Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:Q07644 (polypeptide)
72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects on virus infectivity, haemagglutinating (HA) activity and polypeptide composition of bluetongue virus type 20 (BTV 20) were determined after digestion with the proteolytic enzymes, chymotrypsin, thermolysin and trypsin. Virus infectivity increased eight to 50-fold after exposure periods which reflected the activity of the proteases. Identical maximum increases in HA activity (i.e. 4096, 1024 and 128 HAU per 0.05 ml with sheep, bovine and human erythrocytes, respectively) occurred with each of the three proteases. Peak increases in virus infectivities and HA activities occurred after similar exposure periods. Outer capsid protein VP2 was the most sensitive virus protein to proteolytic digestion, being cleaved into a number of smaller polypeptides that remained attached to the virus particle. Digestion with chymotrypsin and thermolysin yielded four common cleavage products, designated P93, P76, P54 and P25 according to their estimated molecular weight, which suggested that they shared at least three cleavage sites. VP2 cleavage products resulting from digestion with trypsin differed somewhat from those of chymotrypsin and thermolysin, although the generation of polypeptides P93, P54 and P25.5 suggested the existence of common cleavage sites for the three proteases. Possible mechanisms whereby proteolytic cleavage of VP2 may enhance the infectivity and HA activity of BTV 20 are discussed.
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PMID:Effects of proteolytic enzymes on the infectivity, haemagglutinating activity and protein composition of bluetongue virus type 20. 216 95

Using fluorescence spectroscopy, we have demonstrated that isolated envelope membranes from mature spinach chloroplasts catalyze the phototransformation of endogenous protochlorophyllide into chlorophyllide in presence of NADPH, but not in presence of NADH. Protochlorophyllide reductase was characterized further using monospecific antibodies (anti-protochlorophyllide reductase) raised against the purified enzyme from oat. In mature spinach chloroplasts, protochlorophyllide reductase is present only in envelope membranes. We have demonstrated that the envelope protochlorophyllide reductase, a 37,000-dalton polypeptide, is only a minor envelope component and is present on the outer surface of the outer envelope membrane. This conclusion is supported by several lines of evidence: (a) the envelope polypeptide that was immunodecorated with anti-protochlorophyllide reductase can be distinguished from the major 37,000-dalton envelope polypeptide E37 (which was identified by monospecific antibodies) only after two-dimensional polyacrylamide gel electrophoresis; (b) the envelope protochlorophyllide reductase was hydrolyzed when isolated intact chloroplasts were incubated in presence of thermolysin; and (c) isolated intact chloroplasts strongly agglutinate when incubated in presence of antibodies raised against protochlorophyllide reductase. These results demonstrate that major differences exist between chloroplasts and etioplasts with respect to protochlorophyllide reductase levels and localization. The presence on the chloroplast envelope membrane of both the substrate (protochlorophyllide) and the enzyme (protochlorophyllide reductase) necessary for chlorophyllide synthesis could have major implications for the understanding of chlorophyll biosynthesis in mature chloroplasts.
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PMID:Envelope membranes from mature spinach chloroplasts contain a NADPH:protochlorophyllide reductase on the cytosolic side of the outer membrane. 225 34

Echinonectin (EN) is a 230-kDa extracellular matrix glycoprotein found in the hyaline layer of sea urchin embryos. Dissociated embryonic cells attached strongly to EN-coated microtiter wells in a centrifugal-based in vitro adhesion assay, suggesting that EN is one of the hyaline layer proteins to which cells adhere in vivo (Alliegro et al., 1988). The present study examines the molecular properties of that adhesion using monoclonal antibodies as probes to block cell attachment, and also demonstrates that EN possesses lectin activity. EN binds tenaciously to agarose-based chromatography resins, such as Sepharose. The sugar-binding activity is associated with the polypeptide component of EN, and not with the carbohydrate moiety. Binding is inhibited with galactose and fucoidan, but not with glucose or locust bean gum. Although functional sites both for polysaccharide binding and for cell attachment are present on each subunit of the EN molecule, the sites appear to be functionally distinct because galactose and fucoidan are completely without effect on cell attachment in vitro. Proteolytic digestion of EN yields a highly limited set of immunoreactive peptides. Digestion with trypsin yields a 20-kDa fragment, chymotrypsin, a doublet at 20 kDa, and 20- and 23-kDa fragments with thermolysin. McAb's directed against these peptides block cell adhesion in vitro, suggesting that they possess the cell attachment domain of EN. This is supported by the observations that trypsin-digested EN is an effective substrate in adhesion assays and that adhesion to the tryptic fragments is also blocked by McAb's to the 20-kDa domain.
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PMID:In vitro biological activities of echinonectin. 232 45

