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)

Monoclonal antibodies specific for the non-histone chromosomal protein HMG17 were used to isolate oligonucleosomes from the transcriptionally active chromatin of chicken liver and oviduct. The distribution of HMG17 with respect to the coding region of three genes was analyzed in these oligonucleosomes by employing two independent experimental approaches. In the vitellogenin II gene (active in liver) and the lysozyme and ovalbumin genes (active in oviduct) HMG17 was found only downstream from the respective starting points of transcription. The transition from HMG17-free to HMG17-containing chromatin is located at the transcription start. This directly demonstrates that the distribution of an abundant nuclear protein correlates with the observation of moderate DNase I-sensitivity in upstream regions and of high sensitivity in the coding regions of active genes.
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PMID:Chromatin from transcribed genes contains HMG17 only downstream from the starting point of transcription. 366 81

Dissection and reconstitution of the adenovirus DNA replication machinery has led to the discovery of two HeLa nuclear proteins which are required in conjunction with three viral proteins. One of these, nuclear factor I (NF-I), recognizes an internal region of the origin between nucleotides 25 and 40 and by binding to one side of the helix stimulates the initiation reaction up to 30-fold. NFI-binding sites have been observed upstream of several cellular genes, such as chicken lysozyme, human IgM and human c-myc, and coincide in most cases with DNase I hypersensitive regions. Here we report the identification of a novel DNA-binding protein from HeLa nuclei, designated NF-III, that recognizes a sequence in the adenovirus origin very close to the NFI-binding site, between nucleotides 36 and 54. This sequence includes the partially conserved nucleotides TATGATAATGAG. NF-III stimulates DNA replication four- to sixfold by increasing the initiation efficiency. Potential cellular binding sites include promoter elements of the histone H2B gene, the human interferon beta gene, the human and mouse immunoglobulin VK and VH genes and the mammal/chicken/Xenopus laevis U1 and U2 small nuclear RNA genes. Furthermore, a subset of the herpes simplex virus immediate early promoter specific TAATGARAT elements is homologous with the adenovirus 2 (Ad-2) NFIII-binding site.
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PMID:Nuclear factor III, a novel sequence-specific DNA-binding protein from HeLa cells stimulating adenovirus DNA replication. 374 45

We have determined the DNase I sensitive chromatin domain of the lysozyme gene in the hen oviduct. When nuclei were digested with DNase I, about 14 kb of upstream and 6 kb of downstream sequences in addition to the 4 kb long transcribed region were preferentially degraded. The transcription start site is located near the center of the approximately 24 kb long sensitive domain. At the 3' boundary there is a rather abrupt transition from the DNase I sensitive to the resistant chromatin configuration whereas at the 5' border this transition occurs in a gradual fashion over 6-7 kb of DNA. No obvious correlation between the boundaries of the domain and repetitive sequences could be established. DNase I-hypersensitive sites are clustered within the boundaries of the sensitive domain which seems to represent a functional unit of the gene.
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PMID:The DNase I sensitive domain of the chicken lysozyme gene spans 24 kb. 374 4

A 10-kilobase DNA fragment containing exons 1 and 2 of the chicken lysozyme gene has been randomly cleaved with DNase I. After tailing and cloning into the plasmid pUK230, Lac+ colonies were selected. Colonies harboring expressed fragments of the exons could be detected by an immunoenzymatic assay using antibodies against lysozyme. The smallest fragment coded for 10 amino acids and the largest coded for almost all residues of exon 2. These results suggest that any gene of any genome cloned in this way can be detected if antibodies against the gene product are available.
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PMID:Exon cloning: immunoenzymatic identification of exons of the chicken lysozyme gene. 618 17

The structural organization of chromatin is thought to determine the state of differentiation and activity of eukaryotic genes. Local interruptions of the regular nucleosomal array, the so-called DNase-hypersensitive sites, may indicate regions of the genome which play a critical part in regulation of differential gene activity. We present here two new observations on the chromatin structure of the chicken lysozyme gene, which strongly support a regulatory function for these sites. First, different sets of DNase I-hypersensitive sites have been found upstream from the promoter, depending on whether the gene is constitutively expressed (cultured macrophages) or in the steroid hormone-controlled state (oviduct). It seems, therefore, that diverse modes of regulation of the same gene are associated with discrete patterns of DNase I hypersensitivity. Second, one of the DNase I-hypersensitive sites in the oviduct chromatin disappears and reappears on steroid hormone withdrawal and secondary induction. These reversible changes in a narrow chromatin region reflect the transition from the potentially active to the active state of the lysozyme gene.
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PMID:Alternative sets of DNase I-hypersensitive sites characterize the various functional states of the chicken lysozyme gene. 623 74

