EC:3.2.1.17 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.17 (lysozyme)
21,489 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A bovine intestinal bacterial isolate, identified as Enterococcus hirae, was found to produce a bacteriocin (designated hiraecin S) inhibitory to Listeria monocytogenes and other Listeria spp. Identification to species level was determined by comprehensive biochemical and morphological tests which were verified by DNA-DNA homology assays. The antimicrobial agent was inactivated by pronase and papain and was insensitive to catalase. The antimicrobial activity was not due to hydrogen peroxide or acid formation, nor was lysozyme or muramidase activity observed in cell-free bacteriocin preparations. Inhibition of selected gram-negative bacteria was not observed. Other enterococci were sensitive to the bacteriocin, and except for Listeria spp., no other gram-positive bacteria tested were inhibited.
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PMID:Production of bacteriocin inhibitory to Listeria species by Enterococcus hirae. 148 76

The extracellular matrix influences the growth and differentiation of a variety of cell types. In this study, the effects of bone marrow extracellular matrix on U-937 cells, a human histiocytic lymphoma cell line, were assessed. Sixty percent of U-937 cells adhered to extracellular matrix, whereas only 1% adhered to uncoated plastic. U-937 cells grown on extracellular matrix released significantly more lysozyme into the medium (8.3 +/- 0.3 micrograms/10(6) cells) compared to those grown on plastic (4.2 +/- 0.5 micrograms/10(6) cells). FMLP (f-met-leu-phe) receptor expression was also enhanced suggesting a more mature phenotype in cells grown on matrix (2980 cpm/10(6) cells vs 230 cpm/10(6) cells on plastic). Furthermore, bone marrow extracellular matrix inhibited proliferation of U-937 cells. After four days in culture, there was a 65% inhibition of cell growth in matrix-coated flasks compared to uncoated flasks. Since an arrest in G0/G1 usually precedes mammalian cell differentiation, DNA histograms were performed on U-937 cells grown on matrix to detect such an arrest. However, the cell cycle distribution of U-937 cells grown on extracellular matrix or uncoated plastic for various time periods was similar. In contrast, bromodeoxyuridine pulse labeling revealed approximately a 5 hr prolongation in cycle length in cells grown on extracellular matrix. We conclude that bone marrow extracellular matrix induced macrophage-like differentiation and inhibited proliferation of U-937 cells with a prolongation of the cell cycle that was not G0/G1 phase specific.
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PMID:Bone marrow matrix promotes differentiation and prolongs the cell cycle of U-937 cells. 150 79

Rapid diagnosis of tuberculosis is essential, and therefore we use a polymerase chain reaction. In this report, we describe two cases of tuberculous lymphadenitis in childhood. Although histopathological findings were not specific for tuberculosis in both cases, distinct positive bands were amplified. For DNA diagnosis of tuberculosis, a lysis method of extracting chromosomal DNA from lipid-rich cell walls of mycobacteria is of critical importance. We made use of a simple lysozyme-proteinase K treatment for biopsied tissues. Although this extraction procedure was less efficient than those reported previously, it was considered sufficient for detecting mycobacterial DNA with the use of a highly sensitive polymerase chain reaction. We conclude that DNA amplification in combination with lysozyme lysis can be used routinely in clinical laboratories as a rapid and sensitive test for the diagnosis of tuberculosis.
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PMID:Polymerase chain reaction for detection of Mycobacterium tuberculosis. 151 57

In the chromatin domain of the chicken lysozyme gene of myeloid and oviduct cells, which both have the potential to activate the gene, a developmentally stable DNase I-hypersensitive site is formed around 6.1 kb upstream of the gene. This implies that this DNA region, which has previously been demonstrated to function as a transcriptional enhancer element in myeloid cells, is intimately involved in the cell-type-specific activation of the lysozyme gene locus. Deletion analysis identifies a 157-bp minimal fragment that confers the same promacrophage-specific enhancer activity as the originally described 562-bp -6.1-kb enhancer fragment. By introducing specific point mutations, we demonstrate in transient gene transfer experiments that the minimal fragment consists of at least six adjacent elements, each substantially contributing to enhancer function. The compact multifactorial enhancer complex includes a nuclear factor I (NF-I)/TGGCA binding site, homologies to AP1, and octanucleotide or enhancer core consensus motifs. Point mutation of the NF-I binding site results in the loss of NF-I binding in vitro and enhancer activity in vivo after gene transfer. Surprisingly, four overlapping oligonucleotides, each consisting of at least two elements of the -6.1-kb enhancer, confer myeloid-cell-specific enhancer activity. We found several myeloid-cell-specific DNA-binding proteins interacting with the -6.1-kb enhancer, a result consistent with that described above. Therefore, we suggest that more than a single trans-acting factor mediates the cell type specificity of the -6.1-kb enhancer.
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PMID:The -6.1-kilobase chicken lysozyme enhancer is a multifactorial complex containing several cell-type-specific elements. 156 54