Type V collagen was prepared from human amnionic/chorionic membranes and separated into alpha 1(V) and alpha 2(V) polypeptide chains. The alpha 1(V) chain was digested with cyanogen bromide and nine peptides were obtained and purified. Three of the peptides, alpha 1(V)CB1, CB4, and CB7 having molecular weights of 5000, 8000, and 6000, respectively, were further analyzed by amino acid sequence analysis and thermolytic or tryptic digestions. CB1 contained 54 amino acids and identification of its complete sequence was aided by thermolysin digestion and isolation of two peptides, Th1 and Th2. CB4 contained 81 amino acids and sequence analysis of intact CB4 and five tryptic peptides provided us with its complete amino acid sequence. The peptide CB7 contained 67 amino acids and was cleaved into four tryptic peptides that were used for complete sequence analysis. The above results represent the first available covalent structure information on the alpha 1(V) collagen chain. These data enabled us to establish the location of these peptides within the helical structure of other collagen chains. CB4 was homologous to residues 66-145 in the collagen chain while CB1 represented residues 146-200 and CB7 was homologous with residues 201-269. This alignment was facilitated by identification of a helical collagen crossing site consisting of Hyl-Gly-His-Arg located at positions 87-90 in all collagen chains of this size thus far identified. Seventy-one percent homology (excluding Gly residues) was found between amino acids in this region of the alpha 1(XI) and of alpha 1(V) collagen chains while only 21 and 19% identity was calculated for the same region of alpha 2(V) and alpha 1(I) collagen chains, respectively.
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PMID:Covalent structure of collagen: amino acid sequence of three cyanogen bromide-derived peptides from human alpha 1(V) collagen chain. 249 61

A peptidyl dipeptidase-4 (bacterial PDP-4) was purified to near homogeneity from a supernatant of Pseudomonas maltophilia extracellular medium. Bacterial PDP-4 is a single-polypeptide-chain enzyme, 82 kDa, with an alkaline isoelectric point. Peptides susceptible to hydrolysis by bacterial PDP-4 include angiotensin 1, bradykinin, enkephalins, atriopeptin 2, and smaller synthetic peptides. N-acylated tripeptides are hydrolyzed, but free tripeptides are not. A free carboxy terminus is required for hydrolysis. Peptides with ultimate and penultimate Pro residues are not hydrolyzed. The enzyme does not require an anion for activity. Bacterial PDP-4 was inhibited by EDTA and the dipeptide Phe-Arg. Thiorphan was an inhibitor only at levels well above those required for inhibition of neutral metalloendopeptidase (NEP), an enzyme for which thiorphan is specific. A second NEP and thermolysin inhibitor, phosphoramidon, did not inhibit bacterial PDP-4. The potent angiotensin-converting enzyme inhibitor lisinopril was not inhibitory. Bacterial PDP-4 is distinguished from a similar enzyme from Escherichia coli, which is not susceptible to EDTA inhibition, and one from Corynebacterium equi, which hydrolyzes free tripeptides. These data indicate that the bacterial PDP-4 catalytic site is unlike those of other enzymes that function either wholly or in part as peptidyl dipeptidases.
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PMID:A peptidyl dipeptidase-4 from Pseudomonas maltophilia: purification and properties. 253 48

