Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: DrugBank:EXPT00572 (Asn)
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Previous studies from this laboratory on the immunochemistry of specific chemical derivatives of native lysozyme and of the two disulfide peptide 62-68 (Cys 64-Cys 80) 74-97 (Cys 76-Cys 94) (i.e. (SS)2-peptide), have established an antigenic reactive site to comprise the spatially contiguous surface residues: Trp 72, Lys 97, Lys 96, Asn 93, Thr 89 and Asp 87. In the present work, the identity of the site was verified by an entirely different and novel approach. The aforementioned amino acids were linked directly into a single linear peptide with an intervening spacer where appropriate and substituting phenylalanine for tryptophan (i.e. Phe-Gly-Lys-Asn-Thr-Asp). This peptide (which does not exist in native lysozyme but simulates a surface region of the protein) possessed a remarkable inhibitory activity towards the reaction of lysozyme with its antisera. The immunochemical reactivity of the peptide was equal to the maximum expected reactivity of the site (i.e. a third of the total antigenic reactivity of lysozyme). These findings define quite conclusively and accurately the reactive site which is clearly composed of spatially adjacent residues that are distant in sequence reacting as if in direct linear linkage. The unequivocal establishment of this concept indicates that antigenic sites need not always be composed of residues in direct peptide linkage in the sequence. The nature of the site may depend on the protein. This unorthodox attack at the problem provides a novel and powerful approach for final delineation of the antigenic reactive sites (and perhaps other types of binding sites) in native proteins, following the completion of accurate narrowing down by chemical methods.
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PMID:Enzymic and immunochemical properties of lysozyme. XVI. A novel synthetic approach to an antigenic reactive site by direct linkage of the relevant conformationally adjacent residues constituting the site. 5 5

The hydration isotherms of alpha-chymotrypsin, lysozyme, pork insulin, pork pepsin and serum albumin were obtained by means of dynamic method. The values of BET-monolayers for processes of water sorption leads to (h) and desorption comes from (h) do not depend on the static or dynamic way of achieving of hydration equilibrium in spite of difference in the shape of isotherms. The values of comes from h for proteins with known tertiary structure (alpha-chymotrypsin, lysozyme and insulin) coinside with the number of exposed polar amino acid side chains. The lowering of leads to h values in comparison with comes from h is correlated with inability of omega-amido groups of Asn and Gln residues and of ion pair-forming residues to take part in the formation of sorptive BET-monolayer. These rules for the interpretation of hydration isotherms were used to evaluate the numbers of exposed and buried polar side chains in proteins with unknown tertiary structure--pepsin and serum albumin.
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PMID:[Isotherms of globular protein hydration under dynamic conditions]. 32 24

1. Previous reports from this laboratory have shown that both Lys-33 and Lys-116 are parts of an antigenic site in native lysozyme. Similar studies of tyrosine derivatives indicated that one or both of Tyr-20 and Tyr-23 are located in or very close to an antigenic site in lysozyme. The site, which was located around the disulphide bridge 30-115, was recently shown unequivocally to include the residues Tyr-20, Arg-21, Lys-116, Asn-113, Arg-114, Phe-34 and Lys-33. This was confirmed by the ;surface-simulation' synthetic approach that we have recently developed, in which the foregoing eight surface residues were directly linked via peptide bonds, with intervening spacers where appropriate, into a single peptide. The peptide does not exist in native lysozyme, but simulates a surface region of it. 2. In the present work several surface-simulation peptides were synthesized representing various parts of the region, to determine the minimum structural feature that retains full antigenic reactivity and to investigate if the spatially constructed antigenic site has a preferred direction. 3. The peptide Lys-Asn-Arg-Gly-Phe-Lys exhibited a remarkable inhibitory activity towards the immune reaction of lysozyme and accounted entirely for the maximum expected reactivity of the site in the native protein (i.e. about one-third of the total lysozyme reactivity). An immunoadsorbent of the peptide bound about one-third of the total antibody to lysozyme. 4. The residues Tyr-20 and Arg-21 are not part of the site. The previously reported immunochemical effect observed on nitration of Tyr-20 was due to a deleterious ionic effect exerted by the modified tyrosine residue on the adjacent Lys-96, which is in an entirely different antigenic site of lysozyme. Thus the modification of Tyr-20 impairs the reactivity of an adjacent antigenic site, even though the residue itself is not part of a site. The conformational and immunochemical implications of this finding are discussed. 5. The antigenic site therefore comprises the five spatially adjacent residues Lys-116, Asn-113, Arg-114, Phe-34, Lys-33. The antigenic site exhibited a preferred direction (Lys-116 to Lys-33), since the reverse surface-simulation synthetic sequence was immunochemically inefficient. The site describes a line which circumscribes part [2.1nm in C((alpha))-C((alpha)) distance from Lys-116 to Lys-33] of the surface of the molecule.
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PMID:Enzymic and immunochemical properties of lysozyme. Accurate definition of the antigenic site around the disulphide bridge 30-115 (site 3) by 'surface-simulation' synthesis. 60 22

