EC:3.4.21.64 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.64 (proteinase K)
4,071 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A method for the rapid manual isolation of polytene chromosomes and nuclear membranes from salivary glands of Chironomus tentans is presented and the analysis of some of their RNA and protein components before and after treatment with 2 M salt solutions is summarized.--After salt-incubation the chromosomes still display a considerable number of bands which stain with ethidium bromide and which are sensitive to treatment with DNase, RNase, trypsin, and proteinase K, to a lesser extent with pronase and papain. Analysis of the iodinated residual proteins on SDS gels yield three major and two minor bands (MW between 50,000 and 70,000 dalton) which were also shown to be present in interphase chromosomes of Ehrlich ascites cells which had been treated similarly and are also tightly bound constituents of DNA prepared according to Gross-Bellard et al. (1973). This result indicates the existence of a general class of non-histone proteins involved in keeping the DNA in a supercoiled state. Furthermore their presence in salt-treated nuclear membranes of Chironomus salivary gland cells (and Xenopus oocytes, unpubl.) will be of interest with respect to functional aspects of the nuclear matrix.
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PMID:Effect of salt-treatment on manually isolated polytene chromosomes from Chironomus tentans. 35 13

A procedure for isolation of DNA from Aspergillus nidulans on a preparative scale is described. Mechanical disruption of lyophilized material in high-salt medium and treatment with proteinase K, followed by sedimentation of the lysate into saturated CsC1 solution yielded pure, highly polymerized DNA.
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PMID:Isolation of DNA from Aspergillus nidulans. 36 2

The polymerase chain reaction with prior reverse transcription of RNA into cDNA was applied to hepatitis C virus RNA detection in human serum samples of different origin. In order to eliminate false negative results, the following steps were optimized: RNA extraction, reverse transcription, and oligonucleotide primer selection. We compared different RNA extraction methods using guanidinium salt/detergent and proteinase K digestion/phenol extraction, and tested virus particle enrichment with polyethylene glycol precipitation and ultracentrifugation. RNA extraction with guanidinium salt/detergent was the most efficient method. Ultracentrifugation of single samples did not improve hepatitis C virus RNA detection. Polyethylene glycol precipitation performed poorly. Recombinant thermostable reverse transcriptase produced cDNA from fewer samples than did Moloney murine leukaemia virus reverse transcriptase. Nested oligonucleotide primers from the 5'-terminal non-coding region of the hepatitis C virus genome amplified cDNA from more samples than did primers from the coding regions. Thirty six anti-hepatitis C virus antibody positive samples were tested; nested primers (nucleotides 6 to 327 and 15 to 288) yielded 21 amplificates, whereas primers from the coding region produced 16 amplificates (nucleotides 4684-5276) and 5 amplificates (nucleotides 5166-5270), respectively. The most efficient combination of steps was RNA extraction with guanidinium salt solution, reverse transcription with Moloney murine leukaemia virus reverse transcriptase and nested polymerase chain reaction primed with primers from the 5'-terminal non-coding region of the hepatitis C virus genome. Other combinations produced more false negative results. Three different groups of anti-hepatitis C virus antibody positive individuals had markedly different viraemia patterns: Hepatitis C virus RNA was detected in the sera of only 10% of anti-hepatitis C virus antibody positive blood donors, but in 90% of anti-hepatitis C virus antibody positive patients with clinically manifest hepatitis C, and 90% of anti-hepatitis C virus antibody positive haemophiliacs who had received plasma products in the past which had not been virus-inactivated. No hepatitis C virus RNA could be detected in the sera of 450 anti-hepatitis C virus antibody negative blood donors with elevated serum alanine aminotransferase catalytic concentrations.
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PMID:Improved detection of hepatitis C virus RNA by reverse transcription and polymerase chain reaction. 128 41

