DrugBank:BIOD00001 - FACTA Search

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Query: DrugBank:BIOD00001 (DNase I)
8,324 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Wheat DNA polymerase A has been purified from wheat germ. The previous purification procedure (Castroviejo, M. et al. (1979) Biochem. J. 181, 183-191; Tarrago-Litvak, L. et al. (1975) FEBS Lett. 59, 125-130), has been improved leading to a higher degree of purity. Several biochemical properties of the enzyme are described. Interestingly, wheat DNA polymerase A is able to copy natural poly(A)+ mRNA into cDNA, in a way that is similar to that of the human immunodeficiency virus reverse transcriptase (HIV-RT). All four dXTP and the oligo dT primer were required for cDNA synthesis. The cDNA product was completely digested in the presence of DNase I and predigestion of the mRNA template with RNase decreased dramatically the cDNA synthesis. The animal DNA polymerase gamma can not copy natural mRNA. Substances, known to alter the enzymatic activities have been used to compare enzymes properties. In the presence of glycerol, ethidium bromide or spermine, wheat DNA polymerase A, HIV-RT and DNA polymerase gamma behave similar and they differ from animal DNA polymerase alpha. Nevertheless, DNA polymerase A is more resistant than HIV-RT and DNA polymerase gamma to the chain terminator ddTTP, while the wheat enzyme is more inhibited than DNA polymerase gamma but more resistant than HIV-RT in the presence of N3-TTP.
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PMID:Wheat embryo DNA polymerase A reverse transcribes natural and synthetic RNA templates. Biochemical characterization and comparison with animal DNA polymerase gamma and retroviral reverse transcriptase. 169 Oct 20

Transcriptional regulation of the proviral form of the human immunodeficiency virus type 1 (HIV-1) is exerted by its 5' long terminal repeat (LTR), which contains recognition sites for several cell factors. By gel retardation and DNase I footprinting experiments we have identified a binding site for a human nuclear protein between nucleotides -152 to -174 upstream of transcription start site, in a region previously recognized as a negative regulator of transcription (negative regulatory element, NRE). The recognized sequence contains the dyad symmetry element CACGTG, which represents a binding motif, very conserved through evolution, present in a putative human DNA replication origin (pB48), in the upstream element of the major late promoter (MLP-UE) of adenovirus, and, as transcriptional element, upstream of many eukaryotic genes. Common binding activities exist in human nuclear extracts for pB48, MLP-UE and the HIV-1 LTR; at least three protein species recognize the LTR sequence, of 44 (corresponding to transcription factor USF/MLTF), 70, and 110 kDa, respectively. Chloramphenicol acetyltransferase assays suggest that the USF/MLTF binding site located in the HIV-1 LTR acts as a negative regulator of transcription, and that it contributes to the overall negative function exerted by the NRE. An oligonucleotide corresponding to another characterized human USF/MLTF binding site can functionally replace part of the activity of the NRE. This negative function is exerted both in presence or absence of tat transactivation, in different cell lines, and after PMA stimulation.
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PMID:A human binding site for transcription factor USF/MLTF mimics the negative regulatory element of human immunodeficiency virus type 1. 172 95

Regulation of eukaryotic genes is largely governed by multiple cis-acting DNA sequences recognized by specific transcription factors. The transcription factor NF-kappa B has been implicated as an important regulator of cellular and viral genes, including those of immunoglobulin kappa light chain, interleukin-2, beta-interferon, HIV-1 and cytomegalovirus. We have analyzed the effect of increasing the number of NF-kappa B sites, located directly upstream from the TATA box. Four copies of the sequence gave a more than 100-fold stimulation relative to a single copy, suggesting that NF-kappa B proteins act synergistically to bring about this dramatic increase in transcription. By DNase I footprinting we demonstrated factor binding to two adjacent NF-kappa B sites in vitro. However, we found no evidence for co-operative binding to these DNA sites. We propose that the high transcriptional activity results from another type of co-operation, based on multiple weak interactions of the NF-kappa B factors with another component of the transcription apparatus, perhaps RNA polymerase II itself.
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PMID:Synergistic activation of transcription by multiple binding sites for NF-kappa B even in absence of co-operative factor binding to DNA. 219 80