Structure-function relations of the colicin E1 ion channel were studied through the effects of mutations in the 35-residue hydrophobic region of the channel polypeptide and neighboring residues in the channel domain. Mutation of neutral residues threonine 501 and glycine 502 to a more polar or charged glutamic acid generated a protein whose channel conductance properties in each case had a decreased selectivity for anions. There was no significant effect on ion selectivity caused by mutations that changed residue charge outside the hydrophobic domain at the neighboring aspartic acid 509 or at glycine 439. The Thr501----Glu and Gly502----Glu mutants possessed lower cytotoxic and in vitro activity. An altered thermolysin cleavage pattern and a greater binding to membrane vesicles at pH greater than 4.5 of the Gly502----Glu mutant indicated greater exposure of its COOH-terminal hydrophobic domain in solution. It is concluded that the hydrophobic nature of threonine 501 and glycine 502 is important in the structure of the channel lumen and the soluble colicin. Altering proline 462, a residue conserved in five sequenced channel-forming colicins, had no significant effect on channel properties. These conclusions are discussed in the context of sequence-structure-function concepts for channel proteins.
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PMID:Decrease of anion selectivity caused by mutation of Thr501 and Gly502 to Glu in the hydrophobic domain of the colicin E1 channel. 256 69

Two glycoproteins having trypsin-protein esterase activity were purified to apparent homogeneity from murine plasma. One was alpha-macroglobulin, a homologue of human alpha-2-macroglobulin, while the other, tentatively named murinoglobulin, did not correspond to any of the known plasma protease inhibitors that have been well characterized in men or other mammals. Murinoglobulin contained about 7.6% carbohydrate and was composed of a single-polypeptide chain of Mr = 180,000 as judged by the equilibrium sedimentation analysis and sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions. Murinoglobulin did not cross-react immunologically with mouse alpha-macroglobulin nor with human alpha-2-macroglobulin. Protease-inhibiting properties of murinoglobulin were compared with those of mouse alpha-macroglobulin and human alpha-2-macroglobulin. All the three proteins inhibited trypsin, papain, and thermolysin, although they differed considerably in both the degree of inhibition and the binding stoichiometry of protease-inhibitor complexes. The two macroglobulins inhibited pepsin at pH 5.5, whereas murinoglobulin was inactivated at this pH. Murinoglobulin was more sensitive to methylamine than the two macroglobulins. No protein corresponding to murinoglobulin was detected in human plasma.
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PMID:Murinoglobulin, a novel protease inhibitor from murine plasma. Isolation, characterization, and comparison with murine alpha-macroglobulin and human alpha-2-macroglobulin. 257 55

The antigenic regions of the type II regulatory subunit of cAMP-dependent kinase from bovine heart have been correlated with the previously established domain structure of the molecule. Immunoblotting with both serum and monoclonal antibodies of fragments generated by limited proteolysis or chemical cleavage of the R-subunit established that the major antigenic sites were confined to the amino-terminal portion of the polypeptide chain (residues 1-145). Radioimmunoassays using two different antisera suggested that one or more of the high affinity serum antibody recognition sites were further restricted to residues 91-145. This amino-terminal portion of the R-subunit includes the hinge region which is particularly sensitive to proteolysis, allowing the R-subunit to be cleaved readily into a COOH-terminal domain which retains the cAMP-binding sites and an NH2-terminal fragment which appears to be the major site for interaction of the R-subunits in the native dimer. Monoclonal antibodies that recognized determinants on both sides of this hinge region were characterized and their specific recognition sites localized. Accessibility of antigenic sites in the holoenzyme in contrast to free R2 was compared. Although cAMP did tend to slightly increase the affinity of the holoenzyme for one of the monoclonal antibodies, all of the antigenic sites clearly were exposed and accessible in the holoenzyme. Furthermore, despite the presumed close proximity of antigenic sites to interaction sites between the R- and C-subunits, in no case did binding of antibody to the holoenzyme promote dissociation of the complex. The fact that the monoclonal antibodies would precipitate holoenzyme as well as free R2 was used to ascertain the importance of specific amino acid residues in the interaction of the R- and C-subunits. cAMP-binding domains were isolated following limited proteolysis with chymotrypsin and thermolysin. These fragments differed by only three amino acid residues at the NH2-terminal end. U of these fragments in conjunction with immunoadsorption established that the chymotryptic fragment, which contained the Asp-Arg-Arg preceding the site of autophosphorylation, was capable of forming a stable complex with the C-subunit. In contrast, the thermolytic fragment which differed by only those three residues no longer complexed with the C-subunit, indicating that the arginine residues not only contribute to the specificity of the phosphorylation site but also are an essential component for energetically stabilizing the holoenzyme complex.
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PMID:Monoclonal antibodies as probes for functional domains in cAMP-dependent protein kinase II. 257 46