We have previously shown that an antigenic site in native lysozyme resides around the disulphide bridge 30-115 and incorporates Lys-33 and Lys-116 and one or both of Tyr-20 and Tyr-23. These residues fall in an imaginary line circumscribing part of the surface of the molecule and passing through the spatially adjacent residues Tyr-20, Arg-21, Tyr-23, Lys-116, Asn-113, Arg-114, Phe-34 and Lys-33. The identity of the site was confirmed by demonstrating that the synthetic peptide Tyr-Arg-Tyr-Gly-Lys-Asn-Arg-Gly-Phe-Lys (which does not exist in lysozyme but simulates a surface region of it), and an analogue in which glycine replaced Tyr-23, possessed remarkable immuno-chemical reactivity that accounted entirely for the expected reactivity of the site in native lysozyme. Tyr-23 is not part of the site, and its contribution was satisfied by a glycine spacer. The novel approach presents a powerful technique for the delineation of antigenic (and other binding) sites in native proteins and confirms that these need not always comprise residues in direct peptide linkage.
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PMID:Delineation of the third antigenic site of lysozyme by application of a novel 'surface-simulation' synthetic approach directly linking the conformationally adjacent residues forming the site. 99 47

Interactions of several proteins with glutathione-insulin transhydrogenase (GIT) have been investigated by determining their ability to inhibit degradation of 125I-labeled insulin catalyzed by GIT. The inhibition by every insulin analog (des-Asn-des-Ala-pork insulin, desoctapeptide-pork insulin, des-Ala-pork insulin, pork insulin, proinsulin, and guinea pig insulin) was competitive vs. competitive vs. insulin indicating that they function as alternate substrates. The insulin analogs with the least hormonal activity showed the highest potency as inhigitors of insulin degradation. Whereas native ribonuclease and lysozyme showed little or no inhibition, their scrambled forms (i.e. reduced and randomly reoxidized) showed competitive inhibition with a potency greater than that of insulin. These results suggest that the conformation of the substrate or inhibitor is probably the major factor in determining the specificity for (or binding to) the enzyme. Studies withother peptide hormones showed competitive inhibition with vasopressin and oxytocin and noncompetitive inhibition with glycagon. The inhibition with growth hormone could be either competitive or noncompetitive. The inhibition by glucagon and growth hormone (physiologic antagonists of insulin) could serve as a control mechanism to modulate the activity of enzyme. The following showed very little or no inhibition; the native and scrambled form of pepsinogen, trypsin inhibitor of beef pancreas and of lima bean, C-peptide of pork proinsulin, and heptapeptide (B23-B29) of insulin.
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PMID:Interaction of insulin analogs, glucagon, growth hormone, vasopressin, oxytocin, and scrambled forms of ribonuclease and lysozyme with glytathione-insulin transhydrogenase (thiol: protein-disulfide oxidoreductase): dependence upon conformation. 117 Aug 77

