Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

I have measured the effect of hormones and other regulatory factors present in the serum component of the culture medium on the levels of growth hormone and prolactin mRNAs in rat pituitary (GH4) cells. Hybridization of cytoplasmic RNA with growth hormone or prolactin cDNA clones indicate that serum depletion reduces significantly the amount of these two mRNAs. The localization of these two genes in chromatin was also analysed using micrococcal nuclease as a probe. At intermediate levels of digestion (about 10% of the input A260 released into a soluble supernatant S1), the bulk of both growth hormone and prolactin genes are rapidly solubilized by the nuclease and appear in the soluble supernatant S1. Nevertheless, at low levels of digestion (less than 4% of the input A260 released into S1) the growth hormone gene remains exquisitively sensitive to micrococcal nuclease while the sensitivity of the prolactin gene is reduced considerably. When one compares the distribution of growth hormone and prolactin genes in chromatin fractions differing in nuclease sensitivity and derived from cells grown in control medium or in depleted medium, it appears that markedly reduced transcriptional activity of the prolactin gene shows no correlation with altered chromatin structure. On the other hand, the chromatin structure of the growth hormone gene is significantly altered when transcription is markedly reduced.
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PMID:Modulations of prolactin and growth hormone gene expression and chromatin structure in cultured rat pituitary cells. 668 34

N6-Methyladenosine is found at internal positions of mRNA in higher eukaryotes. This post-transcriptional modification occurs at a frequency of one to three methylation/average mRNA molecule in mammalian cell lines and is sequence-specific. A highly conserved consensus recognition site for the methyltransferase has been determined from both viral and cellular messages, consisting of the sequence Pu(G/A)AC(U/A) (with A being methylated). Despite the ubiquity and the specificity of this modification, little is known about the mechanism of formation of N6-methyladenosine. Utilizing an in vitro methylation system from HeLa cell nuclear extracts, and a substrate RNA derived from the mRNA coding for bovine prolactin, the mRNA N6-adenosine methyltransferase has been characterized and partially purified. Unique among other characterized nucleic acid methyltransferases, the enzyme is composed of three components which are separable under non-denaturing conditions. The molecular masses of the components are 30, 200, and 875 kDa as determined by gel filtration and glycerol gradient sedimentation. The 200-kDa component appears to contain the S-adenosylmethionine-binding site on a 70-kDa subunit. The 875-kDa component has affinity for single-stranded DNA-agarose, suggesting that it may contain the mRNA-binding site. N6-Adenosine methyltransferase is not sensitive to treatment with micrococcal nuclease, nor to immunodepletion using an anti-trimethylguanosine antibody, suggesting that it does not contain an essential RNA component.
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PMID:Characterization and partial purification of mRNA N6-adenosine methyltransferase from HeLa cell nuclei. Internal mRNA methylation requires a multisubunit complex. 802 Dec 82

Signal transducer and activator of transcription 5 (Stat5) plays a critical role in prolactin (PRL)-induced transcription of several milk protein genes. Stat5-mediated gene regulation is modulated by cooperation of Stat5 with cell type- and promoter-specific transcription factors as well as by interaction with transcriptional coregulators. Recently, the expression of a tudor and staphylococcal nuclease-like domains containing protein p100 was found to be increased in mammary epithelial cells during lactation in response to lactogenic hormones. p100 was initially identified as a transcriptional coactivator of the Epstein-Barr virus nuclear antigen 2. In this study we investigated the potential role of p100 in PRL-induced Stat5-mediated transcriptional activation. PRL stimulation increased the p100 protein levels in HC11 mouse mammary epithelial cells. p100 did not affect the early activation events of Stat5, but p100 enhanced the Stat5-dependent transcriptional activation in HC11 cells. p100 associated with Stat5 both in vivo and in vitro, and the interaction was mediated by both the tudor and staphylococcal nuclease-like domains of p100. Together these results suggest that p100 functions as a transcriptional coactivator for Stat5-dependent gene regulation and the existence of a positive regulatory loop in PRL-induced transcription, in which PRL stabilizes p100 protein, which in turn can cooperate with Stat5 in transcriptional activation.
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PMID:Tudor and nuclease-like domains containing protein p100 function as coactivators for signal transducer and activator of transcription 5. 1281 96

The chromatin structure of a promoter is an important determinant of its transcriptional activity. Many promoters are assembled into repressive polynucleosomal arrays that are subsequently remodeled to allow for the activation of gene expression. This study addresses the contribution of a single transcription factor, Pit-1, in orchestrating the chromatin structure of the prolactin gene. Utilizing an in vivo reconstitution system, we found that Pit-1 can bind to multiple sites in the chromatin-assembled 5'-flanking region of the prolactin gene and activate transcription from the chromatin-assembled template. Interestingly, Pit-1 was able to substantially alter micrococcal nuclease digestion of the prolactin 5'-flanking region, and the results are consistent with presence of a translationally positioned nucleosome on the prolactin promoter. Changes in micrococcal nuclease digestion were also observed with a truncated Pit-1 mutant containing only the DNA-binding domain. As the truncation mutant was unable to activate transcription from the chromatin-assembled template, the ability of Pit-1 to alter chromatin structure of the prolactin gene is not dependent on transcriptional activation. We propose that Pit-1 likely plays a role in altering chromatin to facilitate recruitment and subsequent transcriptional activation by additional factors.
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PMID:The pituitary-specific transcription factor, Pit-1, can direct changes in the chromatin structure of the prolactin promoter. 1537 87

Tudor staphylococcal nuclease (Tudor-SN) is a multifunctional protein involved in a variety of cellular processes and plays a critical role in the regulation of gene expression. Recently, Tudor-SN was found to be upregulated in mammary epithelial cells during lactation in response to prolactin, which further to regulate milk protein synthesis. However, the detailed regulatory mechanism of Tudor-SN to milk protein still remains to be elucidated. In our study, we observed that the levels of Tudor-SN and phosphor-Tudor-SN (Thr103) were both enhanced upon prolactin stimulation. Immunofluorescence assays demonstrated that prolactin treatment facilitated the nuclear transport of Tudor-SN. Further study revealed that the phosphorylation of Tudor-SN was depended on activated JNK. Coimmunoprecipitation assays disclosed that Tudor-SN might be phosphorylated directly by JNK. Using gene mutation assays, we further discovered that mutation of Thr to Ala at site of 103 prevented the nuclear transport of Tudor-SN. Thus, these results suggested the essential mechanism of the activated Tudor-SN in milk protein regulation in response to prolactin, which may provide some new sights into improve milk protein production.
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PMID:The phosphorylation of Tudor-SN mediated by JNK is involved in the regulation of milk protein synthesis induced by prolactin in BMECs. 3018 85