Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:3.2.1.17 (
lysozyme
)
21,489
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A membrane-bound fraction of polysomes of Escherichia coli has been isolated after lysis of cells without the use of
lysozyme
. Protein-synthesis studies in vitro show that membrane-bound and free polysomes are different in the following respects. 1. Membrane-bound polysomes synthesize proteins which are exported from the cell. The products include proteins of the outer membrane and a secreted periplasmic protein, the maltose-binding protein. 2. The major product synthesized by free polysomes is elongation factor Tu, a soluble
cytoplasmic protein
. 3. The activity of membrane-bound polysomes in vitro is more resistant to puromycin than is the activity of free polysomes. In addition, the mRNA associated with membrane-bound polysomes is more stable than the bulk of cellular mRNA as revealed by studies with rifampicin.
...
PMID:Synthesis of exported proteins by membrane-bound polysomes from Escherichia coli. 40 18
"Derivative isolates" with 4- to 8-fold and 8- to 16-fold increases in MICs of vancomycin and teicoplanin, respectively, were selected from 2 susceptible clinical isolates of Staphylococcus aureus by serial incubation in low-level vancomycin. A protein of approximately 39 kDa was demonstrable in the cytoplasmic fraction and occasionally in the membrane fraction by SDS-PAGE of both derivatives. This protein was purified by DEAE chromatography, preparative SDS-PAGE, and electroelution. Derivative bacteria were larger on transmission electron microscopy, had thicker cell walls, and had changes in colony morphology on solid media. Further evidence for cell wall reorganization included loss of phage and capsular typing, decreased susceptibility to lysostaphin/
lysozyme
killing, and changes in condition for detection of optimal coagulase activity. The mechanism of decreased susceptibility to glycopeptide antibiotics among S. aureus derivative isolates is uncertain. The production of the approximately 39-kDa
cytoplasmic protein
and cell wall reorganization may mediate changed affinity of glycopeptide-peptidoglycan binding or impairment of glycopeptide access to its cell wall target.
...
PMID:Characterization of Staphylococcus aureus isolates with decreased susceptibility to vancomycin and teicoplanin: isolation and purification of a constitutively produced protein associated with decreased susceptibility. 140 17
Using polymerase chain reaction methods, we cloned a 1.7-kilobase cDNA, denoted DdPTPa, that has high homology with other known eukaryotic protein tyrosine phosphatases. DdPTPa possess a 241-amino acid protein tyrosine phosphatase domain located in the C terminus, which exhibits a 39-43% amino acid sequence identity with published protein tyrosine phosphatases. Absence of a characteristic signal sequence and transmembrane domain suggests that DdPTPa is a nonreceptor type
cytoplasmic protein
tyrosine phosphatase. Southern blot analysis of genomic DNA indicates the presence of a multigene protein tyrosine phosphatase family in Dictyostelium. Northern blot analysis reveals four species of mRNA that hybridize to the DdPTPa probe, at least three of which are developmentally regulated. The entire coding sequence of DdPTPa was subcloned into the pET15-b vector and expressed in Escherichia coli. Affinity-purified DdPTPa protein efficiently dephosphorylates both p-nitrophenyl phosphate and tyrosine-phosphorylated reduced, carboxyamidomethylated, and maleylated
lysozyme
. A Dictyostelium transformant overexpressing DdPTPa does not develop normally. The overexpresser fails to aggregate, in contrast to the control transformant containing vector alone, and after 24 h gives rise to only a few abnormal slugs and small fruiting bodies.
...
PMID:Cloning and functional expression of a Dictyostelium discoideum protein tyrosine phosphatase. 822 77
The mechanisms for substrate recognition by two
cytoplasmic protein
tyrosine phosphatases, PTP-5 and rrbPTP-1, were investigated. Phosphorylation sites on tyrosine-phosphorylated casein, a model PTP substrate, were characterized. Two peptides based on casein phosphorylation sites and one peptide based on the tyrosine phosphorylation site of reduced, carboxamidomethylated and maleylated (RCM)
lysozyme
were tested as PTP substrates. The three peptides were dephosphorylated by PTP-5 and rrbPTP-1 at rates comparable to those of the corresponding sites on the intact proteins. This indicates that peptides based on the two model PTP substrates, casein and RCM-
lysozyme
, contained all or most of the structural information necessary for PTP-5 and rrbPTP-1 substrate recognition. Structural elements required for substrate recognition by PTP-5 and rrbPTP-1 were also investigated. Km values for dephosphorylation of three simple aromatic phosphate esters (phosphotyrosine, p-nitrophenyl phosphate, and phenyl phosphate) by rrbPTP-1 were about 5000-fold higher than those obtained for the peptide and protein substrates. This indicates that recognition of protein and peptide substrates involves structural elements in addition to the phosphate group and the aromatic tyrosine ring of phosphotyrosine. Analysis of the effects of truncations and Ala for polar substitutions on the reactivity with PTP-5 and rrbPTP-1 of peptides based on casein, RCM-
lysozyme
, and angiotensin II indicated that Asp or Glu within the first five residues on the N-terminal side of phosphotyrosine increased peptide reactivity with both PTP's. Asn residues were unable or only weakly able to substitute for Asp residues.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Acidic residues are involved in substrate recognition by two soluble protein tyrosine phosphatases, PTP-5 and rrbPTP-1. 824 Nov 30
Genomic mapping of mutations using next-generation sequencing technologies has facilitated the identification of genes contributing to fundamental biological processes, including human diseases. However, few studies have used this approach to identify mutations contributing to heterologous protein production in industrial strains of filamentous fungi, such as Aspergillus oryzae. In a screening of A. oryzae strains that hyper-produce human
lysozyme
(HLY), we previously isolated an AUT1 mutant that showed higher production of various heterologous proteins; however, the underlying factors contributing to the increased heterologous protein production remained unclear. Here, using a comparative genomic approach performed with whole-genome sequences, we attempted to identify the genes responsible for the high-level production of heterologous proteins in the AUT1 mutant. The comparative sequence analysis led to the detection of a gene (AO090120000003), designated autA, which was predicted to encode an unknown
cytoplasmic protein
containing an alpha/beta-hydrolase fold domain. Mutation or deletion of autA was associated with higher production levels of HLY. Specifically, the HLY yields of the autA mutant and deletion strains were twofold higher than that of the control strain during the early stages of cultivation. Taken together, these results indicate that combining classical mutagenesis approaches with comparative genomic analysis facilitates the identification of novel genes involved in heterologous protein production in filamentous fungi.
...
PMID:Comparative genomic analysis identified a mutation related to enhanced heterologous protein production in the filamentous fungus Aspergillus oryzae. 2740 39
