UNIPROT:Q9UMR3 - FACTA Search

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Query: UNIPROT:Q9UMR3 (NMR)
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At pH 5.5, sodium trifluoroacetate is a potent competitive inhibitor of porcine elastase (Ki = 2.6 mM) and human leukocyte elastase (Ki = 9.3 mM). For both enzymes the Ki increases strongly with pH. Sodium fluoride is inactive on pancreatic elastase and sodium acetate is a weak inhibitor of this enzyme. Trifluoroethanol inhibits both enzymes but is less active than trifluoroacetate in acidic pH conditions. Bovine trypsin and alpha-chymotrypsin are resistant to the action of sodium trifluoroacetate and trifluoroethanol. The interaction between sodium trifluoroacetate and pancreatic elastase is also demonstrated by 19F NMR spectroscopy. Trifluoroacetyltrialanine is able to displace trifluoroacetate from its complex with pancreatic elastase. In addition, a method using turkey ovomucoid for the active site titration of leukocyte and pancreatic elastase is described.
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PMID:NMR and enzymatic investigation of the interaction between elastase and sodium trifluoroacetate. 2 76

Reversible unfolding of bovine chymotrypsinogen A in 2H2O either by heating at low pH or by exposure to 6 M guanidinium chloride results in the exchange of virtually all the nitrogen-bound hydrogens that give rise to low-field 1H NMR peaks, without significant exchange of the histidyl ring Cepsilon1 hydrogens. These preexchange procedures have enabled the resolution of two peaks, using 250-MHz correlation 1H NMR spectroscopy, that are attributed to the two histidyl residues of chymotrypsinogen A. Assignments of the Cepsilon1 hydrogen peaks to histidine-40 and -57 were based on comparison of the NMR titration curves of the native zymogen with those of the diisopropylphosphoryl derivative. Two histidyl Cepsilon1 H peaks were also resolved with solutions of preexchanged chymotrypsin Aalpha. The histidyl peaks of chymotrypsin Aalpha were assigned by comparison of NMR titration curves of the free enzyme with those of its complex with bovine pancreatic trypsin inhibitor (Kunitz). The NMR titration curves of histidine-57 in the zymogen and enzyme and histidine-40 in the zymogen exhibit two inflections; the additional inflections were assigned to interactions with neighboring carboxyl groups: aspartate-102 in the case of histidine-57 and aspartate-194 in the case of histidine-40 of the zymogen. In bovine chymotrypsinogen A in 2H2O at 31 degrees C, histidine-57 has a pK' of 7.3 and aspartate-102 a pK' of 1.4, and the histidine-40-aspartate-194 system exhibits inflections at pH 4.6 and 2.3. In bovine chymotrypsin Aalpha under the same conditions, the histidine-57-aspartate-102 system has pK' values of 6.1 and 2.8, and histidine-40 has a pK' of 7.2. The results suggest that the pK' of histidine-57 is higher than the pK' of aspartate-102 in both zymogen and enzyme. A significant difference exists in the structure and properties of the catalytic center between the zymogen and activated enzyme. In addition to the difference in pK' values, the chemical shift of histidine-57, which is highly abnormal in the zymogen (deshielded by 0.6 ppm), becomes normalized upon activation. These changes may explain part of the increase in the catalytic activity upon activation. The 1H NMR chemical shift of the Cepsilon1 H of histidine-57 in the chymotrypsin Aalpha-pancreatic trypsin inhibitor (Kunitz) complex is constant between pH 3 and 9 at a value similar to that of histidine-57 in the porcine trypsin-pancreatic trypsin inhibitor complex [Markley, J.L., and Porubcan, M. A. (1976), J. Mol. Biol. 102, 487--509], suggesting that the mechanisms of interaction are similar in the two complexes.
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PMID:Zymogen activation in serine proteinases. Proton magnetic resonance pH titration studies of the two histidines of bovine chymotrypsinogen A and chymotrypsin Aalpha. 3 98

