Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
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Query: EC:3.1.30.2 (
endonuclease
)
18,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Glucocorticoids stimulate apoptosis in rat thymocytes that is characterized by internucleosomal DNA degradation. We have previously identified an 18-kDa calcium-dependent nuclease whose activity is associated with this DNA degradation. The existence of this nuclease has been challenged by Alnemri and Litwack (1989) J. Biol. Chem. 264, 4104-4111, who suggest that the nuclease we observed was
histone H2B
. We report here a modified nuclease assay which uses [32P] DNA as a substrate that has enabled the purification and characterization of the 18-kDa nuclease (NUC18). Using Bio-Rex 70 chromatography in conjunction with this assay, we show that NUC18 can be separated from
histone H2B
. Enzymatically active NUC18, purified to apparent homogeneity, failed to react with two different anti-
histone H2B
antibodies. NUC18 was inactive in the absence of calcium and known inhibitors of apoptosis, i.e. zinc and aurintricarboxylic acid inhibit its activity. Although NUC18 activity was detected in nuclear extracts of thymocytes of both control and glucocorticoid-treated thymocytes, these activities were distinct. Gel filtration analysis revealed that NUC18 was present as a high molecular weight complex (greater than 100 kDa) in both groups of cells, whereas it also existed as a low molecular weight form in glucocorticoid-treated cells. Thus, NUC18 remains a candidate for the
endonuclease
responsible for the DNA degradation component of the apoptotic process.
...
PMID:Identification, purification, and characterization of a calcium-dependent endonuclease (NUC18) from apoptotic rat thymocytes. NUC18 is not histone H2B. 191 79
The molecular mechanism of the inhibition of Ca2+, Mg2+-dependent
endonuclease
by ADP-ribosylation was studied by using purified bull seminal plasma Ca2+, Mg2+-dependent
endonuclease
,
endonuclease
-stimulating proteins, and poly-(ADP-ribose) polymerase. The activity of an essentially homogeneous preparation of the
endonuclease
was markedly suppressed by its preincubation with NAD+, poly-(ADP-ribose) polymerase, DNA, and Mg2+. These four components of the incubation mixture were all essential for the suppression of the activity. Analyses of the initial and the chased reaction product by Sephadex G-100 column chromatography and sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis revealed that Ca2+, Mg2+-dependent
endonuclease
was ADP-ribosylated during the incubation and its activity was markedly inhibited by the elongation of the ADP-ribose polymer covalently attached to the
endonuclease
. When the suppressed enzymes were mildly treated with an alkaline pH of 10.0, the activity was restored almost to the level of the unmodified control sample. These facts indicate that the linkage between the enzyme and poly(ADP-ribose) is hydrolyzed at this pH, and that the liberated polymer itself does not appreciably affect the
endonuclease
activity. These results also suggest that an electric repulsion between negative charges on DNA and poly(ADP-ribose) attached to Ca2+, Mg2+-dependent
endonuclease
is the basis for the observed suppression of the enzyme by ADP-ribosylation. Though
histone H2B
and H1 are shown to be as good
endonuclease
-stimulators (1) as they are good acceptors of ADP-ribose in poly(ADP-ribose) polymerase reaction (2), ADP-ribosylation of these two proteins did not affect their
endonuclease
-stimulating ability appreciably, at least under the conditions used.
...
PMID:Ca2+, Mg2+-dependent endonuclease and ADP-ribosylation. 631 36
A sensitive method for the assay of Ca2+, Mg(2+)-dependent
endonuclease
was developed. The assay procedure is composed of two parts: (i) microscale
endonuclease
digestion of highly polymerized calf thymus DNA and (ii) the quantification of DNA breaks by measuring the activation of poly(ADP-ribose) polymerase, which is known to be activated proportionally to the number of nicks and ends of DNA added in the reaction mixture. This method was approximately 10(5)-fold more sensitive than a conventional DNase assay detecting acid-soluble DNA formation and, thus, the activity of 20 to 100 fg of purified bull seminal Ca2+, Mg(2+)-dependent
endonuclease
could be reliably measured. Ca2+ and Mg2+ requirements and the response to
histone H2B
of the
endonuclease
were also demonstrated by this method. Using this method, the assay of a very small amounts of Ca2+, Mg(2+)-dependent
endonuclease
in crude extracts of calf thymus chromatin was possible. This method may be applied to other types of endonucleases by modifying the mixture for
endonuclease
reaction.