The number of free cysteines in each polypeptide of acetylcholine receptor from the electric organ of Torpedo californica has been assessed by alkylating the native protein with N-ethylmaleimide and iodoacetamide during homogenization of the tissue and alkylating the polypeptides with N-ethylmaleimide as they were unfolded in solutions of dodecyl sulfate. The cysteines unavailable for alkylation could be accounted for as specific cystines, connecting positions in the amino acid sequences of the individual polypeptides. Unreduced, alkylated polypeptides of acetylcholine receptor were digested with thermolysin or trypsin. Cystine-containing peptides in the chromatograms of the digests were identified electrochemically by the use of a dual gold/mercury electrode. Three thermolytic peptides and three tryptic peptides have been isolated from these digests and shown to contain intact cystines that were originally present in the native protein. The majority of these peptides contained an intact, intramolecular cystine connecting two cysteines in locations homologous to cysteines 128 and 142 from the alpha polypeptide. Each of these cystines from each of the polypeptides of acetylcholine receptor was isolated in at least one peptide, respectively. Each of these cystine-containing peptides also contained glucosamine. It can be concluded that each asparagine in the sequence Asn-Cys-Thr/Ser, which occurs in the respective, homologous location in every polypeptide, is glycosylated even though a cystine sits between the asparagine and the threonine or serine. In addition, the existence of the cystine connecting the adjacent cysteines, alpha 192 and alpha 193, in the alpha subunit of acetylcholine receptor [Kao, P. N., & Karlin, A. (1986) J. Biol. Chem. 261, 8085-8088] has been confirmed.
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PMID:Assessment of the number of free cysteines and isolation and identification of cystine-containing peptides from acetylcholine receptor. 274 50

The complete amino acid sequence of and the locations of disulfide bridges in H2-proteinase, a major non-hemorrhagic proteinase isolated from the venom of the habu Trimeresurus flavoviridis, have been determined and compared with those of HR2a, one of the hemorrhagic metalloproteinases in this venom. The strategy involved consisted of structural analysis of peptides in digests with cyanogen bromide, lysyl endopeptidase, trypsin, Staphylococcus aureus V8 protease and thermolysin. Peptides were purified by gel filtration followed by reversed-phase HPLC. H2-proteinase is a non-glycosylated single chain polypeptide consisting of 201 amino acids with an amino-terminal pyroglutamic acid, a calculated molecular weight of 22,991 and a net charge of +14 at neutral pH. There was no evidence of heterogeneity of the sequence. H2-proteinase has a typical zinc-chelating sequence and its overall sequence identity with HR2a is 73.6%. The 3 disulfide bridges in H2-proteinase link Cys-117 to Cys-196, Cys-158 to Cys-180, and Cys-160 to Cys-163, in the same manner as in the case of HR2a. In striking contrast to HR2a, it contains en extra free cysteine residue at position 94 which becomes reactive to a sulfhydryl reagent in the presence of a denaturant.
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PMID:Primary structure of H2-proteinase, a non-hemorrhagic metalloproteinase, isolated from the venom of the habu snake, Trimeresurus flavoviridis. 277 46


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