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
Query: EC:3.2.1.17 (
lysozyme
)
21,489
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The active site amino acids (Glu11 and Asp20) in T4-
lysozyme
have been mutated to their isosteric residues Gln or Asn and/or acidic residues such as Glu----
Asp
or
Asp
----Glu by the oligonucleotide-replacement method. Out of eight mutants so generated the mutant T4-
lysozyme
obtained from pTLY.Asp11 retains maximum amount of activity (approximately 16%), pTLY.Asn20 the least (0.9%) whereas pTLY.Gln11 lost completely. A systematic study of the active and inactive mutants thus generated supports the important role of Glu11 and Asp20 in T4-
lysozyme
activity as predicted in earlier studies.
...
PMID:Mutation of active site residues in synthetic T4-lysozyme gene and their effect on lytic activity. 338 7
Lysozyme digestion and sonication of sodium dodecyl sulfate (SDS)-purified Klebsiella aerogenes murein sacculi resulted in the quantitative release of both subunits of nitrate reductase, as well as a number of other cytoplasmic membrane polypeptides (5.2%, by weight, of the total membrane proteins). Similar results were obtained after
lysozyme
digestion of SDS-prepared peptidoglycan fragments, which excluded the phenomenon of simple trapping of the polypeptides by the surrounding peptidoglycan matrix. About 28% of membrane-bound nitrate reductase appears to be tightly associated with the peptidoglycan. Additional evidence for this association was demonstrated by positive immunogold labeling of SDS-murein sacculi and thin sections of plasmolyzed bacteria. Qualitative amino acid analysis of trypsin-treated sacculi, a tryptic product of holo-nitrate reductase, and amino- and carboxypeptidase digests of both nitrate reductase subunits indicated the possible existence of a terminal anchoring peptide containing the following amino acids: (Gly)n, Trp, Ser, Pro, Ile, Leu, Phe, Cys, Tyr,
Asp
, and Lys.
...
PMID:Part of respiratory nitrate reductase of Klebsiella aerogenes is intimately associated with the peptidoglycan. 354 73
Proteins that permanently reside in the lumen of the endoplasmic reticulum (ER) must somehow be distinguished from newly synthesized secretory proteins, which pass through this compartment on their way out of the cell. Three luminal ER proteins whose sequence is known, grp78 ("BiP"), grp94, and protein disulphide isomerase, share the carboxy-terminal sequence Lys-
Asp
-Glu-Leu (KDEL). We show that deletion (or extension) of the carboxyl terminus of grp78 results in secretion of this protein when it is expressed in COS cells. Conversely, a derivative of chicken
lysozyme
containing the last six amino acids of grp78 fails to be secreted and instead accumulates in the ER. We propose that the KDEL sequence marks proteins that are to be retained in the ER and discuss possible retention mechanisms.
...
PMID:A C-terminal signal prevents secretion of luminal ER proteins. 354 99
The protease activities responsible for the cotranslational processing of the Semliki Forest virus structural polyprotein were investigated by using an in vitro transcription-translation system. Three cleavages released the individual chains from the nascent polyprotein in the order capsid, p62, 6K (a nonstructural peptide), and E1. We showed directly that the protease activity responsible for the release of the capsid protein resides in the capsid itself: by progressive truncation of the cDNA used for the SP6 transcription, we showed that a precursor containing as few as 38 residues of the p62 protein left at the C terminus of the capsid was still very efficiently cleaved in vitro. We further tested the possibility that serine-219 of the capsid is involved in autoproteolysis by site-directed in vitro mutagenesis. A change in the sequence Gly-
Asp
-Ser(219)-Gly, a tetrapeptide conserved among several animal serine proteases, to Gly-
Asp
-Arg-Ser-Thr was shown to completely abolish in vitro cleavage. This supports the notion that the capsid is a serine protease. The role of the capsid protease in the processing of the 6K junctions was then investigated by translations of a hybrid polyprotein in which the capsid and most of the p62 sequences are replaced by those of the secretory protein
lysozyme
. The cleavages and concomitant appearance of the 6K peptide occurred efficiently and were shown to require the presence of membranes. This demonstrates that the capsid protease is not required for those cleavages and suggests that a membrane-associated host protease is responsible for the cleavage.
