamus. 136 1

The peptide pattern obtained after proteolysis of S-1 with trypsin was different in the absence or presence of anions. The affinity of tryptic and undigested S-1 for anions (CN-, SCN- or HCO3-) was different, as reflected by the altered values of Ki or Ka obtained from ATPase activity measurements. Anions CN-, SCN-, HCO3-, or PPi induced dissociation of actomyosin when added to acto-S-1 or acto-heavy-meromyosin. Among nucleoside di- and triphosphates, only triphosphates were effective with regard to the dissociation. The results suggest the existence of a regulatory site of cationic nature on S-1, which might be involved in the dissociation of actin from myosin.
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PMID:Conformational changes of S-1 related to its dissociation from actin. 141 Jul 69

High molecular weight kininogen (HKg) and T kininogen (TKg) were detected and localized by immunocytochemistry in adult rat hypothalamus. In addition, kininogens were measured by their direct radioimmunoassay (RIA) or by indirect estimation of kinins released after trypsin hydrolysis and high pressure liquid chromatography (HPLC) separation of bradykinin (BK) and T kinin. A specific HKg immunoreactivity demonstrated with antibodies directed against the light chain (LC) of HKg was colocated with SRIF in neurons of hypothalamic periventricular area (PVA) projecting to external zone (ZE) of median eminence (ME). Heavy chain (HC) immunoreactivity which could be related to HKg or to low molecular weight kininogen (LKg) was detected in some other systems: i) parvocellular neurons of suprachiasmatic (SCN) and arcuate nuclei containing SRIF, ii) magnocellular neurons (mostly oxytocinergic) of paraventricular (PVN) and supraoptic (SON) nuclei, iii) neurons of dorsomedian and lateral hypothalamic areas. TKg immunostaining was restricted to magnocellular neurons of PVN, SON, accessory nuclei (mostly vasopressinergic) and to parvocellular neurons of SCN (vasopressinergic). TKg projections are directed towards the internal zone (ZI) of ME, but very few immunoreactive terminals are detectable in neurohypophysis. TKg staining parallels with vasopressin during water deprivation, and is undetectable in homozygous Brattleboro rats. In some magnocellular neurons, TKg and HC (related to HKg or LKg) are coexpressed. TKg, was also detected in hypothalamus and cerebellum extracts by direct RIA, and BK and T kinin were identified after trypsin hydrolysis. HKg and LKg can act as precursor of BK which can play a physiological role as releasing factor, neuromodulator--neurotransmitter,--or modulator of local microcirculation in hypothalamus. The three kininogens are also potent thiolprotease inhibitors which could modulate both the maturation processes of peptidic hormones and their inactivation and catabolism.
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PMID:The kallikrein-kinin system in the rat hypothalamus. Immunohistochemical localization of high molecular weight kininogen and T kininogen in different neuronal systems. 191 78

Latent human fibroblast collagenase (HFC) can be activated by a variety of seemingly disparate means. In addition to the well-characterized activation by trypsin and organomercurial compounds, the enzyme can be activated to various extents by surfactants such as sodium dodecyl sulfate, by chaotropic ions such as SCN-, by disulfide compounds such as oxidized glutathione, by sulfhydryl alkylating agents such as N-ethylmaleimide, and by oxidants such as NaOCl. The underlying basis for these activations is the modification, exposure, or proteolytic release of the Cys73 residue from its habitat in the latent enzyme where it is thought to be complexed to the active-site zinc atom. This residue is not accessible for reaction with small molar excesses of dithionitrobenzoate in native, latent HFC. However, on addition of EDTA, this residue becomes fully exposed and is quantitatively labeled. All modes of activation of latent HFC are believed to involve the dissociation of Cys73 from the active-site zinc atom and its replacement by water, with the concomitant exposure of the active site. This is thought to be the primary event that precedes the well-known autolytic cleavages that are observed following the appearance of collagenase activity. The dissociation of Cys73 from the zinc atom in the latent enzyme "switches" the role of the zinc from a noncatalytic to a catalytic one. This "cysteine switch" mechanism of regulation may be applicable to the entire collagenase gene family.
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PMID:Multiple modes of activation of latent human fibroblast collagenase: evidence for the role of a Cys73 active-site zinc complex in latency and a "cysteine switch" mechanism for activation. 215 97