A series of fluorinated alpha-keto acid derivatives [PhCHFCOCO2R,PhCH2CHFCOCO2R,PhCF2-COCO2R, and PhCH2CF2COCO2R (R = H, Me, and Et)] was synthesized. They were inhibitors of chymotrypsin, with Ki values ranging from 4700 to 15 microM. Benzylpyruvic derivatives were generally more potent than the corresponding phenylpyruvic analogs. Esters of the first series were also more potent than their corresponding acids, and potency increased with the number of fluorine atoms. By replacing the ethoxy group of PhCH2CF2COCO2Et (15b) with an amino acid chain (i.e., alanyl-leucyl-arginine methyl ester hydrochloride and alanyl-leucyl-valine ethyl ester), the resultant peptides PhCH2CF2COCO-Ala-Leu-Arg-OMe.HCl.H2O (20) and PhCH2CF2COCO-Ala-Leu-Val-OEt.H2O (23) were found to be slow-binding inhibitors of chymotrypsin with considerably lower Ki values (0.19 and 3.6 microM, respectively). 19F NMR studies indicate, in the case of 20, the presence of an enzyme-inhibitor complex with a hemiketal structure similar to those observed between trifluoromethyl ketones and chymotrypsin. The results illustrate that effective protease inhibitors can be designed by enhancing the electrophilic character of the reactive carbonyl group (with an electron-withdrawing group placed on each side of the carbonyl group). Their potency and/or selectivity can also be improved by taking advantage of binding interactions at S' subsites of the protease.
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PMID:Inhibition of chymotrypsin by fluorinated alpha-keto acid derivatives. 132 15

By using solid-state NMR spectroscopy, the integrity of the active center of alpha-chymotrypsin was investigated under a variety of nonaqueous conditions. Specifically, 13C cross-polarization/magic angle spinning NMR was used to analyze the ability of alpha-chymotrypsin to stabilize a transition state intermediate analog after freezing, drying, and addition of organic solvents (both anhydrous and hydrated) to the resultant powder. Lyophilization disrupted 42 +/- 5% of the active centers; it was determined that this occurred during drying, as opposed to freezing. Seven anhydrous solvents caused 0-50% additional disruption, which occurred immediately on addition of the solvent to the enzyme powder. The extent of structural integrity loss correlated with the solvent hydrophobicity, indicating that further dehydration, i.e. stripping of water retained by the enzyme during lyophilization, was the cause. Enzyme samples prepared with lyoprotecting additives, sucrose and ammonium sulfate, exhibited varying degrees of stabilization against the drying step of lyophilization. Moreover, when hydrophilic anhydrous solvents, which had the highest propensity to strip bound water, were added to the resultant enzyme powders, no additional damage occurred.
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PMID:Solid-state NMR assessment of enzyme active center structure under nonaqueous conditions. 140 Mar 23

This report describes the N-glycosylation site mapping of human serotransferrin (h-STF). Reduced and S-carboxymethylated h-STF was digested with trypsin or chymotrypsin. Glycopeptides in the proteolytic digests were isolated by serial concanavalin A (Con A), Sambucus nigra agglutinin (SNA), and Phaseolus vulgaris leukoagglutinin (LPHA) affinity chromatography and subjected to preliminary analysis by 1H NMR spectroscopy. The glycopeptide fractions were then individually digested with N-glycanase. One part of the digest of each fraction was analyzed by fast atom bombardment-mass spectrometry (FAB-MS) to identify the peptide sequences of the glycosylation sites. The other part was used to isolate the oligosaccharide by the corresponding lectin affinity chromatography and to characterize the structures of the isolated oligosaccharides by 1H NMR spectroscopy and FAB-MS. The oligosaccharides in the Con A-bound fraction were shown to have bi-alpha(2-->6)-sialyl, diantennary structures. The SNA-bound fraction was shown to contain trisialyl, triantennary structures. Di- and triantennary oligosaccharides were found to occur on each of the two N-glycosylation sites of h-STF (Asn413 and Asn611) in the ratio of approximately 85:15. The SNA-bound glycopeptides were further fractionated by LPHA affinity chromatography. Two different oligosaccharides were characterized, namely, a trisialyl 2,4-triantennary and a trisialyl 2,6-triantennary glycan. The ratio of 2,4-triantennary vs 2,6-triantennary oligosaccharides attached to glycosylation site Asn413 was found to be approximately 5:1, whereas the two isomeric triantennary oligosaccharides were found to be attached to glycosylation site Asn611 in the ratio approximately 1:1.
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PMID:N-glycosylation site mapping of human serotransferrin by serial lectin affinity chromatography, fast atom bombardment-mass spectrometry, and 1H nuclear magnetic resonance spectroscopy. 145 41