Human EBP1, isolated from HeLa cells, binds to a 10-base-pair (bp) sequence in cellular and viral enhancers that is also recognized by the inducible transcription factor NF-kappa B. Here we describe the interaction of purified EBP1 with the 10-bp repeated sequence that is responsive to signals which activate T cells and which form part of the human immunodeficiency virus type 1 (HIV-1) enhancer. DNase I footprinting indicates that both 10-bp sites on the same molecule, located between -80 and -105 on the HIV-1 long terminal repeat, can be occupied by EBP1, while dimethyl sulfate protection and methylation interference experiments indicate which purine bases are in contact with the protein. The presence of bases which exhibit increased rates of dimethyl sulfate-induced methylation in the presence of EBP1 indicate that interaction of EBP1 with its recognition site is accompanied by distortion of the DNA double helix. Supporting this conclusion is the observation that the polyamine spermidine dramatically increases EBP1 binding to its cognate site on the DNA. Studies with human T cells (Jurkat) and nucleotide stimulation data suggest that EBP1 is the activated form of NF-kappa B in these cells.
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PMID:Interaction of enhancer-binding protein EBP1 (NF-kappa B) with the human immunodeficiency virus type 1 enhancer. 240 59

The region containing two copies of the sequence GGGACTTTCC in the human immunodeficiency virus type 1 (HIV-1) long terminal repeat, that is an NF-kappa B binding site, functions as an enhancer element for HIV transcriptional regulation. By a Southwestern method we have isolated a cDNA encoding the HIV-1 enhancer binding protein (HIV-EP1) from a human B-cell lambda gt11 library. DNase I footprinting analysis using the HIV-EP1 protein expressed in Escherichia coli showed that HIV-EP1 specifically bound to the HIV-1 enhancer. HIV-EP1 protein contains a domain with two tandem "zinc finger" sequences initially described in the Xenopus transcription factor IIIA. This represents the first demonstration of the structural feature of the protein that binds to the HIV-1 enhancer.
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PMID:Putative metal finger structure of the human immunodeficiency virus type 1 enhancer binding protein HIV-EP1. 250 7

Five regions of the human immunodeficiency virus type 1 (HIV-1) long terminal repeat (LTR) have been shown to be important in the transcriptional regulation of HIV in HeLa cells. These include the negative regulatory, enhancer, SP1, TATA, and TAR regions. Previous studies in which purified SP1 was used showed that the three SP1-binding sites in the HIV LTR were important in the in vitro transcription of this promoter. However, no studies to ascertain the role of each of these SP1-binding sites in basal and tat-induced transcriptional activation in vivo have been reported. To determine the role of SP1 sites in transcriptional regulation of the HIV LTR in vivo, these sites were subjected to oligonucleotide mutagenesis both individually and in groups. The constructs were tested by DNase I footprinting with both oligonucleotide affinity column-purified SP1 and partially purified HeLa extract and by chloramphenicol acetyltransferase assays in both the presence and absence of the tat gene. Mutagenesis of each SP1-binding site resulted in minimal changes in basal and tat-induced transcriptional activation. Mutations involving alterations of SP1 sites I and II, I and III, or II and III also resulted in minimal decreases in basal and tat-induced transcriptional activation. However, mutagenesis of all three SP1-binding sites resulted in a marked decrease in tat induction. The latter mutation also greatly decreased DNase I protection over the enhancer, TATA, and TAR regions when partially purified HeLa nuclear extract was used. Mutagenesis of the HIV LTR SP1 sites which converted them to consensus high-affinity SP1-binding sites with the sequence GGGGCGGGGC resulted in increased tat-induced gene expression compared with the wild-type HIV LTR template. These results suggest that SP1, through its interaction with other DNA-binding proteins, is critical for in vivo transcriptional regulation of HIV.
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PMID:Role of SP1-binding domains in in vivo transcriptional regulation of the human immunodeficiency virus type 1 long terminal repeat. 265

We used site-directed mutagenesis to delineate sequences within the human immunodeficiency virus type I (HIV-I) long terminal repeat (LTR) required for trans-activation by the viral tat gene product. We demonstrated that sequences 3' to LTR position +44 are dispensable for trans-activation but that almost all of the mutations tested located between positions -17 and +44 greatly reduced trans-activation at both the transcriptional and posttranscriptional levels. However, displacement of the HIV-I LTR trans-activation-responsive region (TAR) 3' by insertion of up to 32 base pairs between the LTR TATA box and cap site had little effect on trans-activation. An analysis of the DNase I hypersensitivity profile of the HIV-I LTR in transfected cultures suggested the presence of at least two DNase I-hypersensitive sites, including one which extends into the viral TAR element; however, neither of these sites appeared to be significantly affected by tat coexpression. These results allow more precise delineation of the sequences important for TAR function and suggest that the TAR may be recognized by a host-specific DNA-binding protein rather than by the tat protein directly.
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PMID:Mutational analysis of the trans-activation-responsive region of the human immunodeficiency virus type I long terminal repeat. 282 63

