EC:3.1.26.9 - FACTA Search

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Query: EC:3.1.26.9 (ribonuclease)
6,589 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have purified a high molecular weight ribonuclease (hmRNase) from human milk by a two-step column chromatographic procedure and characterized the enzyme. The molecular mass of hmRNase is 80 kDa as determined from SDS-polyacrylamide gel electrophoresis. The pH optimum of the enzyme is in the range of 7.5-8.0, similar to other secretory RNases. hmRNase is pyrimidine-specific and cleaves the phosphodiester bond 3' to a pyrimidine residue. It selectively degrades the pyrimidine strand in poly(rA):poly(rU) and poly(dA):poly(rU) double stranded substrates. The extent of degradation for naturally occurring RNAs vary in the order tRNA < rRNA < mRNA at low enzyme concentrations. hmRNase shows allosteric behavior with positive cooperativity in its reaction on polynucleotide substrates. The activity of the enzyme is enhanced in the presence of monoribonucleotides. Antiserum obtained against purified hmRNase did not cross-react with low molecular weight RNase which is also present in milk. In addition, an immunologically cross-reacting species could not be detected in the serum, suggesting the origin of hmRNase in the mammary gland but not blood.
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PMID:Purification and characterization of a high molecular weight ribonuclease from human milk. 768 36

In cells and cell-free extracts, the early steps in histone mRNA decay occur at the 3' terminus and appear to be catalyzed by a polysome-associated 3' to 5' exoribonuclease. We describe the purification of a polysomal 3' to 5' exoribonuclease that is magnesium-dependent, active at pH 7-8 in salt concentrations below 200 mM, and resistant to the inhibitor of the RNase A family of RNases. The purified enzyme is inactive with 3'-phosphorylated RNA substrates and with DNA but can degrade duplex RNA in the absence of added ATP. The enzyme migrates at approximately 37 kDa by native state gel filtration and at 33 kDa in a SDS-polyacrylamide gel. It degrades poly(A) but not a complex of poly(A) with poly(A) binding protein, and it accelerates histone mRNA decay in high salt-washed (enzyme-depleted) polysomes. Similarities between the purified exoribonuclease and the activity that degrades histone mRNA in vitro suggest that the enzyme might be a mammalian messenger ribonuclease.
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PMID:Purification of a human polyribosome-associated 3' to 5' exoribonuclease. 798 54

Ribonuclease inhibitor (RI) was purified about 1300-fold from human cerebrum (including a small portion of midbrain) by a combination of ammonium sulfate precipitation, ribonuclease A-Sepharose chromatography, and high-performance anion-exchange chromatography. The purified RI appeared to be homogeneous as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). Using the same method, a homogeneous RI was also obtained from human hindbrain (brainstem and cerebellum). The cerebral RI appeared to be virtually identical with the hindbrain RI on the basis of the following properties: (a) Molecular mass was estimated to be 50 kDa on SDS-PAGE under reducing conditions. (b) Composition analysis revealed that the RI was rich in leucine and cysteine residues and included no amino sugars. (c) The N-terminus was blocked and probably modified by N-acetylation. After treatment with trifluoroacetic acid, it became susceptible to Edman degradation and was sequenced as Ser-Leu-Asp-Ile-Gln-Ser-Leu-Asp-Ile-Gln-(Cys)-Glu-Glu-. (d) The RI, which showed sulfhydryl-dependent inhibitory activity on both secretory-type and nonsecretory-type ribonucleases, bound tightly to ribonuclease to form a 1:1 complex on a molar basis. (e) The RI cross-reacted strongly with anti-human placental RI antibody. These findings also indicate that human brain RI is quite similar to human placental RI. In contrast to the abundance of RI in human brain tissue (about 0.08% (w/w) of total protein), RI was undetectable in human cerebrospinal fluid, suggesting that brain RI may not be a secreted protein.
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PMID:Purification and characterization of human brain ribonuclease inhibitor. 803 55