Cleavage of yeast invertase by alpha-chymotrypsin produced a number of small glycopeptides that were highly active as elicitors of ethylene biosynthesis and phenylalanine ammonia-lyase in suspension-cultured tomato cells. Five of these elicitors were purified and their amino acid sequence determined. They all had sequences corresponding to known sequences of yeast invertase, and all contained an asparagine known to carry a N-linked small high mannose glycan. The most active glycopeptide elicitor induced ethylene biosynthesis and phenylalanine ammonia-lyase half-maximally at a concentration of 5-10 nM. Structure-activity relationships of the peptide part were analyzed by further cleavage of a defined glycopeptide elicitor with various proteolytic enzymes. Removal of the C-terminal phenylalanine enhanced the elicitor activity, whereas removal of N-terminal arginine impaired it. A glycopeptide with the peptide part trimmed to the dipeptide arginine-asparagine was still fully active as elicitor. Glycopeptides with identical amino acid sequences were further separated into fractions differing in the oligosaccharide side chain. A given peptide had high elicitor activity when carrying a glycan with 10-12 mannosyl residues (Man10-12GlcNAc2), a 3-fold lower activity when carrying Man9GlcNAc2 and a 100-fold lower activity when carrying Man8GlcNAc2. The oligosaccharides, released by endo-beta-N-acetylglucosaminidase H from the pure glycopeptide elicitors, acted as suppressors of elicitor-induced ethylene biosynthesis and phenylalanine ammonia-lyase activity. A series of such oligosaccharides in the size range of Man8-13GlcNAc was purified. The structure and composition of the purified oligosaccharides corresponded to the known small high mannose glycans of yeast invertase as verified by 1H NMR spectroscopy at 600 MHz. The highest suppressor activities were obtained with the oligosaccharides containing 10-12 mannosyl residues (Man10-12GlcNAc). The oligosaccharide Man8 GlcNAc was ineffective as a suppressor. Thus, the structural requirements for the free oligosaccharides to act as efficient suppressors were the same as for the oligosaccharide side chains of the glycopeptides for high elicitor activity. We propose that the glycan suppressors bind to the same recognition site as the glycopeptide elicitors without inducing a response.
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PMID:Elicitors and suppressors of the defense response in tomato cells. Purification and characterization of glycopeptide elicitors and glycan suppressors generated by enzymatic cleavage of yeast invertase. 158 15

NMR and ESR spectroscopies have been used to examine the plasma protease inhibitor pregnancy zone protein (PZP) and its complex with chymotrypsin. The 1H NMR spectrum of PZP shows relatively few sharp resonances, which, by analogy with human alpha 2-macroglobulin, probably arise from the proteolytically sensitive bait region. Upon reaction with chymotrypsin to form a 1:1 protease.PZP tetramer complex, there is a large increase in the intensity of sharp resonances due to an increase in mobility of these residues. 35Cl NMR has been used to follow binding of zinc and manganese to apo-PZP. Zinc binding causes a linear broadening of the bulk Cl-, consistent with access of Cl- to PZP-bound zinc. Since zinc in the two highest affinity sites in human alpha 2-macroglobulin causes no broadening of Cl-, it is concluded that these zinc sites are absent from PZP. The mobility of chymotrypsin in the PZP.chymotrypsin complex was examined by covalently attaching a nitroxide spin label at the serine residue in the active site of the enzyme and examining the appearance of the ESR spectrum. The chymotrypsin is rigidly held by the PZP to which it is covalently bound. In an analogous experiment performed previously on alpha 2-macroglobulin, chymotrypsin, bound in the presence of methylamine and therefore largely noncovalently bound, was found to be free to rotate inside the cage formed by the protease inhibitor.
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PMID:NMR and ESR studies on human pregnancy zone protein. Comparison with human alpha 2-macroglobulin. 169 19

