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 mechanism by which a protein integrates posttranslationally into a membrane can involve the composition of the membrane itself, domains within the inserting polypeptide, and a number of associating proteins. Some integral membrane proteins do not accumulate to normal levels when certain pigments are deficient, and this has been interpreted to mean that such proteins may be rapidly degraded when not in a correct complex. Alternatively, pigments could facilitate the movement of some proteins from an aqueous to a lipid environment. To determine whether chlorophyll is absolutely required for the membrane integration of the light-harvesting chlorophyll-binding protein (LHCP) of chloroplast thylakoid membranes, we have expressed LHCP in Escherichia coli that lacks photosynthetic pigments. LHCP is targeted to the bacterial inner membrane by the addition of a bacterial signal peptide and cannot be extracted from these membranes by NaOH, NaBr, or Na2HCO3 but is extracted by 0.2% Triton X-100. Treatment of isolated right-side-out and inside-out bacterial inner membrane vesicles with trypsin reveals that only the amino terminus of LHCP is exposed on the cytoplasmic face, and the remaining portion of the protein is inaccessible. Treatment of the inside-out vesicles with trypsin followed by alkaline extraction shows that LHCP is intrinsic to the membrane and is not anchored solely by the bacterial signal peptide. Chlorophyll, therefore, is not required for LHCP to integrate into a membrane, but in the absence of these pigments this process is observed to be inefficient.
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PMID:Integration of a chlorophyll-binding protein into Escherichia coli membranes in the absence of chlorophyll. 205 Jun 98

Upon differential centrifugation of guinea pig intestine mucosal cells homogenate, fatty acyl-CoA:NADPH oxidoreductase (long chain alcohol forming) was found to be enriched in the light mitochondrial (L) fraction (sedimenting between 66,000 x g min and 500,000 x g min) which contained mainly mitochondria, lysosomes, and peroxisomes. Peroxisomes (marker enzymes: catalase and dihydroxyacetone phosphate acyltransferase) present in the L fraction were separated from other organelles in a Nycodenz density gradient centrifugation employing a vertical rotor. By comparing the distribution of acyl-CoA reductase with different marker enzymes in the gradient, it was concluded that this reductase is primarily localized in the microperoxisomes (microbodies). The topography of the membrane-bound enzyme in the isolated organelles was studied by checking its lability toward trypsin in the absence and presence of the detergent Triton X-100. The results suggested that acyl-CoA reductase is localized on the outer surface (cytosolic side) of microperoxisomal membrane.
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PMID:Peroxisomal localization of acyl-coenzyme A reductase (long chain alcohol forming) in guinea pig intestine mucosal cells. 206 6

Sphingosine-1-phosphate lyase is responsible for the ultimate step in sphingolipid breakdown, converting phosphorylated long chain bases into ethanolamine phosphate and a fatty aldehyde. Using tritiated dihydrosphingosine-1-phosphate, prepared enzymatically from [4,5-3H]dihydrosphingosylphosphocholine, we have reinvestigated the subcellular distribution of this enzyme in rat liver. Upon cell fractionation by differential centrifugation, the enzyme showed a microsomal distribution. Further separation of the microsomal fraction by sucrose gradient centrifugation confirmed an association with the endoplasmic reticulum. By means of constrained nonlinear regression, no evidence for a significant association with mitochondrial membranes, as reported previously (Stoffel, W., LeKim, D., and Sticht, G. (1969) Hoppe Seyler's Z. Physiol. Chem. 350, 1233-1241), nor with other cell compartments was found. The lyase activity, which appeared to be sensitive to different detergents, but not to Triton X-100, was not latent. It could be solubilized with Triton X-100, but not by high ionic strength, indicating that it is an integral membrane protein whose catalytic site is most probably exposed to the cytosol. Treatment of intact microsomal vesicles with trypsin or thermolysin inactivated the lyase activity, confirming that its catalytic site(s) or other domains essential for activity face the cytosol.
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PMID:Subcellular localization and membrane topology of sphingosine-1-phosphate lyase in rat liver. 206 24

Triton X-114 was used to partially purify broad bean polyphenol oxidase, a thylakoid membrane-bound enzyme, in latent form, free of phenolic compounds and chlorophylls, with a high recovery rate. The activation of the latent enzyme by detergents or trypsin was 10 times higher than that obtained when the enzyme was purified by other methods used in plant biochemistry, such as acetone powders and ammonium sulfate fractionation. The kinetic parameters of the latent and activated enzyme are also given.
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PMID:Partial purification of a thylakoid-bound enzyme using temperature-induced phase partitioning. 210 49