Murine (2'-5')An-dependent RNase, a key enzyme of the interferon system, was purified from mouse spleen by affinity chromatography to immobilized (2'-5')An. Since the ribonuclease has high affinity to (2'-5')An, optimal non-denaturing conditions were obtained to disrupt the (2'-5')An-nuclease complex. Low-pH buffers in the presence of 0.1% Triton X-100 removed almost 80% of the enzyme from the (2'-5')An-agarose, preserving its (2'-5')An binding activity and RNA cleavage function. Purification was monitored using a classical radiobinding assay, ultraviolet covalent crosslinking method and denaturing-renaturing affinity blotting assay. The purified enzyme was a 160-kDa dimer that migrated with an apparent molecular mass of 78 kDa and was > 80% pure, as assessed by silver-stained SDS gels. Both a 160-kDa dimer and 78-kDa monomer were found in the cellular extract at a 5:1 ratio. Binding of radiolabeled (2'-5')An to (2'-5')An-dependent RNase either in crude extract or in purified form reached equilibrium by 5 h at 4 degrees C. 2-Mercaptoethanol was required to obtain (2-'5')An-binding activity but, interestingly, in the absence of this reducing agent, (2'-5')An-binding activity was initiated by preincubation with poly(U), a synthetic substrate of the nuclease. This new mechanistic feature indicates that interaction of poly(U) with nuclease induced a conformational modification allowing, in a second step, the binding of (2'-5')An. Furthermore, when activated by low amounts of (2'-5')An, the eluted purified enzyme degraded mRNA but there was still degradation in the absence of (2'-5')An. This suggested a loss of regulatory protein(s) during the purification step. Scatchard analysis showed that the purified enzyme had a Kd of 106 pM for (2'-5')An, similar to estimates obtained using crude spleen extracts (Kd 112 pM), indicating that the purified nuclease had almost identical (2'-5')An-binding properties to those identified in spleen extracts.
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PMID:Affinity purification and characterization of (2'-5')oligo(adenylate)-dependent RNase from mouse spleen. 805 9

A ribonuclease (RNase Oy) was purified to homogeneity on SDS-PAGE from the homogenate of oyster (Crussdstrea grigus). The apparent molecular weight estimated from SDS-PAGE was ca. 28 kDa. The pH optimum of the RNase was 5.0. The RNase released mononucleotides from RNA in the order of 3'-GMP, 3'-AMP, and 3'-UMP. The complete amino acid sequence of RNase Oy was determined, mostly by analyzing the peptides generated by BrCN cleavage or digestion by lysylendopeptidase, staphylococcal V8 protease, and alpha-chymotrypsin. The molecular weight of the protein moiety of RNase Oy deduced from the sequence was 24,359. The sequence of RNase Oy contained two typical histidine residues in segments common to the active site of RNase T2 family enzymes. The locations of six half cystine residues among eight were almost superimposable on those of four known plant RNases of RNase T2 family. The sequence homology between RNase Oy and five fungal and four plant RNases amount, to 43-56 amino acid residues. The amino acid sequence of the N-terminal part of RNase Oy is more similar to those of plant RNases than to those of fungal RNases. This RNase is the first RNase T2 family RNase from mollusc whose primary structure has been elucidated.
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PMID:Purification, some properties, and primary structure of a base non-specific ribonuclease from oyster (Crussdstrea grigus). 813 35

We have purified a Ca2+ dependent ribonuclease from the oocytes of Xenopus leavis. Two properties of this ribonuclease set it apart from other known nucleases. First, Ca2+ was required for ribonuclease activity, and Mg2+ would not substitute. Second, the enzyme specifically degraded RNA and digestion of double or single stranded DNA was not observed. Ca2+ dependent ribonuclease activity of the purified 36-kDa protein was directly observed after renaturation of the protein following electrophoresis in an SDS-Laemmli gel. In addition, the enzyme was shown to have endoribonuclease activity at numerous sites. The Ca2+ dependence suggests that the ribonuclease activity may be modulated by changes in the level of intracellular Ca2+ and thereby provide a direct link to signal transduction systems.
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PMID:Purification of a calcium dependent ribonuclease from Xenopus laevis. 819 Jun 37

Rana catesbeiana ribonuclease (RC-RNase) is a pyrimidine guanine sequence-specific ribonuclease found only in R. catesbeiana (bullfrog) oocytes, not in other organs. An immunohistochemical assay showed that RC-RNase was present in the regular yolk granules, but not in forming yolk granules, yolk platelets, pigment granules, mitochondria clouds or the nucleus. The RC-RNase was restricted to the lateral amorphous area of the yolk granules, and was absent from the central area that has a vitellogenin crystal lattice. The RC-RNase was extracted from yolk granules by 0.5 M NaCl and purified by dialysis and affinity chromatography. Most of the RC-RNase (94%) was found in the yolk granules, the rest RC-RNase (6%) was found in the cytosol in the form of free RNase and latent RNase. The RC-RNase extracted from yolk granules was further analyzed by immunoprecipitation and RNase activity assay on an SDS/polyacrylamide gel. Our results suggest that the RC-RNase activity is regulated by both compartmentation and inhibitor binding.
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PMID:Yolk granules are the major compartment for bullfrog (Rana catesbeiana) oocyte-specific ribonuclease. 820 Mar 46

