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Query: EC:3.1.31.1 (
micrococcal nuclease
)
2,818
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We performed a high resolution analysis of the chromatin structure within the regions required for distal transcription of the Drosophila melanogaster
alcohol dehydrogenase
gene (Adh). Using dimethyl sulfate, DNase I, and
micrococcal nuclease
as structural probes, and comparing chromatin structure in tissues isolated from several developmental stages, we have identified several sites of stage- and tissue-specific DNA-protein interactions that correlate with distal transcription initiation. Most were within previously identified cis-acting elements and/or in vitro protein binding sites of the adult enhancer (AAE) and distal promoter, including the TATA box. We also detected a novel stage-specific DNA-protein interaction at the Adf-2a binding site where a non-histone protein was bound to the DNA on the surface of a positioned nucleosome previously identified between the distal promoter and adult enhancer. In addition to footprints, we have also revealed stage- and tissue-specific DNA helix deformations between many of the non-histone protein binding sites. These helix distortions suggest there are interactions among the adjacently bound proteins that result in bending or kinking of the intervening DNA. The distal promoter and AAE have an accessible chromatin conformation in fat body prior to the third larval instar and many of the regulatory proteins that bind in these regions are also available before distal transcription begins. Nevertheless, the timing of DNA-protein interactions in the distal promoter and AAE suggest these proteins do not bind individually or assemble progressively as they and their binding sites become available. Instead, there appears to be a coordinated assembly of a large cooperative complex of proteins interacting with the distal promoter, the positioned nucleosome, the enhancer of the distal promoter (the AAE), and each other.
...
PMID:In vivo stage- and tissue-specific DNA-protein interactions at the D. melanogaster alcohol dehydrogenase distal promoter and adult enhancer. 143 59
The pattern of sites within purified DNA that are highly susceptible to double-stranded cleavage by
micrococcal nuclease
has been analyzed in the vicinity of over 20 genes from widely separated loci in Drosophila. These genes have uniformly exhibited a distinctive organization of cleavage sites such that at early times of digestion major sites are observed in the spacer regions surrounding the genes, but not within the protein coding regions themselves. Examples examined include Drosophila genes for heat-shock proteins, cytoplasmic actin, ribosomal protein 49,
alcohol dehydrogenase
, Sgs 4 glue protein, and other developmentally regulated transcripts, a human beta-globin gene, and mouse alpha 3-globin pseudogene. It seems probable that this gene/spacer pattern will be a general one in the genomes of eucaryotes, but not in the genomes of procaryotes, since neither pBR322 nor phage lambda DNA display such a pattern. One observes a nonrandom spacing of strong cleavage sites in Drosophila DNA, with the most frequent intervals being 195 bp and 411 bp. Such a pattern of variation in DNA structure may have evolved to facilitate the packaging of eucaryotic DNA into chromatin.
...
PMID:Patterns of DNA structural polymorphism and their evolutionary implications. 631 4
Two classes of beta-sheet to beta-sheet packing can be distinguished in globular proteins. Both classes have beta sheets with the usual right-handed twist packed face to face. In orthogonal beta-sheet packings, the strand directions of the different beta sheets are 90 degrees to each other. Twisted beta sheets in this orientation have anticomplementary surfaces: one pair of diagonally opposite corners in the beta sheets is very close, and the other pairs of corners splay apart. At the close corners, the beta sheets are usually covalently connected: a strand that is part of one beta sheet turns through a right-handed bend to become part of the second beta sheet. The bend may occur at a beta bulge, or over a stretch of residues with a characteristic conformation, forming what we call a beta bend. Contacts between the beta sheets occur along the diagonal joining the close corners. They improve about one-fourth of the beta-sheet residues, and two-thirds of them are Val, Ile, or Leu. Elsewhere, the space between the beta sheets is filled by side chains from other parts of the protein, often alpha helices placed at the splayed corners. Examples of orthogonal beta-sheet packing are found in
alcohol dehydrogenase
, the acid proteases, the trypsin family, papain,
staphylococcal nuclease
, and thermolysin. In aligned beta-sheet packings, the angle between the strand directions of the packed beta sheets is approximately -30 degrees. In this orientation, the twisted beta-sheet surfaces are complementary. The principles governing this class of beta-sheet packings have been described previously. Here we discuss the difference and similarities of the aligned and orthogonal packing classes.
...
PMID:Orthogonal packing of beta-pleated sheets in proteins. 675 82
The
alcohol dehydrogenase
gene (Adh) of Drosophila melanogaster is transcribed from two tandem promoters in distinct developmental and tissue-specific patterns. Both promoters are regulated by separate upstream enhancer regions. In its wild-type context the adult enhancer specifically stimulates only the distal promoter, approximately 400 bp downstream, and not the proximal promoter, which is approximately 700 bp further downstream. Genomic footprinting and
micrococcal nuclease
analyses have revealed a specifically positioned nucleosome between the distal promoter and adult enhancer. In vitro reconstitution of this nucleosome demonstrated that DNA-core histone interactions alone are sufficient to position the nucleosome. Based on this observation and sequence periodicities in the underlying DNA, the mechanism of positioning appears to involve specific DNA structural features (ie flexibility or curvature). We have observed this nucleosome positioned early during development, before tissue differentiation, and before non-histone protein-DNA interactions are established at the distal promoter or adult enhancer. This nucleosome positioning element in the Adh regulatory region could be involved in establishing a specific tertiary nucleoprotein structure that facilitates specific cis-element accessibility and/or distal promoter-adult enhancer interactions.
...
PMID:DNA-histone interactions are sufficient to position a single nucleosome juxtaposing Drosophila Adh adult enhancer and distal promoter. 845 Nov 95
Aurintricarboxylic acid (ATA), an inhibitor of Ca(2+)-dependent endonuclease activity, is often used to implicate a role for increased intracellular calcium in mechanistic toxicology studies. We report here on the ability of ATA to inhibit the activity of several NAD(H)/NADP(H)-requiring enzymes (purified or cellular homogenates), including lactic dehydrogenase,
alcohol dehydrogenase
, cytochrome c reductase, ethoxycoumarin o-dealkylase, isocitric dehydrogenase, glutathione reductase and glucose-6-phosphate dehydrogenase. These results were compared with the ability of ATA to inhibit
micrococcal nuclease
and rat liver Ca(2+)-dependent endonuclease activity in similar incubations. With the exception of
alcohol dehydrogenase
, ATA was a potent inhibitor of each of the purified enzymes, with IC50s ranging from 0.5 to 82 microM. In cell homogenates, however, ATA was from 10 to 100-fold less potent at inhibiting these enzymes. When exogenous protein was added to purified enzyme incubations, the effect of ATA was similarly diminished. Our results demonstrate that ATA inhibits a wide range of NAD(H)/NADP(H)-requiring enzymes in in vitro incubations using purified enzymes, but that the inhibitory effects are markedly reduced in incubations which more closely resemble a cellular milieu.
...
PMID:Inhibition of NAD(H)/NADP(H)--requiring enzymes by aurintricarboxylic acid. 855 68