Skeletal muscle actin was lightly digested by proteinase K, which cleaved the peptide bond between Met-47 and Gly-48, producing a C-terminal 35 kDa fragment. Proteinase K-cleaved actin (proK-actin) did not polymerize into F-actin upon addition of salt. In the presence of phalloidin, however, it polymerized slowly into F-actin (proK-F-actin), indicating that the cleaved actin did not dissociate into the individual cleaved fragments but retained the global structure of actin. Electron microscopy showed that proK-F-actin had the typical double-stranded structure of a normal actin filament and formed the arrowhead structure when decorated with HMM. Heavy meromyosin ATPase was weakly activated by proK-F-actin: Vmax = 0.24 s-1, and Kapp = 2.8 microM, while Vmax = 7.6 s-1, and Kapp = 13 microM by F-actin. Correspondingly, in vitro this proK-F-actin slid very slowly on HMM attached to a glass surface at an average velocity of 0.47 microns/s, or 1/12 of that of intact F-actin. The fraction of sliding filaments was less than 50%. Assuming that the nonmotile filaments attached to HMM were not involved in ATPase activation, the sliding velocity correlated with the ATPase activity activated by proK-F-actin.
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PMID:Muscle actin cleaved by proteinase K: its polymerization and in vitro motility. 149 Oct 13

A method for the isolation of total cytoplasmic RNA and high molecular weight DNA from the same cells is described. Cells are gently lysed with NP40 in the presence of vanadyl ribonucleoside complex and the nuclei pelleted by centrifugation. RNA is purified by phenol/CHCl3 extraction of the lysate supernatant followed by ethanol precipitation. Protein is removed from high molecular weight DNA by salt-precipitation after nuclei are digested with proteinase K in the presence of sodium dodecyl sulfate. High yields of clean, intact RNA and DNA are obtained. A major advantage of the method is that it can be scaled down to quantitatively extract RNA and DNA from as little as 1000 cells.
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PMID:A simple, efficient method for the separate isolation of RNA and DNA from the same cells. 169 May 60

Savinase (EC3.4.21.14) is secreted by the alkalophilic bacterium Bacillus lentus and is a representative of that subgroup of subtilisin enzymes with maximum stability in the pH range 7 to 10 and high activity in the range 8 to 12. It is therefore of major industrial importance for use in detergents. The crystal structure of the native form of Savinase has been refined using X-ray diffraction data to 1.4 A resolution. The starting model was that of subtilisin Carlsberg. A comparison to the structures of the closely related subtilisins Carlsberg and BPN' and to the more distant thermitase and proteinase K is presented. The structure of Savinase is very similar to those of homologous Bacillus subtilisins. There are two calcium ions in the structure, equivalent to the strong and the weak calcium-binding sites in subtilisin Carlsberg and subtilisin BPN', well known for their stabilizing effect on the subtilisins. The structure of Savinase shows novel features that can be related to its stability and activity. The relatively high number of salt bridges in Savinase is likely to contribute to its high thermal stability. The non-conservative substitutions and deletions in the hydrophobic binding pocket S1 result in the most significant structural differences from the other subtilisins. The different composition of the S1 binding loop as well as the more hydrophobic character of the substrate-binding region probably contribute to the alkaline activity profile of the enzyme. The model of Savinase contains 1880 protein atoms, 159 water molecules and two calcium ions. The crystallographic R-factor [formula; see text].
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PMID:Crystal structure of the alkaline proteinase Savinase from Bacillus lentus at 1.4 A resolution. 173 56

The ability of 16 isolates of the human gastroduodenal pathogen Helicobacter pylori to bind 125I-radiolabelled tissue proteins was quantitated by liquid-phase assay. While capable of binding generally low levels of collagen types I and II, vitronectin, and fibronectin (average binding, 8%; highest binding, 23%), the various H. pylori isolates were good binders of the basement membrane proteins collagen type IV and laminin (average binding, 27%; highest binding, 60%). Campylobacter species tested bound lower levels of collagen type IV and laminin (average binding, 12%; highest binding, 17%). Trypsin and proteinase K treatment of H. pylori cells markedly reduced the binding of collagen type IV and laminin, as did heat treatment, suggesting that the binding of basement membrane proteins is mediated by bacterial surface proteins. Binding of both basement membrane proteins was rapid and saturable. 125I-collagen type IV binding to H. pylori 915 was inhibited by preincubation with unlabelled collagen type IV but was not inhibited by laminin or a number of other proteins. Once bound, radiolabelled collagen type IV but was not displaced by an excess of unlabelled collagen type IV, indicating that the binding interaction was of high affinity. Binding of laminin was partially reversible, and analysis in a solid-phase nonradiolabel assay showed that the interaction was of high affinity, with a Kd of 7.9 nM. This interaction was affected by salt, indicating the presence of a hydrophobic component in the ability of H. pylori to bind laminin.
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PMID:High-affinity binding of the basement membrane proteins collagen type IV and laminin to the gastric pathogen Helicobacter pylori. 193 98