A nucleolar endoribonuclease from mouse Ehrlich ascites tumor cells, that has been implicated in the endonucleolytic cleavage of mouse precursor ribosomal RNA, specifically and stably binds an in vitro-derived rRNA transcript containing the +650 early processing site. The specificity of binding was demonstrated by mobility shift analysis, glycerol gradient velocity sedimentation analysis, and UV-crosslinking studies. Binding did not require Mg2+ and therefore was not dependent on cleavage; however, binding was dependent on the presence of the early +650 processing site since a pre-rRNA transcript with the +650 processing site deleted failed to compete in binding. A small nucleolar RNA component was not required for the formation of this stable complex or for the specific cleavage of a processing competent pre-rRNA transcript. UV crosslinking studies using 32P-labeled 5-azidouridine-substituted pre-rRNA with bound nucleolar endoribonuclease identified three closely sized polypeptides of approximately 50, approximately 48, and approximately 45 kDa, respectively, that specifically crosslinked to the processing competent rRNA transcript. These three polypeptides species were identified following ribonuclease digestion and electrophoresis on a SDS-polyacrylamide gel. An identical pattern of labeled polypeptides was also identified from gel mobility shift analysis where the specifically shifted material was U.V. crosslinked. The largest of these polypeptides corresponded to the estimated size of the nucleolar endoribonuclease, while the lower molecular weight species may represent partially proteolyzed enzyme. Overall, these results suggest that the unique specificity of the nucleolar endoribonuclease may, in part, be attributed to the formation of a stable complex at the +650 processing site for mouse preribosomal RNA, and that formation of this unique stable complex affords a means to specifically label the limited amount of available partially purified enzyme for sequence analysis.
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PMID:Selection of a preribosomal RNA processing site by a nucleolar endoribonuclease involves formation of a stable complex. 828 28

The entire mouse collagen X gene (Col10a-1) has been isolated. The gene is composed of three exons and two introns spanning 7.0 kb of the DNA sequence. Exons 2 and 3 together encode 15-bp of 5' untranslated sequence, a 2040-bp open reading frame and an 895-nucleotide 3' non-coding region. In the 5' flanking region of the gene, two consensus TATA-box sequences were found. Identification of the first exon by ribonuclease-protection assays and the determination of the 5' end of Col10a-1 mRNA transcripts by primer-extension analyses show that the more 3' TATA box is probably predominantly used and that there are at least three transcription start sites in the exon 1 sequence 3' to this, resulting in 5' untranslated regions of 78, 77 and 55 nucleotides. By means of rapid amplification of cDNA ends by polymerase chain reaction, an additional mRNA species was detected which overlapped the other Col10a-1 transcripts, including the 3' TATA box sequence, giving a 5' untranslated sequence of approximately 235 bases. This latter transcript starts approximately 20 bp 3' to the more 5' TATA box. The data suggest alternative use of promoters and transcription starts for the Col10a-1 gene. Comparison of the combined nucleotide and deduced amino acid sequences of exons 2 and 3 with chicken, bovine and human collagen X genes, showed a high degree of similarity indicating conservation of this gene throughout evolution. Mouse Col10a-1 mRNA was shown to be approximately 3.0 kb and the pepsinized protein, as detected by SDS/PAGE, was approximately 45 kDa. The mRNA and protein sizes correlate with that predicted by the open reading frame. Reverse-transcription polymerase chain reaction assays indicate that the mouse collagen X gene is first expressed at 13.5 days post coitum, temporally preceding the onset of endochondral ossification. In agreement with the generally accepted association of type-X collagen with endochondral ossification, in situ hybridization analyses indicate that Col10a-1 mRNA are restricted to the hypertrophic regions of growth cartilage.
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PMID:Intron-exon structure, alternative use of promoter and expression of the mouse collagen X gene, Col10a-1. 847 38

Eosinophil-derived neurotoxin (EDN) is a ribonuclease with neurotoxic and helminthotoxic properties. It is present in the crystalloid granules of human eosinophils. We report the expression and characterization of a functionally active recombinant human EDN using the pMAL-cRI expression system. A cDNA for mature EDN was obtained by PCR and inserted in pMAL-cRI downstream of the malE gene encoding maltose binding protein. Induction of the ptac promoter of the plasmid in Escherichia coli strain BL21(DE3) resulted in high level expression of soluble MAL-EDN fusion protein. Cleavage of affinity purified fusion protein with Factor Xa protease released recombinant EDN which comigrated with native EDN on SDS-polyacrylamide gels and cross-reacted with a polyclonal anti-EDN antiserum on Western blots. IN contrast to previous attempts at EDN expression, denatured and refolded EDN had ribonuclease activity and was prepared in microgram amounts. The availability of recombinant human EDN should facilitate studies of its structure and biological functions.
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PMID:Expression in Escherichia coli and purification of human eosinophil-derived neurotoxin with ribonuclease activity. 853 63

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