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Drug
Enzyme
Compound
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Target Concepts:
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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Holliday junctions in DNA are generated as a product of homologous recombination events. To test the hypothesis that human
p53
may bind to Holliday junctions, synthetic junctions with four approximately 75-base pair (Hol75) or approximately 565-base pair (Hol565) arms were generated. As seen by electron microscopy, under conditions in which 50-61% of the Hol565 DNAs were bound by
p53
, 80-96% of the
p53
was located specifically at the junction with, in the latter case, only 4% of the
p53
visualized at the DNA ends or along the arms. Given the large number of potential binding sites, this represents very high specificity for the junctions. Gel retardation assays using the Hol75 DNA confirm these observations, and indicate that the tight junction complexes have a half-life of greater than 4 h. The binding of
p53
to three-way junctions is severalfold less than to four-way junctions. Addition of
p53
greatly increases the rate of resolution of the Hol75 DNA by T4
endonuclease VII
and T7 endonuclease I, two enzymes known to cleave such junctions. This latter finding further confirms the interaction of
p53
with Holliday junctions and suggests that
p53
binding facilitates their resolution in vivo.
...
PMID:Human p53 binds Holliday junctions strongly and facilitates their cleavage. 905 58
The Enzymatic Mutation Detection (EMD) assay detects mutations or polymorphisms in DNA. The assay procedure takes <1 h and is followed by electrophoretic detection. We report an automated procedure, using fluorescently labeled probe and quantitative analysis on the ABI Prism 377 DNA Sequencer, that improves on earlier methods (1, 2) by eliminating the need for sample purification, shortening the hybridization time, and increasing the signal-to-noise ratio. The EMD assay uses the bacteriophage resolvase T4
endonuclease VII
, which cleaves the heteroduplex molecules at the mismatch site, forming two shorter fragments that are resolved by gel electrophoresis. Unlike existing mutation techniques, the EMD method uses a single protocol to identify point mutations, deletions, and insertions for all DNA fragments. Test DNA samples are assayed directly from PCR reactions, and fragments up to 4 kb in size have been assayed successfully. A independent analysis on the
p53 tumor suppressor
gene from clinical samples has shown 100% sensitivity and 94% specificity. Because the fluorescent EMD assay has been optimized for high signal-to-noise ratios, mutations can be identified in mixed samples containing up to a 20-fold excess of normal DNA.
...
PMID:Automated fluorescent analysis procedure for enzymatic mutation detection. 955 83
The ability of
endonuclease VII
(endo VII) to cleave at mispairings in double-stranded DNA has recently been used for enzymatic mutation detection (EMD) [R. Youil, B.W. Kemper, R.G.H. Cotton, Proc. Natl. Acad. Sci. USA 92 (1995) 87-91]. The method is based on mapping cleavages in heteroduplex DNAs obtained from mutant and wildtype sequences. Despite the capability of endo VII to cleave at all possible mispairings, relative cleavage efficiencies vary considerably for individual mismatches and may escape detection if located in an unfavorable sequence surrounding. We report here improved reaction conditions which can increase the selectivity of the enzyme for mismatches up to 500-fold, as demonstrated with a mutation in a 247 nt long fragment from exon 7 of human gene
p53
. The new conditions involve replacement of Tris/HCl buffer by phosphate buffer and change from pH 8.0 to 6.5. Various concentrations of phosphate ions should be tried in the assay to meet individual requirements of the substrate.
...
PMID:Enzymatic mutation detection. Phosphate ions increase incision efficiency of endonuclease VII at a variety of damage sites in DNA. 969 88
E6 is an oncoprotein implicated in cervical cancers, produced by "high-risk" human papillomaviruses. E6 is thought to promote tumorigenesis by stimulating cellular degradation of the tumour suppressor
p53
, but it might display other activities. Sequence similarity was recently detected between E6 and
endonuclease VII
, a protein of phage T4 that recognizes and cleaves four-way DNA junctions. Here, we purified recombinant E6 proteins and demonstrated that high-risk E6 s bind selectively to four-way junctions in a structure-dependent manner. Several residues in the C-terminal zinc-binding domain, the region of E6 similar to
endonuclease VII
, are necessary for the junction-binding activity. E6 binds to the junction as a monomer. Comparative electrophoresis shows that E6-bound junctions migrate in an extended square conformation. Magnesium inhibits the electrophoretic migration of the complexes but does not seem to influence their formation at equilibrium. This work is the first demonstration of specific binding of purified active E6 to a well-characterized DNA ligand, and suggests new modes of action of E6 in oncogenesis.
...
PMID:HPV oncoprotein E6 is a structure-dependent DNA-binding protein that recognizes four-way junctions. 1069 26
DNA double-strand breaks (DSBs) can be repaired by homologous recombination (HR), which can involve Holliday junction (HJ) intermediates that are ultimately resolved by nucleolytic enzymes. An N-terminal fragment of human GEN1 has recently been shown to act as a
Holliday junction resolvase
, but little is known about the role of GEN-1 in vivo. Holliday junction resolution signifies the completion of DNA repair, a step that may be coupled to signaling proteins that regulate cell cycle progression in response to DNA damage. Using forward genetic approaches, we identified a Caenorhabditis elegans dual function DNA double-strand break repair and DNA damage signaling protein orthologous to the human GEN1 Holliday junction resolving enzyme. GEN-1 has biochemical activities related to the human enzyme and facilitates repair of DNA double-strand breaks, but is not essential for DNA double-strand break repair during meiotic recombination. Mutational analysis reveals that the DNA damage-signaling function of GEN-1 is separable from its role in DNA repair. GEN-1 promotes germ cell cycle arrest and apoptosis via a pathway that acts in parallel to the canonical DNA damage response pathway mediated by RPA loading, CHK1 activation, and CEP-1/
p53
-mediated apoptosis induction. Furthermore, GEN-1 acts redundantly with the 9-1-1 complex to ensure genome stability. Our study suggests that GEN-1 might act as a dual function
Holliday junction resolvase
that may coordinate DNA damage signaling with a late step in DNA double-strand break repair.
...
PMID:The Caenorhabditis elegans homolog of Gen1/Yen1 resolvases links DNA damage signaling to DNA double-strand break repair. 2066 66