Sequences of hepatitis B virus DNA were detected specifically in the sera of infected individuals by a non-radioactive riboprobe nucleic acid hybridization assay. The nucleic acids contained in serum specimens were prepared by an overnight proteinase K-/SDS-digest, phenol/chloroform-extraction and ethanol-precipitation, and immobilized on nylon membranes by the dot-blot technique. Digoxigenin-labelled 1.4 kb RNA-probes were generated by the phage sp 6 RNA-polymerase from a linearized HBV DNA transcription template containing the appropriate promoter. Hybridized probes were detected by alkaline phosphatase-conjugated sheep anti-digoxigenin Fab-fragments, and 5-bromo-4-chloro-3-indolylphosphate (BCIP) and nitroblue tetrazolium salt (NBT) as chromogenic substrates for the subsequent ELISA procedure. With a detection limit of 0.5-1.0 pg HBV DNA and a high specificity, the results were comparable to those obtained by the standard assay employing radioactively labeled DNA-probes.
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PMID:A nonradioactive riboprobe assay for the detection of hepatitis B virus DNA in human sera. 208

The subtilisin family of proteases has four members of known sequence and structure: subtilisin Carlsberg, subtilisin novo, proteinase K, and thermitase. Using thermitase as a test case, we ask two questions. How good are methods for model building a three-dimensional structure of a protein based on sequence homology to a known structure? And what are the molecular causes of thermostability? First, we compare predicted models of thermitase, refined by energy minimization and varied by molecular dynamics, with the preliminary crystal structure. The predictions work best in the conserved structural core and less well in seven loop regions involving insertions and deletions relative to subtilisin. Here, variation of loop regions by molecular dynamics simulation in vacuo followed by energy minimization does not improve the prediction since we find no correlation between in vacuo energy and correctness of structure when comparing local energy minima. Second, in order to identify the molecular cause of thermostability we confront hypotheses derived by calculation of the details of interatomic interactions and estimates of hydrophobic interactions with inactivation experiments. As a result, we can exclude salt bridges and hydrophobic interactions as main causes of thermostability. Based on a combination of theoretical and experimental evidence, the unusually tight binding of calcium by thermitase emerges as the most likely single influence responsible for its increased thermostability.
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PMID:Thermitase, a thermostable subtilisin: comparison of predicted and experimental structures and the molecular cause of thermostability. 266 64

Various extracellular signals (i.e. transmitters, hormones, growth factors, etc.), together with their respective second-messenger pathways, regulate transmitter biosynthesis and neuronal function by altering gene expression. In this study we validated a protocol for isolating rat striatum and adrenal medullary nuclei for the purpose of extracting, identifying, and characterizing, nuclear regulatory factors which may serve a functional role in signal-transduction processes. Through gel retardation studies using a 299 base pair (bp) XmnI-SacI 32P-labeled probe (derived from the 5' untranslated region of the rat preproenkephalin gene), we show that different patterns of retained bands result from nuclear extracts derived from rat adrenal medulla and striatum (as well as from other tissue). These tissue differences may have biological significance since rat adrenal medullae have low basal enkephalin levels while the striatum has high levels of this peptide and its respective mRNA. Additionally, certain retained bands were common to both cytosolic and nuclear compartments, suggesting binding factors may be located in either cell space. An initial biochemical characterization of these factors was also undertaken. Generally, salt levels of 100 mM or more reduced factor binding while 10-50 mM sodium ion levels showed preferentially enhanced bands. Binding activity appeared optimal at pH 6.8. As all retained bands were abrogated by proteinase K treatment, these factors appear to have a significant protein component. Finally, of particular interest is that this 299 bp region contains many sequences showing over 80% sequence identity with several previously characterized transcriptional control elements (i.e. cAMP and phorbol ester inducible enhancers, GCN4, AP1, Sp1, CCAAT binding factor, ATF, and AP2). If binding is confirmed (footprint analysis) and function validated (transfection studies), the evolutionary significance of the apparent presence of gene regulatory sequences and functional element divergence of the DNA region between different species can be evaluated.
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PMID:Preproenkephalin DNA-binding proteins in the rat: 5' flanking region. 271 96

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