In a systematic attempt to identify residues important in the folding and stability of T4 lysozyme, five amino acids within alpha-helix 126-134 were substituted by alanine, either singly or in selected combinations. Together with three alanines already present in the wild-type structure this provided a set of mutant proteins with up to eight alanines in sequence. All the variants behaved normally, suggesting that the majority of residues in the alpha-helix are nonessential for the folding of T4 lysozyme. Of the five individual alanine substitutions it is inferred that four result in slightly increased protein stability and one, the replacement of a buried leucine with alanine, substantially decreased stability. The results support the idea that alanine is a residue of high helix propensity. The change in protein stability observed for each of the multiple mutants is approximately equal to the sum of the energies associated with each of the constituent substitutions. All of the variants could be crystallized isomorphously with wild-type lysozyme, and, with one trivial exception, their structures were determined at high resolution. Substitution of the largely solvent-exposed residues Asp 127, Glu 128, and Val 131 with alanine caused essentially no change in structure except at the immediate site of replacement. Substitutions of the partially buried Asn 132 and the buried Leu 133 with alanine were associated with modest (< or = 0.4 A) structural adjustments. The structural changes seen in the multiple mutants were essentially a combination of those seen in the constituent single replacements. The different replacements therefore act essentially independently not only so far as changes in energy are concerned but also in their effect on structure. The destabilizing replacement Leu 133-->Ala made alpha-helix 126-134 somewhat less regular. Incorporation of additional alanine replacements tended to make the helix more uniform. For the penta-alanine variant a distinct change occurred in a crystal-packing contact, and the "hinge-bending angle" between the amino- and carboxy-terminal domains changed by 3.6 degrees. This tends to confirm that such hinge-bending in T4 lysozyme is a low-energy conformational change.
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PMID:Multiple alanine replacements within alpha-helix 126-134 of T4 lysozyme have independent, additive effects on both structure and stability. 130 17

The bacteriophage T7 0.7 gene encodes a protein which supports viral reproduction under specific suboptimal growth conditions. The 0.7 protein (gp0.7) shuts off host RNA polymerase-catalyzed transcription and also expresses a serine/threonine-specific, cAMP-independent protein kinase (PK) activity. To determine the role of the gp0.7 PK in viral reproduction, the 0.7 gene of the T7(JS78) mutant phage--whose gp0.7 expresses only the PK activity--was cloned in the plasmid expression vector pET-11a. Cells containing the recombinant plasmid were viable, and upon IPTG induction produced a 30-kDa polypeptide, similar in size to the gp0.7-related polypeptide seen in T7(JS78)-infected cells. Extracts of cells containing this polypeptide can phosphorylate the exogenous substrate lysozyme. Expression of plasmid-encoded gp0.7(JS78) in vivo results in phosphorylation of the same proteins which are phosphorylated in T7(JS78)-infected cells; moreover, the plasmid-encoded gp0.7(JS78) is itself phosphorylated. The JS78 mutation changes Gln243 in gp0.7 to an amber codon, which explains the production of the truncated, 30-kDa gp0.7-related polypeptide, and implicates the 11-kDa C-terminal domain in host transcription shut-off. The T7(A23) 0.7 point mutant fails to express PK activity in infected cells. However, the truncated T7(A23)-related polypeptide, expressed from a plasmid, exhibits PK activity in vivo and in vitro, but with an altered specificity. Thus, the A23 mutation, which changes Asp100 to Asn, may identify a substrate recognition determinant.
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PMID:Molecular cloning and expression of the bacteriophage T7 0.7(protein kinase) gene. 131 Jan 78