Transcription of the human immunodeficiency virus type 1 (HIV-1) is regulated by viral proteins and cellular factors that bind to the viral long terminal repeat (LTR). At least five regions of the HIV LTR serve as binding sites for HeLa cellular proteins. One region containing two copies of the sequence GGGACTTTCC functions as an enhancer element for HIV transcriptional regulation. Another region between -17 and +44 known as the TAR region contains two copies of the sequence CTCTCTGG and is also important in tat-induced activation of the HIV LTR. HeLa cell extracts were used to purify cellular proteins binding to portions of the enhancer region (EBP-1) and the TAR region (UBP-1) by a combination of conventional and DNA affinity chromatography. Several species of proteins of between 55 and 60 kd were found to bind to specific sequences in the enhancer region and these proteins also bound to a portion of the NF-kappa B binding site in the immunoglobulin kappa enhancer. Two proteins of between 61 and 63 kd were the major species found to bind to specific sequences in the TAR region and fractions containing these proteins also bind to the TATA region. Both UBP-1 and EBP-1 exhibited specific binding as demonstrated by both UV cross-linking and DNase I footprinting. Mutations of either the enhancer or TAR regulatory regions prevented binding of these purified factors. These results demonstrate the binding of highly purified cellular proteins to important transcriptional regulatory regions in the HIV LTR.
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PMID:Purification of the human immunodeficiency virus type 1 enhancer and TAR binding proteins EBP-1 and UBP-1. 313 13

The transition from persistent to lytic infection by the human immunodeficiency virus, HIV, is marked by a burst of viral replication and gene expression that occurs when infected cells are stimulated by physiological inducers or tumor promoters like 12-O-tetradecanoyl phorbol acetate (TPA). We report here that the HIV enhancer is activated specifically by TPA in several non-lymphoid cell types, and that this transcriptional regulation can be reproduced in a cell-free system. In vitro transcription experiments revealed a 6-fold activation of the HIV promoter in nuclear extracts prepared from TPA-induced HeLa tk- cells, whereas a control (human alpha-globin) promoter was transcribed with equal efficiency in either induced or uninduced cell extracts. A corresponding increase in the activity of a cellular DNA-binding protein that interacts with the HIV enhancer was detected in TPA-treated cells with DNase I footprint experiments. This increase occurred in the absence of de novo protein synthesis, suggesting a post-transcriptional activation mechanism. Analysis of HIV deletion mutants suggests that the enhancer is the target for the TPA effect both in vitro and in vivo. The cell-free system described here should facilitate studies on the mechanism of phorbol ester induction of gene-specific transcription factors.
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PMID:In vitro activation of the HIV-1 enhancer in extracts from cells treated with a phorbol ester tumor promoter. 344 2

Replication complexes containing wild-type and RNase H-deficient p66/p51 human immunodeficiency virus type 1 reverse transcriptase (HIV-1 RT) were analyzed by DNase I and S1 footprinting. While crystallography and chemical footprinting data demonstrate that 15-18 bases of primer and template occupy the DNA polymerase and RNase H active centers, enzymatic footprinting suggests that a larger portion of substrate is encompassed by the replicating enzyme. Independent of the position of DNA synthesis arrest, template nucleotides +7 to -23 and primer nucleotides -1 to -25 are nuclease resistant. On both DNA strands, position -20 remains accessible to DNase I cleavage, suggestive of an alteration in nucleic acid structure between exiting the RNase H catalytic center and leaving the C-terminal p66 domain. A model of HIV-1 RT containing an extended single-stranded template and duplex region was constructed on the basis of the structure of an RT/DNA complex. Mapping of footprint data onto this model shows consistency between biochemical and structural data, implicating a contribution from domains proximal to the catalytic centers.
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PMID:An expanded model of replicating human immunodeficiency virus reverse transcriptase. 753 89

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