Induction of a virus infection by cloned simian virus 40 DNA was chosen as a test system to detect transfer of genes from bacteria to cultured mammalian cells. Escherichia coli cells containing a recombinant plasmid with three tandem inserts of simian virus 40 DNA were able to infect CV-1 monkey cells under various conditions. The gene transfer was resistant to DNase I and therefore seems not to occur via free DNA but most likely via uptake of whole bacteria, followed by release of plasmid DNA and generation of infectious circular simian virus 40 DNA in a recombination-excision process. Spontaneous transfer was found to be infrequent, 4 x 10(9) bacteria yielding one infection per 10(7) monkey cells. The frequency was greatly increased by adding bacteria as a calcium phosphate coprecipitate or by fusion of lysozyme-treated bacteria (protoplasts) with monkey cells in the presence of polyethylene glycol. With the latter technique, 10(4) protoplasts gave rise to one infection per 15 monkey cells. Experiments with other cell lines of human, monkey, and mouse origin, and also with bacteria harboring another recombinant plasmid, indicate that DNA transfer from bacteria to mammalian cells is a general phenomenon.
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PMID:Direct transfer of cloned genes from bacteria to mammalian cells. 624 25

ARBP is a nuclear protein that specifically binds to matrix/scaffold attachment regions (MARs/SARs). Here we characterize by DNase I footprinting, dimethyl sulfate protection, and mobility shift assays two binding sites for ARBP within a chicken lysozyme MAR fragment. Our results indicate that ARBP recognizes a novel DNA sequence motif containing the central sequence 5'-GGTGT-3' and flanking AT-rich sequences. Binding occurs through major groove contacts to two guanines of the central sequence. Collective and single-base substitutions in the 5'-GGTGT-3' core motif result in loss or significant reductions of ARBP binding, underscoring the importance of the GC-rich core sequence. Structural elements of the sequence motif are probably also recognized. The affinity of ARBP to both binding sites is surprisingly high [KD = (2-6) x 10(-10) M]. High-affinity recognition of the identified DNA motif in MARs/SARs by ARBP is likely an important feature in the domain organization of chromatin.
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PMID:Nuclear matrix protein ARBP recognizes a novel DNA sequence motif with high affinity. 769 75

The chicken lysozyme locus is regulated in oviduct and macrophages by a complex set of well-characterized cis-regulatory DNA elements. We determined the DNase I hypersensitive chromatin site pattern of the chromatin of the lysozyme locus in retrovirally transformed cell lines representing different stages of myelomonocytic cell differentiation. In the transformed multipotent progenitor stage and in erythroblasts, only a DNase I hypersensitive chromatin site at a silencer element located -2.4 kb upstream of the transcriptional start site is present. At the myeloblast stage DNase I hypersensitive chromatin sites are formed both at the distal enhancer located at -6.1 kb and at the promoter. Later in differentiation, at the monocytic stage, a second DNase I hypersensitive chromatin site appears at the medial enhancer located at -2.7 kb. Parallel with DNase I hypersensitive chromatin site formation at the medial enhancer, the DNase I hypersensitive chromatin site at the silencer element disappears. These chromatin rearrangements correlate with the mRNA expression of the gene that is undetectable in multipotent progenitors and maximal in a lipopolysaccharide-stimulated monocyte cell line. Our results show that the chromatin structure and the transcriptional activity of the gene are tightly coupled during commitment and maturation of the myelomonocytic lineage.
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PMID:Dynamic changes in the chromatin of the chicken lysozyme gene domain during differentiation of multipotent progenitors to macrophages. 774 89

The complete chicken lysozyme gene locus is expressed copy number dependently and at a high level in macrophages of transgenic mice. Gene expression independent of genomic position can only be achieved by the concerted action of all cis regulatory elements located on the lysozyme gene domain. Position independency of expression is lost if one essential cis regulatory region is deleted. Here we compared the DNase I hypersensitive site (DHS) pattern formed on the chromatin of position independently and position dependently expressed transgenes in order to assess the influence of deletions within the gene domain on active chromatin formation. We demonstrate, that in position independently expressed transgene all DHSs are formed with the authentic relative frequency on all genes. This is not the case for position dependently expressed transgenes. Our results show that the formation of a DHS during cellular differentiation does not occur autonomously. In case essential regulatory elements of the chicken lysozyme gene domain are lacking, the efficiency of DHS formation on remaining cis regulatory elements during myeloid differentiation is reduced and influenced by the chromosomal position. Hence, no individual regulatory element on the lysozyme domain is capable of organizing the chromatin structure of the whole locus in a dominant fashion.
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PMID:Chromosomal position effects in chicken lysozyme gene transgenic mice are correlated with suppression of DNase I hypersensitive site formation. 793 45

The entire chicken lysozyme gene locus including all known cis-regulatory sequences and the 5' and 3' matrix attachment sites defining the borders of the DNase I sensitive chromatin domain, is expressed at a high level and independent of its chromosomal position in macrophages of transgenic mice. It was concluded that the lysozyme gene locus carries a locus control function. We analysed several cis-regulatory deletion mutants to investigate their influence on tissue specificity and level of expression. Position independent expression of the gene is lost whenever one of the upstream tissue specific enhancer regions is deleted, although tissue specific expression is usually retained. Deletion of the domain border fragments has no influence on copy number dependency of expression. However, without these regions an increased incidence of ectopic expression is observed. This suggests that the domain border fragments may help to suppress transgene expression in inappropriate tissues. We conclude, that position independent expression of the lysozyme gene is not controlled by a single specific region of the locus but is the result of the concerted action of several tissue specific upstream regulatory DNA elements with the promoter.
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PMID:Dissection of the locus control function located on the chicken lysozyme gene domain in transgenic mice. 793 46

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