The novel and efficient expression system described here produces formerly poorly expressed, proteolytically unstable mutants of bovine pancreatic trypsin inhibitor (BPTI). A new, single column method for the cleavage of a recombinant fusion to BPTI and affinity purification of the BPTI moiety by immobilized chymotrypsin is an integral part of the system. Wild-type and mutant BPTI molecules are expressed in Escherichia coli as fusion proteins forming intracellular inclusion bodies. Transcription initiation is under the control of the E. coli trp promoter. The expressed protein is tripartite fusion comprising (i) a portion of the TrpLE leader peptide, (ii) a synthetic IgG binding domain derived from protein A and (iii) the BPTI variant. Solubilization of the inclusion bodies and refolding of the fusion proteins in a thiol-disulfide shuffling system yields correctly folded inhibitor molecules. In the single column purification and cleavage procedure, immobilized chymotrypsin cleaves the refolded fusion protein and releases affinity purified active BPTI mutants with correct N-termini. Mutant BPTI molecules which do not fold into active inhibitors are also stably expressed in inclusion bodies but cannot be purified by this method. Unlike previously described secretion systems for the production of BPTI, expression levels in this system appear to be independent of both the mutation in the BPTI gene and the activity of the expressed protein. Mutants poorly expressed in secretion systems can now be produced in sufficient quantities for protein folding studies and structural analysis using X-ray crystallography and NMR spectroscopy.
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PMID:Intracellular expression of BPTI fusion proteins and single column cleavage/affinity purification by chymotrypsin. 171 67

Glycopeptides representing individual N-glycosylation sites of the heterodimeric glycoprotein hormone human chorionic gonadotrophin (hCG) were obtained from subunits hCG alpha (N-glycosylated at Asn-52 and Asn-78) and hCG beta (N-glycosylated at Asn-13 and Asn-30) by digestion with trypsin and chymotrypsin, respectively. Following purification by reverse-phase HPLC and identification by amino acid sequencing, the glycopeptides were analysed by one- and two-dimensional 1H NMR spectroscopy. The results are summarized as follows: (i) oligosaccharides attached to Asn-52 of hCG alpha comprised monosialylated 'monoantenary' NeuAc alpha 2-3Gal beta 1-4GlcNAc beta 1-2Man alpha 1-3[Man alpha 1-6]Man beta 1-4GlcNAc beta 1-4GlcNAc (N1-4'), disialylated diantennary NeuAc alpha 2-3Gal beta 1-4GlcNAc beta 1-2Man alpha 1-3[NeuAc alpha 2-3-Gal beta 1-4GlcNAc beta 1-2Man alpha 1-6]Man beta 1-4GlcNAc beta 1-4GlcNAc (N2), and the monosialylated hybrid-type structures NeuAc alpha 2-3Gal beta 1-4GlcNAc beta 1-2Man alpha 1-3[Man alpha 1-3Man alpha 1-6]Man beta 1-4GlcNAc beta 1-4GlcNAc (N1-A) and NeuAc alpha 2-3Gal-beta 1-4GlcNAc beta 1-2Man alpha 1-3[Man alpha 1-3(Man alpha 1-6)Man alpha 1-6]Man beta 1-4GlcNAc beta 1-4GlcNAc (N1-AB) in a ratio approaching 5:2:2:1; (ii) Asn-78 of hCG alpha carried N2 and N1-4' almost exclusively (ratio approximately 3:2); (iii) both N-glycosylation sites of hCG beta contained predominantly component N2, partially (approximately 25%) and completely alpha 1-6-fucosylated at the N-acetylglucosamine linked to Asn-13 and Asn-30, respectively. The distinct site-specific distribution of the oligosaccharide structures among individual N-glycosylation sites of hCG appears to reflect primarily the influence of the surrounding protein structure on the substrate accessibility of the Golgi processing enzymes alpha-mannosidase II, GlcNAc transferase II and alpha 1,6-fucosyltransferase.
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PMID:Site-specific N-glycosylation of human chorionic gonadotrophin--structural analysis of glycopeptides by one- and two-dimensional 1H NMR spectroscopy. 182 Feb

Fluorine NMR lineshape, relaxation and Overhauser effect data collected at 282 and 470 MHz have been used to obtain information about the nature of complexes formed between N-trifluoroacetyl-4-fluorophenylalanine and the enzyme chymotrypsin. Systems involving both enantiomers have been examined as well as derivatives of these in which the aromatic ring hydrogens have been replaced by deuterium. The enzyme-induced fluorine chemical shift effects and the dynamics of molecular motions of the fluorophenyl ring at the respective binding sites appear to be similar in both complexes and, where comparable, the results are in agreement with data obtained at lower frequencies that have been reported by other workers. The dynamics of the fluoroaromatic ring in these complexes are significantly different from those observed in a closely related acylated enzyme.
J Biomol NMR 1991 Jul
PMID:Structure and dynamics of alpha-chymotrypsin-N-trifluoroacetyl-4-fluorophenylalanine complexes. 184 92

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