The effect of chaotropic anions was studied on processes that constitute the chloroplast fructose-1,6-bisphosphatase reaction, i.e. enzyme activation and catalysis. The specific activity of chloroplast fructose-1,6-bisphosphatase was enhanced by preincubation with dithiothreitol, fructose 1,6-bisphosphate, Ca2+, and a chaotropic anion. When chaotropes were ranked in the order of increasing concentrations required for maximal activation they followed a lyotropic (Hofmeister) series: SCN- less than Cl3C-COO- less than ClO4- less than I- less than Br- less than Cl- less than SO4(2-). On the contrary, salts inhibited the catalytic step. The stimulation of chloroplast fructose-1,6-bisphosphatase by chaotropic anions arose from a decrease of the activation kinetic constants of both fructose 1,6-bisphosphate and Ca2+; on the other hand, in catalysis neutral salts caused a decrease of kcat because the S0.5 for both fructose 1,6-bisphosphate and Mg2+ remained unaltered. The molecular weight of chloroplast fructose-1,6-bisphosphatase did not change after the activation by incubation with dithiothreitol, fructose 1,6-bisphosphate, Ca2+, and a chaotrope; consequently, the action of these modulators altered the conformation of the enzyme. Modification in the relative position of aromatic residues of chloroplast fructose-1,6-bisphosphatase was detected by UV differential spectroscopy. In addition, the concerted action of modulators made the enzyme more sensitive to (a) trypsin attack and (b) S-carboxymethylation by iodoacetamide. These results provide a new insight on the mechanism of light-mediated regulation of chloroplast fructose-1,6-bisphosphatase; concurrently to the action of a sugar bisphosphate, a bivalent cation, and a reductant, modifications of hydrophobic interactions in the structure of chloroplast fructose-1,6-bisphosphatase play a crucial role in the enhancement of the specific activity.
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PMID:The effect of chaotropic anions on the activation and the activity of spinach chloroplast fructose-1,6-bisphosphatase. 282 81

The fifth component of human complement (C5), under physiological salt conditions, bound firmly to phenyl-Sepharose. This indicated the presence of hydrophobic sites on C5. These sites may play an important role in C5 haemolytic activity since this activity was inhibited by chaotropic ions (Mg2+, SCN-, I-) at relatively low concns (0.6-1 M). Charge shift experiments performed on purified C5 provided further evidence for the presence of hydrophobic sites within C5. Bidirectional charge shifts of C5 mobility were observed with the two detergent systems TX-100 + DOC and TX-100 + CTAB. In order to localize these sites, C5 was subjected to trypsin digestion. Three major fragments were evidenced by two-dimensional electrophoresis (agarose/SDS-PAGE and SDS-PAGE/SDS-PAGE), and were isolated by hydrophobic affinity chromatography. The first fragment, C5FI, was composed probably of a mixture of six alpha chain fragments (alpha 1-alpha 6) linked to the beta chain by disulphide bridges. The second fragment, C5FII, was composed of the beta chain linked to two alpha chain fragments: alpha 2 (Mr = 58 K) and alpha 4 (Mr = 32 K). The third fragment, C5FIII, contained two covalently linked chains (beta chain and alpha 4). The rank order for mol. wt, agarose gel electrophoretic mobility and hydrophobicity was respectively: C5 greater than or equal to C5FI greater than C5FII greater than C5FIII; C5 less than or equal to C5FI less than or equal to C5FII much less than C5FIII; and C5FII greater than or equal to C5 greater than C5FI much greater than C5FIII. From the relative hydrophobicity, the hydrophobic sites of C5 can be localized to the alpha 2 fragment (Mr = 58 K) since C5FIII lacked the alpha 2 fragment and was not hydrophobic. Cleavage and the liberation of the N-terminal part of C5 induced an increase in hydrophobicity of the remaining part of C5 (C5b and C5FII), suggesting a possible role of the hydrophobic sites in association of C5b with membranes.
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PMID:Localization of a hydrophobic domain in human C5. 339 60

Streptococcus mutans GS5 was grown in synthetic medium containing radioactive thymidine to monitor deoxyribonucleic acid release. At neutral pH, cell lysis of hen egg-white lysozyme- or lysozyme-protease-treated cells was dependent upon the nature and concentration of the additive inorganic anions, HCO-3, SCN-, Cl- or F-. At acidic pH, NaHCO3, but not NaSCN, NaCl or NaF, was effective in promoting cell lysis which was due not only to the change in pH but also to the new HCO-3 anion concentration at the new pH. In both pH 4 and 5.2 reaction mixtures, the lysozyme and trypsin acted synergistically with NaHCO3 and the amount of lysis produced was markedly greater than in reaction mixtures containing lysozyme and bicarbonate but no protease. At apparent sub-lytic concentrations of NaHCO3, lysis was achieved by adding an appropriate concentration of one of NaSCN, NaCl or NaF to the lysozyme-protease-damaged cells. Thiocyanate proved to be most effective among the anions requiring lower concentrations to elicit lysis compared to chloride or fluoride for a fixed sub-lytic concentration of bicarbonate. As the NaHCO3 concentration increased, the lysis in the presence of these other anions increased until maximum levels of released deoxyribonucleic acid (DNA) were attained. In addition, the higher the NaHCO3 concentration, the more marked was the change in the degree of cell lysis. At a selected concentration at which NaHCO3 was not effective with any one salt, lysis could be achieved by combining all four inorganic anions at this concentration. The results suggest that the various anions present in oral fluids may together be sufficient to trigger lysis of oral microorganisms.
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PMID:Synergism of lysozyme, proteases and inorganic monovalent anions in the bacteriolysis of oral Streptococcus mutans GS5. 631 51

