Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.1 (chymotrypsin)
 10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Using purified bacterially expressed herpes simplex virus type 1 ribonucleotide reductase large subunit (R1) and the proteolytic enzymes chymotrypsin and trypsin, we have generated stable N-terminal truncations. Chymotrypsin removes 246 amino acids from the amino terminus to produce a fragment (dN246R1) which retains full enzymic activity and affinity for the small subunit (R2). Treatment of R1 with trypsin produces a 120K protein and a cleavage at amino acid residue 305 to produce a fragment (dN305R1) which remains associated with a 33K N-terminal polypeptide. Although this 33K-dN305R1 complex retains full binding affinity for R2 its reductase activity is reduced by approximately 50%. Increasing the concentration of trypsin removes the 33K N-terminal polypeptide resulting in dN305R1 which, when bound to R2, has full ribonucleotide reductase activity. Like R1, dN246R1 and dN305R1 each exist as dimers showing that the first 305 amino acids of R1 are not necessary for dimer formation. These results indicate that, in structural studies of subunit interaction, dN246R1 or dN305R1 can be considered as suitable replacements for intact R1.
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PMID:The unique N terminus of the herpes simplex virus type 1 large subunit is not required for ribonucleotide reductase activity. 130 56

The synthesis of alpha (immediate-early) polypeptides in Vero cells infected with pseudorabies virus was studied. Cycloheximide was added at the beginning of infection and removed several hours later. The accumulated alpha mRNA was translated either in vivo in the presence of actinomycin D to prevent further mRNA synthesis, or in vitro. In intact cells three electrophoretically distinct virus-specific proteins were synthesized, with apparent molecular weights of approximately 180 000 (A), 190 000 (B) and 200 000 (C). The accumulation of B and C was prevented by the proline analogue azetidine. Only protein A was detected in vitro. Proteins B and C were not detected in normally infected cells. All three were associated with the nuclear fraction of cell homogenates and A and B were phosphorylated. The radioactivity of B and C declined during a chase period while that of A increased. This change was prevented by adding cycloheximide during the chase. The pattern of chymotrypsin digestion products suggested that A and B at least were similar proteins. It is presumed that protein A is the single immediate-early protein previously described and analogous to ICP 4 of herpes simplex virus. The significance and function, if any, of proteins B and C is not known but it is possible that they represent stages in the formation or transport of A within the cell and that the progression depends on an unstable protein which is depleted in cells treated with cycloheximide.
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PMID:Synthesis of alpha (immediate-early) proteins in Vero cells infected with pseudorabies virus. 608 77

Transcriptional stimulation by the model activator GAL4-VP16 (a chimeric protein consisting of the DNA-binding domain of the yeast activator GAL4 and the acidic activation domain of the herpes simplex virus protein VP16) involves a series of poorly understood protein-protein interactions between the VP16 activation domain and components of the RNA polymerase II general transcription machinery. One of these interactions is the VP16-mediated binding and recruitment of transcription factor TFIIB. However, TATA box-binding protein (TBP)-associated factors (TAFs), or coactivators, are required for this interaction to culminate in productive transcription complex assembly, and one such TAF, Drosophila TAF40, reportedly forms a ternary complex with VP16 and TFIIB. Due to TFIIB's central role in gene activation, we sought to directly visualize the surfaces of this protein that mediate formation of the ternary complex. We developed an approach called protease footprinting in which the broad-specificity proteases chymotrypsin and alkaline protease were used to probe binding of 32P-end-labeled TFIIB to GAL4-VP16 or TAF40. Analysis of the cleavage products revealed two regions of TFIIB protected by VP16 from protease attack, one of which overlapped with a region protected by TAF40. The close proximity of the VP16 and TAF40 binding sites on the surface of TFIIB suggests that this region could act as a regulatory interface mediating the effects of activators and coactivators on transcription complex assembly.
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PMID:Protease footprinting reveals a surface on transcription factor TFIIB that serves as an interface for activators and coactivators. 759 78

