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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)
The association of [125I]T3-receptor complexes with C6 cell chromatin was analyzed after a limited digestion with
micrococcal nuclease
(MN) or DNase I. Both nucleases solubilized up to 60-70% of receptor and 0.4 M KCl extracted 70% of the non-digested receptor, thus showing that only a residual fraction of receptor is associated with the nuclear matrix. With DNase I the receptor was released 2-3-fold faster than the bulk of chromatin, whereas a preferential release of receptor over total chromatin was not observed with MN. The digestion of receptor with DNase I and MN occurred 14- and 6-fold faster, respectively, than the appearance of PCA-soluble chromatin. Preincubation for 48 h with 4 nM T3 of 2 mM butyrate significantly altered receptor levels but did not change sensitivity to the nucleases. These results suggest that the
thyroid hormone receptor
is associated with chromatin highly sensitive to nuclease digestion, and that changes in receptor number are not associated with changes in its distribution in chromatin.
...
PMID:Organization of the thyroid hormone receptor in the chromatin of C6 glial cells: evidence that changes in receptor levels are not associated with changes in receptor distribution. 275 41
High affinity-low capacity binding sites for thyroid hormone have been identified in the nuclei of glial (C6) and neuronal (Neuro 2A) cultured cells. Equilibrium dissociation constants, determined by Scatchard analysis, were very similar in both types of cells (0.2-0.3 nM). The relative affinity of hormonal analogs was also similar: the affinity for T3 was lower than for triiodothyroacetic acid and higher than for T4 or tetraiodothyroacetic acid. The sedimentation coefficients obtained by gradient centrifugation of nuclear receptor extracted with 0.4 M KCl or excised by
micrococcal nuclease
digestion were 3.5 S and 6.5 S, respectively. These results suggest that the
thyroid hormone receptor
is not restricted to neuronal cells, but also appears in cells of glial origin.
...
PMID:Identification and characterization of L-triiodothyronine receptors in cells of glial and neuronal origin. 376 67
The
thyroid hormone receptor
is a chromatin-associated protein which appears to mediate the actions of the thyroid hormones in mammalian cells. Unlike steroid hormone receptors, a cytoplasmic form of the receptor has not been identified, and the factors which govern the nuclear concentrations of the receptor are poorly understood. Using cultured GH1 cells, a rat pituitary cell line, we having previously demonstrated that thyroid hormones reduces the concentration of its receptor by a mechanism which involves the association of the ligand with the receptor binding site (Samuels, H.H., Stanley, F., and Shapiro, L.E. (1977) J. Biol. Chem. 252, 6052-6060). In this study, we demonstrate that n-butyrate and other aliphatic carboxylic acids elicit a reduction of thyroid hormone nuclear receptor levels without altering total cell protein synthetic rates. In contrast, the nuclear association and total cell level of the glucocorticoid receptor is not altered by n-butyrate. Evidence is presented that the aliphatic carboxylic acid-mediated reduction of thyroid hormone nuclear receptor levels is secondary to the inhibitory effect of these compounds on chromatin-associated deacetylases which is reflected as an increase in the acetylation of the nucleosome core histones. Isokinetic gradient centrifugation of chromatin solubilized from GH1 cell nuclei by
micrococcal nuclease
indicates that the receptor exists as a form associated with high molecular weight chromatin, as a 12.5 S form that sediments slightly faster than the bulk of the mononucleosomes, and as a 6.5 S form which appears to remain associated with low molecular weight chromatin components. Exclusive of the receptor associated with the high molecular weight chromatin, the 6.5 S form represents 80% and the 12.5 S form 10% of the receptor resolved in the gradient. n-Butyrate decreases both forms to the same degree suggesting that they are generated from the same "entity" of chromatin structure. Studies on the reappearance of receptor after restoration of the chromatin to the "normal" acetylated state are consistent with a model in which the affinity of chromatin for newly synthesized receptor is diminished in the "hyperacetylated" state.
...
PMID:Thyroid hormone nuclear receptor levels are influenced by the acetylation of chromatin-associated proteins. 624 82
The Xenopus
thyroid hormone receptor
betaA (TRbetaA) gene contains an important thyroid hormone response element (TRE) that is assembled into a positioned nucleosome. We determine the translational position of the nucleosome containing the TRE and the rotational positioning of the double helix with respect to the histone surface. Histone H1 is incorporated into the nucleosome leading to an asymmetric protection to
micrococcal nuclease
cleavage of linker DNA relative to the nucleosome core. Histone H1 association is without significant consequence for the binding of the heterodimer of
thyroid hormone receptor
and 9-cis retinoic acid receptor (TR/RXR) to nucleosomal DNA in vitro, or for the regulation of TRbetaA gene transcription following microinjection into the oocyte nucleus. Small alterations of 3 and 6 bp in the translational positioning of the TRE in chromatin are also without effect on the transcriptional activity of the TRbetaA gene, whereas a small change in the rotational position of the TRE (3 bp) relative to the histone surface significantly reduces the binding of TR/RXR to the nucleosome and decreases transcriptional activation directed by TR/RXR. Our results indicate that the specific architecture of the nucleosome containing the TRE may have regulatory significance for expression of the TRbetaA gene.
...
PMID:Structural and functional features of a specific nucleosome containing a recognition element for the thyroid hormone receptor. 938 90
Histone deacetylase and chromatin assembly contribute to the control of transcription of the Xenopus TRbetaA gene promoter by the heterodimer of Xenopus
thyroid hormone receptor
and 9-cis retinoic acid receptor (TR-RXR). Addition of the histone deacetylase inhibitor Trichostatin A (TSA) relieves repression of transcription due to chromatin assembly following microinjection of templates into Xenopus oocyte nuclei, and eliminates regulation of transcription by TR-RXR. Expression of Xenopus RPD3p, the catalytic subunit of histone deacetylase, represses the TRbetaA promoter, but only after efficient assembly of the template into nucleosomes. In contrast, the unliganded TR-RXR represses templates only partially assembled into nucleosomes; addition of TSA also relieves this transcriptional repression. This result indicates the distinct requirements for chromatin assembly in mediating transcriptional repression by the deacetylase alone, compared with those needed in the presence of unliganded TR-RXR. In addition, whereas hormone-bound TR-RXR targets chromatin disruption as assayed through changes in minichromosome topology and loss of a regular nucleosomal ladder on
micrococcal nuclease
digestion, addition of TSA relieves transcriptional repression but does not disrupt chromatin. Thus, TR-RXR can facilitate transcriptional repression in the absence of hormone through mechanisms in addition to recruitment of deacetylase, and disrupts chromatin structure through mechanisms in addition to the inhibition or release of deacetylase.
...
PMID:Distinct requirements for chromatin assembly in transcriptional repression by thyroid hormone receptor and histone deacetylase. 943 Jun 43