The Ca(2+)-ATPase activity of the trypsin-activated CF1 presented a monophasic pattern, indicating that the active centres of the enzyme were acting with the same kinetic properties. The study of the effect of the anions cianate (OCN-) and thiocyanate (SCN-) on the ATPase activity showed the existence of cationic regulatory sites, capable of binding these modulators in a competitive way, resulting in the inhibition of the ATPase activity. Nucleotides ADP and ATP, at high concentrations, were competitive inhibitors for the substrate Ca(2+)-ATP. ATP, at low concentrations, presented an activating effect. The study of the combined effects of ATP (at low concentrations) and SCN- on ATPase activity revealed the existence of a non-competitive relationship between anions and nucleotides. The modification of CF1 with fluorescein isothiocyanate, a specific reagent that binds to amino groups of nucleotide binding centres, yielded a molar relationship FITC/CF1 = 4, both with the trypsin-treated and non treated enzyme. This specific incorporation took place on the alpha and, beta subunits of CF1, and resulted in a decrease of about 30% of the ATPase activity. These results are consistent with the existence of either three catalytic and three regulatory sites or four catalytic and two regulatory sites on CF1.
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PMID:Catalytic and regulatory sites in CF1. 799 41

SCN- binds to the charged amino group of lysines, inducing local changes in the electrostatic free energy of histones. We exploited this property to selectively perturb the histone-DNA interactions involved in the stabilization of eu and heterochromatin. Differential scanning calorimetry (DSC) was used as leading technique in combination with trypsin digestion that selectively cleaves the histone end domains. Euchromatin undergoes progressive destabilization with increasing KSCN concentration from 0 to 0.3 M. Trypsin digestion in the presence of 0.2 M KSCN show that the stability of the linker decreases as a consequence of the competitive binding of SCN- to the amino groups located in the C and N-terminal domain of H1 and H3, respectively; likewise, the release of the N-terminal domain of H4 induces an appreciable depression in both the temperature and enthalpy of melting of core particle DNA. Unfolding of heterochromatin requires, in addition to further cleavage of H4, extensive digestion of H2A and H2B, strongly suggesting that these histones stabilize the higher order structure by forming a protein network which extends throughout the heterochromatin domain.
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PMID:SCN- binding to the charged lysines of histones end domains mimics acetylation and shows the major histone-DNA interactions involved in eu and heterochromatin stabilization. 1625

The extracellular domain of the epithelial sodium channel ENaC is exposed to a wide range of Cl(-) concentrations in the kidney and in other epithelia. We tested whether Cl(-) alters ENaC activity. In Xenopus oocytes expressing human ENaC, replacement of Cl(-) with SO4(2-), H2PO4(-), or SCN(-) produced a large increase in ENaC current, indicating that extracellular Cl(-) inhibits ENaC. Extracellular Cl(-) also inhibited ENaC in Na+-transporting epithelia. The anion selectivity sequence was SCN(-) < SO4(2-) < H2PO4(-) < F(-) < I(-) < Cl(-) < Br(-). Crystallization of ASIC1a revealed a Cl(-) binding site in the extracellular domain. We found that mutation of corresponding residues in ENaC (alpha(H418A) and beta(R388A)) disrupted the response to Cl(-), suggesting that Cl(-) might regulate ENaC through an analogous binding site. Maneuvers that lock ENaC in an open state (a DEG mutation and trypsin) abolished ENaC regulation by Cl(-). The response to Cl(-) was also modulated by changes in extracellular pH; acidic pH increased and alkaline pH reduced ENaC inhibition by Cl(-). Cl(-) regulated ENaC activity in part through enhanced Na+ self-inhibition, a process by which extracellular Na+ inhibits ENaC. Together, the data indicate that extracellular Cl(-) regulates ENaC activity, providing a potential mechanism by which changes in extracellular Cl(-) might modulate epithelial Na+ absorption.
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PMID:Extracellular chloride regulates the epithelial sodium channel. 1971 12

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