Herpes simplex virus type 1 (HSV-1) encodes a protease that is essential for proteolytic processing of itself and of the nucleocapsid-associated protein, ICP35 (infected cell protein 35) (Liu, F., and Roizman, B. (1991) J. Virol. 65, 5149-5156). Inhibitor studies indicated that the HSV-1 protease is sensitive to the serine protease inactivator diisopropyl fluorophosphate (DFP). Inactivation is irreversible and dependent on time and concentration of DFP. Loss of activity correlates linearly with the incorporation of [3H]DFP. Analysis of completely inactivated protease by mass spectrometry indicated a stoichiometry of 1 DFP/protease. In order to identify the specific residue modified by DFP, the protease was labeled with [3H]DFP and subsequently digested with trypsin or chymotrypsin. The peptides resulting from each digestion were separated by reverse phase HPLC, and the radioactivity was recovered in a single peak. Mass spectrometric studies and sequencing analysis by Edman degradation identified Ser-129 as the residue modified by DFP. This residue and the region in which it is found is highly conserved among the herpes viral proteases. These data demonstrate that HSV-1 protease is a serine protease and that Ser-129 is the active site nucleophile.
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PMID:Identification of the serine residue at the active site of the herpes simplex virus type 1 protease. 817 77

The herpes simplex virus type 1 thymidine kinase (HSV-1 TK) is an important pharmacological target of antiviral nucleoside drugs and it uniquely possesses both a thymidine kinase and a thymidylate kinase activity. The structural relationship between these two activities is addressed in this study using a combination of active-site directed photoaffinity analogs, proteases, and tricine-SDS-polyacrylamide gel electrophoresis. For analysis of the thymidylate binding site, the thymidylate analog [32P]5-azido-dUMP was specifically photocrosslinked to the active site of HSV-1 TK. Because the amino acid sequence of HSV-1 TK is known, endoprotease Lys-C, V8 protease, trypsin, or chymotrypsin was used to generate a proteolytic map of photoincorporated peptides by separation on high-resolution tricine-SDS-polyacrylamide gels. Analysis of the resulting peptides indicated that the photoprobe was localized to one region comprising amino acids Ile112-Tyr132. Photolabeling of this region indicates that the thymine base of thymidine and TMP bind at one shared site in HSV-1 TK. In addition, the results reported in this study demonstrate that photolabeling with azidonucleotides can be used to identify photolabeled peptides by proteolytic mapping. This technique bypasses the problems of peptide purification and sequencing and yields rapid results when the primary amino acid structure of the protein of interest is known.
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PMID:Proteolytic mapping of the thymidine/thymidylate binding site of herpes simplex virus type 1 thymidine kinase: a general photoaffinity labeling method for identifying active-site peptides. 866 May 48

Human herpes simplex virus type 1 (HSV-1) and type 2 (HSV-2) are responsible for herpes labialis (cold sores) and genital herpes, respectively. They encode a serine protease that is required for viral replication, and represent a viable target for therapeutic intervention. Here, we report the crystal structures of HSV-1 and HSV-2 proteases, the latter in the presence and absence of the covalently bound transition state analog inhibitor diisopropyl phosphate (DIP). The HSV-1 and HSV-2 protease structures show a fold that is neither like chymotrypsin nor like subtilisin, and has been seen only in the recently determined cytomegalovirus (CMV) and varicella-zoster virus (VZV) protease structures. HSV-1 and HSV-2 proteases share high sequence homology and have almost identical three-dimensional structures. However, structural differences are observed with the less homologous CMV protease, offering a structural basis for herpes virus protease ligand specificity. The bound inhibitor identifies the oxyanion hole of these enzymes and defines the active site cavity.
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PMID:Active site cavity of herpesvirus proteases revealed by the crystal structure of herpes simplex virus protease/inhibitor complex. 936 73

