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)

The chromatin structure of the human interferon (IFN) genes was evaluated during induction of human lymphoblastoid (Namalwa) cells by Sendai virus. Namalwa cells were treated with bromodeoxyuridine (BrdUrd) for 36-48 h and induced with Sendai virus for 7 h; the nuclear fraction was isolated and treated with low levels of either micrococcal nuclease or DNAse I. DNA was extracted from the nuclease-treated chromatin, restricted with Eco RI and analyzed by Southern blotting using IFN-alpha 1 and -beta 1 cDNA probes. An increase in the digestibility of the IFN-alpha 1-related genes and the IFN-beta 1 gene was observed in chromatin prepared from BrdUrd-treated, Sendai virus-induced Namalwa cells as compared with chromatin from uninduced Namalwa cells. Our results indicate that, during IFN induction in Namalwa cells by Sendai virus, the IFN genes assume a more open conformation consistent with increased transcriptional activity across these genes.
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PMID:Increased nuclease sensitivity of the human interferon-alpha 1-related genes and the interferon-beta 1 gene during induction by virus. 300 10

Spectroscopic methods were used to examine the sequential build up of structure in the denatured state of staphylococcal nuclease. The 'free energy distance' between the native and denatured states was manipulated by altering conditions in solution (for example altering urea or glycerol concentration) and by changing the amino acid sequences. Initial studies employed a fragment of nuclease, referred to as delta 131 delta, which lacks six structural residues from the amino terminus and one structural residue from the carboxy-terminus. Nuclear magnetic resonance analysis of this fragment in solution revealed a modest quantity of dynamic structure which is native-like in character. With the addition of urea, 12 new HN peaks appeared in the 1H-15N correlation spectrum, presumably as a result of the breakdown of residual structure involving the first three beta strands. With the addition of glycerol, there was a rapid increase in the quantity of beta sheet structure detected by circular dichroism spectroscopy. At very high glycerol concentrations, an increase in helical structure became apparent. These data in addition to previously published results suggest that: (i) a beta-meander (strands beta 1-beta 2-beta 3) and the second alpha helix (alpha 2) are among the most stable local structures; (ii) the five-strand beta-barrel forms in a reaction which does not require the presence of several other native substructures; and (iii) the last step on the equilibrium folding pathway may be the formation and packing of the carboxy terminal alpha helix (alpha 3) to give the native state.
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PMID:Initial studies of the equilibrium folding pathway of staphylococcal nuclease. 777 Apr 83

In a previous report [Alexandrescu, A. T., Abeygunawardana, C., & Shortle, D. (1994) Biochemistry 33, 1063-1072], NMR methods were used to characterize the residual structure in delta 131 delta, a large fragment of staphylococcal nuclease that serves as a model denatured state under nondenaturing conditions. On the basis of a large number of missing amide protons for the residues that form a three-strand antiparallel beta sheet in the native state, it was concluded that this beta meander may be highly populated in delta 131 delta, with severe line broadening due to relatively slow exchange between different conformational states. In the present report, results from circular dichroism spectroscopy and NMR spectroscopy indicate strands beta 2-beta 3 form a beta hairpin at urea concentrations below 6 M. Amide proton resonances from several hydrophobic residues adjacent to this beta hairpin disappear in concert with all of the beta 2-beta 3 residues, suggesting a local, non-native hydrophobic interaction may help stabilize the beta hairpin. At concentrations below 3 M, all amide resonances from strand beta 1 in delta 131 delta also disappear, suggesting that beta 1 may combine with the beta 2-beta 3 hairpin to form a native-like beta meander. In addition, the hydrophobic helix alpha 2 decreases from approximately 30% population in 0 M urea to approximately 10%-15% at 6 M urea, whereas helix alpha 1 goes from 10%-15% populated in 0 M urea to undetectable in 6 M urea. Characterization of a second, distinctly different denatured state, WT nuclease at pH 3.0 and low salt, reveals that this low-density acid-denatured state is structurally similar to delta 131 delta at low concentrations of urea. From these and previously published data, a tenative equilibrium folding pathway can be constructed for staphylococcal nuclease which describes the relative strengths and interdependencies of the chain-chain interactions involved in forming the native state.
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PMID:The equilibrium folding pathway of staphylococcal nuclease: identification of the most stable chain-chain interactions by NMR and CD spectroscopy. 851 46

In an earlier study of the denatured state of staphylococcal nuclease (Wang Y, Shortle D, 1995, Biochemistry 34:15895-15905), we reported evidence of a three-strand antiparallel beta sheet that persists at high urea concentrations and is stabilized by a local "non-native" interaction with four large hydrophobic residues. Because the amide proton resonances for all of the involved residues are severely broadened, this unusual structure is not amenable to conventional NMR analysis and must be studied by indirect methods. In this report, we present data that confirm the important role of interactions involving four hydrophobic residues (Leu 36, Leu 37, Leu 38, and Val 39) in stabilizing the structure formed by the chain segments corresponding to beta 1-beta 2-beta 3-h, interactions that are not present in the native state. Glycine substitutions for each of these large hydrophobic residues destabilizes or disrupts this beta structure, as assessed by HN line sharpening and changes in the CD spectrum. The 13C resonances of the carbonyl carbon for several of the residues in this structure indicate conformational dynamics that respond in a complex way to addition of urea or changes in sequence. Studies of hydrogen exchange kinetics in a closely related variant of staphylococcal nuclease demonstrate the absence of the stable hydrogen bonding between the strands expected for a native-like three-strand beta sheet. Instead, the data are more consistent with the three beta strand segments plus the four adjacent hydrophobic residues forming a dynamic, aligned array or bundle held together by hydrophobic interactions.
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PMID:A dynamic bundle of four adjacent hydrophobic segments in the denatured state of staphylococcal nuclease. 888 Sep 14