The adherence of Candida albicans was studied in situ by using the perfused mouse liver model. After exhaustive washing, 10(6) C. albicans were infused into mouse livers. At the time of recovery, 62 +/- 5% (mean +/- standard error of the mean) of the infused C. albicans were recovered from the liver and 14 +/- 3% were recovered from the effluent for a total recovery of 76 +/- 4%. This indicates that 86 +/- 3% of the original inoculum was trapped by the liver and that 24 +/- 4% was killed within the liver. Chemical pretreatment of C. albicans with 8 M urea, 12 mM dithiothreitol, 2% beta-mercaptoethanol, 1% sodium dodecyl sulfate, 10% Triton X-100, or 3 M potassium chloride or enzyme pretreatment with alpha-mannosidase, alpha-chymotrypsin, subtilisin, beta-N-acetyl-glucosaminidase, pronase, trypsin, papain, or lipase did not alter adherence of C. albicans to hepatic tissue. By contrast, pepsin pretreatment significantly decreased hepatic trapping. Simultaneous perfusion with either 100 mg of C. albicans glycoprotein per liter or 100 mg of C. albicans mannan per liter also decreased trapping. Furthermore, both substances eluted previously trapped C. albicans from hepatic tissue. Chemical pretreatment with 8 M urea, 12 mM dithiothreitol, or 3 M KCI or enzymatic pretreatment with alpha-mannosidase, subtilisin, alpha-chymotrypsin, or papain increased killing of C. albicans three- to fivefold within hepatic tissue. The data suggest that mannose-containing structures on the surface of C. albicans, for example. mannans or glucomannoproteins, mediate adherence of C. albicans within the liver. Indirectly, chemical and enzymatic pretreatment renders C. albicans more susceptible to hepatic killing.
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PMID:Altered hepatic clearance and killing of Candida albicans in the isolated perfused mouse liver model. 211 71

Aminopeptidase activity was partially characterized from midguts of Anopheles stephensi Liston which had been dissected 30 h after blood feeding. In crude midgut homogenate supernatants the aminopeptidases showed optimum activity at pH 8.0 and preferentially hydrolyzed alanine- and leucine-terminal amino acid substrates. Methionine, proline, lysine, and arginine terminal substrates were hydrolysed, but not glutamic acid. Activity was stimulated by Mg2+, EDTA, and low Ca2+ concentrations, while Mn2+, Tris, 1,10 phenanthroline, and higher Ca2+ concentrations were inhibitory. Supernatants from midguts homogenized in 1% Triton X-100 showed a two-fold increase in activity. Differential centrifugation of midgut homogenates demonstrated 45% of the total activity in a putative microvillar pellet and 32% in a soluble fraction. More than 92% of the total activity was solubilized after homogenization in Triton X-100. Activity in homogenate supernatants was restricted to one major peak (Mr = 552,000) with a higher molecular weight shoulder. Three distinct peaks of aminopeptidase activity were observed following Triton X-100 treatment: a minor high molecular weight peak (Mr = 552,000), and two major peaks at Mr = 123,000 and Mr = 32,000 respectively. The activity of aminopeptidase increased after a blood meal, in parallel to the post-feeding changes in trypsin activity, indicating its important role in secondary digestion of blood meal proteins.
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PMID:Blood digestion in the mosquito, Anopheles stephensi Liston (Diptera: Culicidae): partial characterization and post-feeding activity of midgut aminopeptidases. 213 23

RNA transcripts that encoded the Neurospora crassa plasma membrane H(+)-ATPase (pma+), a polytopic integral membrane protein, and the pma+344, a truncated pma+ with the amino terminal 344 amino acids, were translated in a N. crassa in vitro system. The microsomal membranes integrated products were insensitive to extraction by Na2CO3 (pH 11.5). The velocity sedimentation behavior of the in vitro synthesized pma+ were examined under various conditions. The pma+ migrated on linear sucrose gradients as aggregates which were heterogeneous in size, in the regions of 9-13 S; whereas, these values were reduced when Triton X-100 was presence in the gradients. The formation of these aggregates is interpreted to suggest a mechanism that maintains this polytopic integral membrane protein in a soluble form until it is targeted to the membranes. The sedimentation coefficient of the Triton X-100 solubilized microsomal membranes integrated pma+ corresponded roughly to a monomer of the pma+. Furthermore, a comparison of the trypsin cleavage patterns of the in vitro synthesized pma+ and of the microsomal membranes integrated pma+ suggest that they have different tertiary, or quaternary, structures. The latter did not give the characteristic trypsin cleavage patterns that have been observed for the native pma+ in the presence of its ligands MgATP and vanadate (Addison, R. and Scarborough, G.A. (1982) J. Biol. Chem. 257, 10421-10426). This was interpreted to suggest that the microsomal membranes integrated pma+ cannot interact with its substrate, suggesting that it is catalytically inactive.
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PMID:Studies on the sedimentation behavior of the Neurospora crassa plasma membrane H(+)-ATPase synthesized in vitro and integrated into homologous microsomal membranes. 214 69