The proteases encoded by herpesviruses including herpes simplex virus type 1 (HSV-1) and human cytomegalovirus (HCMV) are attractive targets for antiviral drug development because of their important roles in viral replication. We randomly screened a chemical compound library for inhibitory activity against HSV-1 protease. 1,4-Dihydroxynaphthalene and three naphthoquinones were found to be potent inhibitors of HSV-1 protease with IC50 values of 6.4 to 16.9 microM. Inhibitory mode analysis of the compounds against HSV-1 protease suggested that, in spite of structural similarities, only 1,4-dihydroxynaphthalene was a competitive inhibitor, whereas the three naphthoquinones were noncompetitive inhibitors. Among all assayed dihydroxynaphthalene derivatives in the chemical compound library, 1,4-dihydroxynaphthalene proved to be the most potent inhibitor of HSV-1 protease. Therefore, the two hydroxyl groups located at positions 1 and 4 on the naphthalene structure seemed essential for exertion of a potent inhibitory activity against HSV-1 protease. In addition, we have found that these compounds are also potent inhibitors of HCMV protease with extremely low micromolar IC50 values. This differed from the results of inhibitory mode analysis of HSV-1 protease, 1,4-dihydroxynaphthalene was a noncompetitive inhibitor of HCMV protease, and three naphthoquinones were competitive inhibitors. These compounds showed no effective inhibitory activity against several mammalian serine proteases (trypsin, chymotrypsin, kallikrein, plasmin, thrombin and Factor Xa) at 100 microM. These results suggest that 1,4-dihydroxynaphthalene and three naphthoquinones may be useful in the development of nonpeptidic antiherpesvirus agents.
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PMID:Selective nonpeptidic inhibitors of herpes simplex virus type 1 and human cytomegalovirus proteases. 1125 77

Chemical modification of the proteins bovine serum albumin, alpha-lactalbumin, beta-lactoglobulin and chicken lysozyme by 3-hydroxyphthalic anhydride (3-HP) yielded compounds which exerted antiviral activity in vitro as compared with the native unmodified proteins. Of the three enveloped viruses tested, human herpes simplex virus type 1 (HSV-1), bovine parainfluenza virus type 3 and porcine respiratory corona virus, only HSV-1 proved sensitive to the 3-HP-proteins. All of the chemically modified proteins presented antiviral activity against HSV-1 when assayed before, during or after infection. However, to achieve HSV-1 inhibition, significantly higher concentrations of the modified proteins were required if present before infection as compared to during or after infection. Our results suggest that multiple mechanisms are involved in the inhibition of HSV-1 infection. Proteolytical digestion of albumin, alpha-lactalbumin, beta-lactoglobulin and lysozyme by trypsin, chymotrypsin and pepsin yielded several peptide fragments with antiherpetic activity. Chemical modification of these peptide fragments by 3-HP generated peptides with antiviral activity, however, this was almost always combined with a cytotoxic effect on the Vero cells. Overall, our results suggest that targeted chemical modification of some natural products might provide compounds effective against HSV-1 infection.
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PMID:The antiviral activity of naturally occurring proteins and their peptide fragments after chemical modification. 1283 57

Glycoprotein B (gB), along with gD, gH, and gL, is essential for herpes simplex virus (HSV) entry. The crystal structure of the gB ectodomain revealed it to be an elongated multidomain trimer. We generated and characterized a panel of 67 monoclonal antibodies (MAbs). Eleven of the MAbs had virus-neutralizing activity. To organize gB into functional regions within these domains, we localized the epitopes recognized by the entire panel of MAbs and mapped them onto the crystal structure of gB. Most of the MAbs were directed to continuous or discontinuous epitopes, but several recognized discontinuous epitopes that showed some resistance to denaturation, and we refer to them as pseudo-continuous. Each category contained some MAbs with neutralizing activity. To map continuous epitopes, we used overlapping peptides that spanned the gB ectodomain and measured binding by enzyme-linked immunosorbent assay. To identify discontinuous and pseudocontinuous epitopes, a purified form of the ectodomain of gB, gB(730t), was cleaved by alpha-chymotrypsin into two major fragments comprising amino acids 98 to 472 (domains I and II) and amino acids 473 to 730 (major parts of domains III, IV, and V). We also constructed a series of gB truncations to augment the other mapping strategies. Finally, we used biosensor analysis to assign the MAbs to competition groups. Together, our results identified four functional regions: (i) one formed by residues within domain I and amino acids 697 to 725 of domain V; (ii) a second formed by residues 391 to 410, residues 454 to 475, and a less-defined region within domain II; (iii) a region containing residues of domain IV that lie close to domain III; and (iv) the first 12 residues of the N terminus that were not resolved in the crystal structure. Our data suggest that multiple domains are critical for gB function.
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PMID:Antigenic and mutational analyses of herpes simplex virus glycoprotein B reveal four functional regions. 1726 95