The amino acids of Lady Amherst's pheasant and golden pheasant egg-white lysozymes have been sequenced. The carboxymethylated lysozymes were digested with trypsin followed by sequencing of the tryptic peptides. Lady Amherst's pheasant lysozyme proved to consist of 129 amino acid residues, and a relative molecular mass of 14,423 Da was calculated. This lysozyme had 6 amino acids substitutions when compared with hen egg-white lysozyme: Phe3 to Tyr, His15 to Leu, Gln41 to His, Asn77 to His, Gln 121 to Asn, and a newly found substitution of Ile124 to Thr. The amino acid sequence of golden pheasant lysozyme was identical to that of Lady Amherst's phesant lysozyme. The phylogenetic tree constructured by the comparison of amino acid sequences of phasianoid birds lysozymes revealed a minimum genetic distance between these pheasants and the turkey-peafowl group.
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PMID:The amino acid sequence of Lady Amherst's pheasant (Chrysolophus amherstiae) and golden pheasant (Chrysolophus pictus) egg-white lysozymes. 136 78

Threonine 59, a helix-capping residue at the amino terminus of the longest helix in T4 phage lysozyme, was substituted with valine, alanine, glycine, serine, asparagine, and aspartic acid. The valine, alanine, and glycine replacements were observed to be somewhat more destabilizing than serine, asparagine, and aspartic acid. The crystal structures of the different variants showed that changes in conformation occurred at the site of substitution, including Asp 61, which is nearby, as well as displacement of a solvent molecule that is hydrogen-bonded to the gamma-oxygen of Thr 59 in wild-type lysozyme. Neither the structures nor the stabilities of the mutant proteins support the hypothesis of Serrano and Fersht (1989) that glycine and alanine are better helix-capping residues than valine because a smaller-sized residue allows better hydration at the end of the helix. In the aspartic acid and asparagine replacements the substituted side chains form hydrogen bonds with the end of the helix, as does threonine and serine at this position. In contrast, however, the Asp and Asn side chains also make unusually close contacts with carbon atoms in Asp 61. This suggests a structural basis for the heretofore puzzling observations that asparagine is more frequently observed as a helix-capping residue than threonine [Richardson, J. S., & Richardson, D. C. (1988) Science 240, 1648-1652] yet Thr----Asn replacements at N-cap positions in barnase were found to be destabilizing [Serrano, L., & Fersht, A. R. (1989) Nature 342, 296-299].(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dissection of helix capping in T4 lysozyme by structural and thermodynamic analysis of six amino acid substitutions at Thr 59. 156 17

Single and multiple Xaa----Ala substitutions were constructed in the alpha-helix comprising residues 39-50 in bacteriophage T4 lysozyme. The variant with alanines at 10 consecutive positions (A40-49) folds normally and has activity essentially the same as wild type, although it is less stable. The crystal structure of this polyalanine mutant displays no significant change in the main-chain atoms of the helix when compared with the wild-type structure. The individual substitutions of the solvent-exposed residues Asn-40, Ser-44, and Glu-45 with alanine tend to increase the thermostability of the protein, whereas replacements of the buried or partially buried residues Lys-43 and Leu-46 are destabilizing. The melting temperature of the lysozyme in which Lys-43 and Leu-46 are retained and positions 40, 44, 45, 47, and 48 are substituted with alanine (i.e., A40-42/44-45/47-49) is increased by 3.1 degrees C relative to wild type at pH 3.0, but reduced by 1.6 degrees C at pH 6.7. In the case of the charged amino acids Glu-45 and Lys-48, the changes in melting temperature indicate that the putative salt bridge between these two residues contributes essentially nothing to the stability of the protein. The results clearly demonstrate that there is considerable redundancy in the sequence information in the polypeptide chain; not every amino acid is essential for folding. Also, further evidence is provided that the replacement of fully solvent-exposed residues within alpha-helices with alanines may be a general way to increase protein stability. The general approach may permit a simplification of the protein folding problem by retaining only amino acids proven to be essential for folding and replacing the remainder with alanine.
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PMID:Folding and function of a T4 lysozyme containing 10 consecutive alanines illustrate the redundancy of information in an amino acid sequence. 157 Feb 93


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