The mouse M-lysozyme gene is exclusively expressed in myeloid cells of the blood system being progressively turned on upon cell differentiation. In this study the mechanism controlling this tissue- and differentiation stage-specific gene expression was analyzed at the level of chromatin structure. A complex pattern consisting of constitutive and differentiation dependent DNasel hypersensitive sites (HSs) was found in a set of various myeloid cell lines, representing different stages of maturity. The chromatin of a lymphoid cell line, which does not express the lysozyme gene, is completely insensitive to DNasel digestion. Chromatin analysis of two multipotent hematopoietic stem cell lines which can be differentiated in vitro to mature myeloid cells confirmed that these identified DNasel HSs are specific for distinct differentiation stages, rather than being a characteristic feature of the cell lines. Additionally, the stem cell studies revealed that the hypersensitivity of the chromatin domain is already established at the multipotent stage. DNA fragments spanning a cell type- and differentiation stage-specific cluster of HSs in the 3' region of the gene showed enhancer activity in all cell types tested. In the light of this lack of specificity, we suggest that cell type-specific modification of the chromatin structure in this region may play a role in determining the binding of a widespread transcription factor, and hence contribute to the time specificity of lysozyme M gene expression.
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PMID:The mouse M-lysozyme gene domain: identification of myeloid and differentiation specific DNasel hypersensitive sites and of a 3'-cis acting regulatory element. 157 93

Lysozyme gene expression is a specific marker for the macrophage/granulocyte lineage of hematopoietic differentiation in mammals, its expression being gradually increased during maturation. Analysis of the mechanisms regulating mouse M lysozyme gene expression during myeloid differentiation revealed a complicated pattern of DNase I hypersensitive sites (HS sites) within the flanking regions of the gene. The HS-3 site, located in the 3'-flanking region of the gene, overlapped with an enhancer element, which is the only strong enhancer identified in the vicinity of the gene. We demonstrate a positive correlation between undermethylation of the entire 3'-flanking region, the appearance of the HS-3 site, and M lysozyme gene expression during in vitro differentiation of hematopoietic stem cells. We furthermore show that methylation of a single CpG site within the enhancer core element, only observed in immature macrophage cells in vivo, is sufficient to inhibit nuclear factor binding to this element in vitro and to inhibit its transactivation potential in DNA transfection experiments.
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PMID:The involvement of demethylation in the myeloid-specific function of the mouse M lysozyme gene downstream enhancer. 157 94

We have developed a method using lysozyme for DNA extraction from Baculoviruses using as a model Lymantria dispar nuclear polyhedrosis virus (LdNPV) obtained from infected larvae. This method proved to be quick, inexpensive and the extracted DNA was successfully used in molecular hybridization experiments.
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PMID:A simple method for the extraction of baculovirus DNA. 159 9

We have developed a gene-cloning system in Micromonospora olivasterospora, a fortimicin A (astromicin) producer. Plasmids of Micromonospora from two strains of M. olivasterospora were used for construction of the vectors. Two antibiotic-resistance genes, nmrA and nmrB, cloned from a neomycin-producing Micromonospora, were introduced into these plasmids for the selection of transformants. In a new protoplasting protocol for lysozyme-resistant bacteria, protoplasts of M. olivasterospora were found in short-time incubation with lysozyme and transformed efficiently, indicating that the method was suitable to shotgun cloning. Using this system, seven biosynthetic genes for fortimicin A were cloned. Their physical maps revealed that at least four of these genes were clustered. Analysis of a cosmid library of M. olivasterospora showed that eleven biosynthetic genes and a self-defense gene existed in a region of approx. 25 kb of DNA.
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PMID:A novel, highly efficient gene-cloning system in Micromonospora applied to the genetic analysis of fortimicin biosynthesis. 161 53

A rapid method for the direct extraction of DNA from soil and sediments was developed. The indigenous microorganisms in the soil and sediments were lysed by using lysozyme and a freeze-thaw procedure. The lysate was extracted with sodium dodecyl sulfate and phenol-chloroform. In addition to a high recovery efficiency (greater than 90%), the yields of DNA were high (38 and 12 micrograms/g [wet weight] from sediments and soil, respectively). This method generated minimal shearing of the extracted DNA. The crude DNA could be further purified with an Elutip-d column if necessary. An additional advantage of this method is that only 1 g of sample is required, which allows for the analysis of small samples and the processing of many samples in a relatively short (7 h) period.
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PMID:Rapid method for direct extraction of DNA from soil and sediments. 164 49

Fibronectin secreted by macrophages may contribute to the development of pulmonary fibrosis. Prostaglandins are important regulators of macrophage metabolism whose role in the regulation of fibronectin production is not known. In this study, we examined the effects of PGE1 and indomethacin on human monocyte-derived macrophages exposed to these agents in culture for 10 to 14 days. Indomethacin (10 micrograms/ml) reduced the ratio of supernatant fibronectin to adherent cell DNA by 32%, p < 0.01, and reduced lysozyme/DNA by 29%, p < 0.0001. Exogenous PGE1 (1 ng/ml) did not affect fibronectin, but increased lysozyme/DNA by 27%, p < 0.01. In additional experiments, supernatant fibronectin and total protein synthesized in the presence of 3H-leucine were measured. Indomethacin (10 micrograms/ml) had no effect on total supernatant protein radioactivity, but reduced fibronectin/DNA by 33%, p < 0.001, and reduced fibronectin/total protein by 19%, p < 0.01. Since indomethacin increases macrophage secretion of plasminogen activator and interleukin-1, these experiments add to the evidence that specific secretory products of macrophages are regulated independently. We conclude that indomethacin at 10 micrograms/ml decreases the production of fibronectin and lysozyme by monocyte-derived macrophages. The modest size of the effect, and its absence at lower doses of indomethacin, indicate that prostaglandins are unlikely to have a major role in the regulation of macrophage production of fibronectin.
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PMID:Effects of indomethacin and prostaglandin E1 on the production of fibronectin and lysozyme by monocyte-derived macrophages in vitro. 166 50

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