...
PMID:Assay method for femtogram order of Ca2+, Mg(2+)-dependent endonuclease. 917 8
Yeast promoter regions are often more accessible to nuclear proteins than are nonpromoter regions. As assayed by HinfI
endonuclease
cleavage in living yeast cells, HinfI sites located in the promoters of all seven genes tested were 5- to 20-fold more accessible than sites in adjacent nonpromoter regions. HinfI hypersensitivity within the his3 promoter region is locally determined, since it was observed when this region was translocated to the middle of the ade2 structural gene. Detailed analysis of the his3 promoter indicated that preferential accessibility is not determined by specific elements such as the Gcn4 binding site, poly(dA-dT) sequences, TATA elements, or initiator elements or by transcriptional activity. However, progressive deletion of the promoter region in either direction resulted in a progressive loss of HinfI accessibility. Preferential accessibility is independent of the Swi-Snf chromatin remodeling complex, Gcn5 histone acetylase complexes Ada and SAGA, and Rad6, which ubiquitinates
histone H2B
. These results suggest that preferential accessibility of the his3 (and presumably other) promoter regions is determined by a general property of the DNA sequence (e.g., base composition or a related feature) rather than by defined sequence elements. The organization of the compact yeast genome into inherently distinct promoter and nonpromoter regions may ensure that transcription factors bind preferentially to appropriate sites in promoters rather than to the excess of irrelevant but equally high-affinity sites in nonpromoter regions.
...
PMID:Preferential accessibility of the yeast his3 promoter is determined by a general property of the DNA sequence, not by specific elements. 1095 64
LKB1/STK11 is a tumor suppressor gene responsible for Peutz-Jeghers syndrome, an inherited cancer disorder associated with genome instability. The LKB1 protein functions in the regulation of cell proliferation, polarization and differentiation. Here, we suggest a role of LKB1 in non-homologous end joining (NHEJ), a major DNA double-strand break (DSB) repair pathway. LKB1 localized to DNA ends upon the generation of micro-irradiation and I-SceI
endonuclease
-induced DSBs. LKB1 inactivation either by RNA interference or by kinase-dead mutation compromised NHEJ-mediated DNA repair by suppressing the accumulation of BRM, a catalytic subunit of the SWI/SNF complex, at DSB sites, which promotes the recruitment of an essential NHEJ factor, KU70. AMPK2, a major substrate of LKB1 and a
histone H2B
kinase, was recruited to DSBs in an LKB1-dependent manner. AMPK2 depletion and a mutation of H2B that disrupted the AMPK2 phoshorylation site impaired KU70 and BRM recruitment to DSB sites. LKB1 depletion induced the formation of chromosome breaks and radials. These results suggest that LKB1-AMPK signaling controls NHEJ and contributes to genome stability.
...
PMID:Possible involvement of LKB1-AMPK signaling in non-homologous end joining. 2358 81
Monoubiquitination of
histone H2B
lysine 123 regulates methylation of histone H3 lysine 4 (H3K4) and 79 (H3K79) and the lack of H2B ubiquitination in Saccharomyces cerevisiae coincides with metacaspase-dependent apoptosis. Here, we discovered that loss of H3K4 methylation due to depletion of the methyltransferase Set1p (or the two COMPASS subunits Spp1p and Bre2p, respectively) leads to enhanced cell death during chronological aging and increased sensitivity to apoptosis induction. In contrast, loss of H3K79 methylation due to DOT1 disruption only slightly affects yeast survival. SET1 depleted cells accumulate DNA damage and co-disruption of Dot1p, the DNA damage adaptor protein Rad9p, the
endonuclease
Nuc1p, and the metacaspase Yca1p, respectively, impedes their early death. Furthermore, aged and dying wild-type cells lose H3K4 methylation, whereas depletion of the H3K4 demethylase Jhd2p improves survival, indicating that loss of H3K4 methylation is an important trigger for cell death in S. cerevisiae. Given the evolutionary conservation of H3K4 methylation this likely plays a role in apoptosis regulation in a wide range of organisms.
...
PMID:Loss of histone H3 methylation at lysine 4 triggers apoptosis in Saccharomyces cerevisiae. 2449 36