...
PMID:Processing of the Semliki Forest virus structural polyprotein: role of the capsid protease. 355 12
Nuclear magnetic resonance analyses have been made of the individual hydrogen-deuterium exchange rates of tryptophan indole N-1 hydrogens in native
lysozyme
and its chemically modified derivatives including
lysozyme
with an ester cross-linkage between Glu-35 and Trp-108,
lysozyme
with an internal amide cross-linking between the epsilon-amino group of Lys-13 and the alpha-carboxyl group of Leu-129, and
lysozyme
with the beta-aspartyl sequence at
Asp
-101. The pH dependence curves of the exchange rates for Trp-63 and Trp-108 are different from those expected for tryptophan. The pH dependence curve for Trp-108 exchange exhibits the effects from molecular aggregation at pH above 5 and from a transition between the two conformational fluctuations at around pH 4. The exchange rates for tryptophan residues in native
lysozyme
and modified derivatives are not correlated with the thermodynamic or kinetic parameters in protein denaturation, suggesting that the fluctuations responsible for the exchange are not global ones. The exchange rates for tryptophan residues remote from the modification site are perturbed. Such tryptophan residues are found to be involved in a small but distinct conformational change due to the modification. Therefore, the perturbations of the N-1 hydrogen exchange rates are related to the minor change in local conformation or in conformational strain induced by the chemical modification.
...
PMID:pH dependence of individual tryptophan N-1 hydrogen exchange rates in lysozyme and its chemically modified derivatives. 359 97
In order to probe the roles of Tyr-63, Trp-64 and Trp-109 in the active site of human
lysozyme
(
peptidoglycan N-acetylmuramoylhydrolase
,
EC 3.2.1.17
), six human lysozymes containing a mutation, Tyr-63 to Leu, Trp-64 to Phe or Tyr, Trp-109 to Phe or Tyr, and Glu-35 to
Asp
, were newly synthesized and their immunological and enzymatical activities were examined in comparison with the native enzyme. Enzymatic characterization indicated: (i) that the existences of an aromatic residue at position 63 and a tryptophan residue at position 64 are essential for the effective hydrolysis of glycol chitin substrate, but not for the lysis of bacterial substrate; (ii) that the conversion of Trp-109 to Phe or Tyr reduces the maximal velocity of the lytic reaction to 25% of the wild-type enzyme; however, the apparent affinity constant is not affected. Further, the difference between the activity against the charged substrate and that against the non-charged substrate was discussed from a viewpoint of the electrostatic interaction between enzyme and substrate.
...
PMID:The roles of conserved aromatic amino-acid residues in the active site of human lysozyme: a site-specific mutagenesis study. 366 86
The structure of the mutant of bacteriophage T4
lysozyme
in which Gly-156 is replaced by
aspartic acid
is described. The
lysozyme
was isolated by screening for temperature-sensitive mutants and has a melting temperature at pH 6.5 that is 6.1 degrees C lower than wild type. The mutant structure is destabilized, in part, because Gly-156 has conformational angles (phi, psi) that are not optimal for a residue with a beta-carbon. High resolution crystallographic refinement of the mutant structure (R = 17.7% at 1.7 A resolution) shows that the Gly----
Asp
substitution does not significantly alter the configurational angles (phi, psi) but forces the backbone to move, as a whole, approximately 0.6 A away from its position in wild-type
lysozyme
. This induced strain weakens a hydrogen bond network that exists in the wild-type structure and also contributes to the reduced stability of the mutant
lysozyme
. The introduction of an acidic side chain reduces the overall charge on the molecule and thereby tends to increase the stability of the mutant structure relative to wild type. However, at neutral pH this generalized electrostatic stabilization is offset by specific electrostatic repulsion between
Asp
-156 and
Asp
-92. The activity of the mutant
lysozyme
is approximately 50% that of wild-type
lysozyme
. This reduction in activity might be due to introduction of a negative charge and/or perturbation of the surface of the molecule in the region that is assumed to interact with peptidoglycan substrates.
...
