Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.1.1.6 (CAD)
 4,420 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Induction of apoptosis by death receptors such as Fas or tumour necrosis factor (TNF) R1 leads to distinct changes in cell morphology, activation of the caspase protease cascade, and the degradation of nuclear chromatin by activated nucleases. Here, we describe the purification and cDNA cloning of a novel 40 kDa endonuclease from Jurkat cells that is activated by caspases. This protein, designated caspase-activated nuclease (CPAN), is sufficient to degrade naked DNA and to induce apoptotic morphology and DNA fragmentation in naive nuclei. CPAN is highly homologous to a recently described mouse nuclease, CAD [1], and may represent the human homologue. Our data on the human cDNA as well as additional data on the mouse homologue suggest that a 30 amino-acid portion of the recently published mouse sequence [1] is incorrect. We show that the activity of human CPAN is regulated by DFF45 [2], an inhibitor necessary for CPAN expression and stabilization in an inactive state in living cells. Proteolytic cleavage of DFF45 by caspases in vitro leads to dissociation of DFF45 fragments from CPAN and activation of CPAN as an endonuclease. CPAN is a tightly regulated endonuclease with unique characteristics that might represent a distinctive family of endonucleases.
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PMID:CPAN, a human nuclease regulated by the caspase-sensitive inhibitor DFF45. 956 Mar 46

Saturation transfer experiments were performed for the (2)H- and (15)N-labeled mouse CAD domain of the caspase-activated deoxyribonuclease and the CAD domain of its inhibitor to reveal the protein-protein complexed conformation. Based on the physical model for the spin diffusion, a novel method was developed to reconstruct the complexed structure using the simulated annealing calculation. The complementarity in the molecular surface shape and the electrostatic potential distribution provide a good measure for the assessment of the putative complexed conformation, despite much less experimental information than the conventional distance geometry calculation.
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PMID:CAD-ICAD complex structure derived from saturation transfer experiment and simulated annealing without using pairwise NOE information. 1487 36

The gold standard for studies of nucleosomal chromatin structure for the past 30 years has been the enzyme micrococcal nuclease (MNase). During the course of our studies on the elucidation of the mechanism of action of the apoptotic nuclease DNA fragmentation factor-40 / caspase-activated deoxyribonuclease (DFF40/CAD) on naked DNA and chromatin substrates, it became clear that this enzyme is superior in certain respects to MNase for studying several aspects of chromatin structure. Here we review our published results supporting this statement. Relative to MNase, we have found that DFF40/CAD has the following properties: (i) it does not cut within nucleosomes to generate subnucleosomal DNA fragments; (ii) it is more specific for the linker regions between nucleosomes; (iii) it lacks exonuclease activity; (iv) it is specific for double-stranded DNA and makes exclusively double-stranded breaks; and (v) it attacks histone-H1-containing chromatin more efficiently. Taken together, these facts explain why DFF40/CAD generates sharper oligonucleosomal DNA ladders compared with those generated by MNase. We therefore recommend the following uses for DFF40/CAD for chromatin research: nucleosome isolation, chromatin-remodeling assays, repeat length measurements, and nucleosome-positioning assays along specific sequences. Other uses include footprinting assays of transcription factor positions, shearing chromatin for immunopreciptitation experiments (ChIP), and shearing DNA for recombinant DNA library preparation or for shotgun cloning for sequencing.
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PMID:Unique features of the apoptotic endonuclease DFF40/CAD relative to micrococcal nuclease as a structural probe for chromatin. 1693 13