Limited proteolysis was used to probe and compare the conformation of the rat lung vasoactive intestinal peptide (VIP) receptor in membrane-bound and detergent-solubilized states. It had been shown previously that the activity of the detergent-solubilized VIP receptor is sensitive to the nature of the detergent used for extraction (Patthi, S., Simerson S. and Velicelebi, G. (1988) J. Biol. Chem., 263, 19363-19369). Receptors that were extracted from the membrane using digitonin retained the ability to bind 125I-VIP, while those solubilized in Triton X-100 displayed little or no detectable activity. In order to correlate the differences observed in the activity of the receptor with its folded state, membrane-bound and detergent-solubilized receptors were covalently labeled with 125I-VIP and subjected to limited proteolysis using trypsin, chymotrypsin or carboxypeptidase Y. Digitonin-solubilized receptors most closely resembled the membrane-bound protein in terms of protease sensitivity and proteolytic cleavage products. By contrast, receptors solubilized in Triton X-100 displayed increased sensitivity to proteases and produced distinctly different proteolytic patterns. Thus, the differences observed in the activities of receptors solubilized in digitonin and those solubilized in Triton X-100 could be correlated with detectable differences in the conformation of the protein in each respective detergent solution. These results suggest that digitonin provides an environment that is more compatible with the native folded state of the receptor, similar to its conformation in the membrane.
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PMID:Limited proteolysis of the vasoactive intestinal peptide receptor: comparison of its folded structure in the membrane-bound and detergent-solubilized states. 215 28

Protein kinase FA (an activating factor of ATP.Mg-dependent protein phosphatase) has been characterized to exist in two forms in the purified brain myelin. One form of kinase FA is spontaneously active and trypsin-labile, whereas the other form of kinase FA is inactive and trypsin-resistant, suggesting a different membrane topography with active FA exposed on the outer face of the myelin membrane and inactive FA buried within the myelin membrane. When myelin was solubilized in 1% Triton X-100, all kinase FA became active and trypsin-labile. Phospholipid reconstitution studies further indicated that when kinase FA was reconstituted in acidic phospholipids, such as phosphatidylinositol and phosphatidylserine, the enzyme activity was inhibited in a dose-dependent manner, suggesting that kinase FA interacts with acidic phospholipids which inhibit its activity. Furthermore, when myelin was incubated with exogenous phospholipase C, the inactive/trypsin-resistant FA could be converted to the active/trypsin-labile FA in a time- and dose-dependent manner. Taken together, it is concluded that membrane phospholipids play an important role in modulating the activity of kinase FA in the brain myelin. It is suggested that phospholipase C may mediate the activation-sequestration of inactive/trypsin-resistant kinase FA in the brain myelin through the phospholipase C-catalyzed degradation of acidic membrane phospholipids. The activation-sequestration of protein kinase FA may represent one mode of control modulating the activity of kinase FA in the central nervous system myelin.
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PMID:On the mechanism of activation of protein kinase FA (an activating factor of ATP.Mg-dependent protein phosphatase) in brain myelin. 216 Feb 45

Several lines of evidence have demonstrated conclusively the presence of cAMP-dependent protein kinase (ecto-RC) activity on the external surface of goat cauda-epididymal intact spermatozoa. The intact-cell ecto-kinase that caused transfer of the terminal phosphate of exogenous ATP to the serine and threonine residues of exogenous histone was specifically activated by cAMP. As well, the ecto-kinase caused phosphorylation of the synthetic peptide Kemptide. The isolated spermatozoa, before or after incubation with reaction mixture for ecto-kinase assays, were approximately 99.5% viable, as shown by the analyses of ethidium bromide fluorescence and the cytosolic marker enzymes lactic dehydrogenase and 3-phosphoglycerate kinase. The ecto-kinase activity was not due to contamination of epididymal plasma and damaged cells or to protein kinase that may have leaked from the cells. There was little uptake of ATP and histone by the cells. The intact-cell kinase activity was strongly (80-90%) inhibited by treatment with membrane nonpenetrating surface probes: p-chloromercuriphenylsulfonic acid (2 microM), diazonium salt of sulfanilic acid (DSS, 0.5 mM), and proteases such as trypsin, chymotrypsin, and pronase (each 125 micrograms/mL). Disruption of sperm plasma membrane by sonication or Triton X-100 (0.2%) caused about a fivefold increase of the intact sperm kinase activity. Highly purified sperm plasma membrane (PM) possessed ecto-kinase activity that was resolved into type I and II kinases by DEAE-cellulose chromatography, the type I isoenzyme being the major (approximately 70%) enzymic species. Treatment of the intact spermatozoa with DSS prior to isolation of PM caused a marked loss of the activities of both the isoenzymes, indicating thereby the "ecto" nature of the PM-bound type I and II kinases. Preparations of vigorously forward-motile spermatozoa with 100% intactness had approximately fourfold higher specific activity of the ecto-kinase than the "composite" cells from which the former cells were isolated. However, the profiles of the type I and II ecto-kinases of the composite, as well as forward-motile spermatozoa, were nearly identical. The data are consistent with the view that ecto-kinases may have role in the regulation of flagellar motility.
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PMID:Type I and II cAMP-dependent ecto-protein kinases in goat epididymal spermatozoa and their enriched activities in forward-motile spermatozoa. 216 Aug 33

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