PMID:Structural analysis of the temperature-sensitive mutant of bacteriophage T4 lysozyme, glycine 156----aspartic acid. 368 Feb 74
A mechanism for the selective modification of
Asp
-101 in hen egg-white
lysozyme
with an amine nucleophile catalyzed by 1-ethyl-3-[3-(dimethylamino)propyl]carbodiimide hydrochloride (EDC) was investigated using ethanolamine as a nucleophile at pH 5.0 and room temperature. In the presence of N-acetyl-D-glucosamine (NAG) and its oligomers [(NAG)n, n = 2 and 3] under the conditions with which about 90% of
lysozyme
was calculated to form complexes, the formation of
Asp
-101 modified
lysozyme
decreased markedly but to different degrees, that is (NAG)3 was the most and NAG the least effective. When the
lysozyme
derivative, in which Trp-62 in the active site cleft was oxidized to oxindolealanine (Ox-62
lysozyme
), was used in place of native
lysozyme
, the formation of
Asp
-101 modified derivative decreased to about half, which was similar to the decrease in the presence of (NAG)2. In the presence of 0.5 M NaCl, on the other hand, the formation of
Asp
-101 modified
lysozyme
was considerably enhanced. From these observations, it is concluded that EDC binds to the active site cleft of
lysozyme
to specifically activate
Asp
-101. The affinity of EDC to the active site of
lysozyme
is partly due to the hydrophobic interaction of EDC with the Trp-62 residue at sub-site B of
lysozyme
. EDC is an activating reagent for carboxyl groups unlike most active site-directed reagents which produce final products directly. Therefore, the active site-directed nature of EDC was very useful because it made it possible to selectively introduce various amines as needed at a particular carboxyl group of
lysozyme
.
...
PMID:Specific carbodiimide-binding mechanism for the selective modification of the aspartic acid-101 residue of lysozyme in the carbodiimide-amine reaction. 371 Oct 72
The role of binding subsite A, located at the terminal of the six binding subsites of hen egg-white
lysozyme
, in substrate binding and catalytic reactions was investigated by kinetic studies using a chemical modification method. Computer simulation showed that, although subsite A participates in the binding of the substrate, a decrease in the affinity of subsite A to the sugar residue does not cause a lowering of the rate of substrate consumption but changes the mode of the reaction by changing the distribution of the products formed. The binding free energies of subsites for
Asp
-101-modified lysozymes were estimated by data-fitting from the experimental time-courses. The contribution of
Asp
-101 in hen egg-white
lysozyme
to the substrate binding at subsite A was estimated to correspond to a binding free energy of about -3 kJ/mol, 30% of the total binding free energy of subsite A. Modification of
Asp
-101 affected not only the binding free energy of subsite A but also that of subsite C.
...
PMID:The role of binding subsite A in reactions catalyzed by hen egg-white lysozyme. 373 80
In a two-step process, esterification and ammonolysis, Glu-35 and
Asp
-52 in
lysozyme
were amidated to glutamine and asparagine residues. Since the side chains of glutamine and asparagine are almost equal in size to those of glutamic acid and
aspartic acid
, these conversions would provide appropriate derivatives to elucidate the catalytic participations of these residues. The enzymatic activities of the resulting [Gln35]
lysozyme
and [Asn52]
lysozyme
were found to be less than 4% of that of native
lysozyme
in a pH range of 3.4-8.0. As these derivatives were inactive, we could determine the dissociation constants (Ks values) for the binding of beta-1,4-linked n-mer, a hexasaccharide of N-acetyl-D-glucosamine, to [Gln35]
lysozyme
and [Asn52]
lysozyme
. The values of Ks at pH 5.5 and 40 degrees C were 1.6 X 10(-5) M for [Gln35]
lysozyme
and 2.7 X 10(-5) M for [Asn52]
lysozyme
. These values are similar to that for native
lysozyme
. The results are direct proof for the involvements of Glu35 and Asp52 in the catalytic action of
lysozyme
. A method for ammonolysis of ester groups in proteins in liquid ammonia is described and will be useful for amidation of carboxyl groups of proteins.
...
PMID:Chemical mutations of the catalytic carboxyl groups in lysozyme to the corresponding amides. 375 81
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