EC:3.1.27.5 - FACTA Search

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Query: EC:3.1.27.5 (RNase)
17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Myelin gene expression was investigated in the immortalized S16 Schwann cell line grown in the presence and absence of serum and at different densities. Protein expression was monitored by western blotting, and message levels were determined by RNase protection assays. To study cell proliferation rates at different cell densities and serum conditions, [3H]thymidine uptake assays and cell counts were performed. Although serum deprivation decreased cell proliferation as expected, the proliferation of S16 cells was unchanged or slightly increased at high density under the conditions of our experiments in either serum-containing or serum-free medium. This increased cell division at high density appeared to be due to greater release of an autocrine growth factor to the medium by dense cell populations. For both sparse and dense cells, substantially more P0 glycoprotein (P0) and myelin-associated glycoprotein (MAG) per milligram of total cellular protein were expressed when the cells were proliferating slowly in defined medium in comparison with more rapidly proliferating cells in serum-containing medium. Furthermore, in both serum-containing and defined media, dense cell populations expressed more MAG and PO than sparse ones. PO mRNa and MAG mRNA levels generally paralleled protein levels. The level of mRNA for peripheral myelin protein-22 (PMP-22) was also increased at high cell density but did not change much when proliferation was decreased by serum deprivation. PMP-22 protein was not detected under any of the growth conditions. The changes in expression of these genes with growth conditions may be specific for myelin proteins, because the expression of a nonmyelin glycoprotein, L1, remained constant. The level of cyclic AMP in the cells did not change with the different growth conditions tested. The results indicate that the S16 Schwann cell line mimics primary or secondary Schwann cells by down-regulating myelin gene expression when it proliferates more rapidly in the presence of serum. Furthermore, in both the presence and absence of serum, there was greater expression of myelin genes at high cell density that was not associated with a decreased proliferative rate. Because evidence for a role of secretory factors in affecting myelin gene expression was not obtained by treating sparse S16 cells with medium conditioned by dense S16 cells, the results suggest that the higher expression of myelin genes at high density may be mediated by cell-to-cell contact.
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PMID:Myelin gene expression in immortalized Schwann cells: relationship to cell density and proliferation. 862 95

We have investigated which alpha 2-receptor subtypes are expressed in cultured cortical astroglia, and their coupling to second messengers. Binding assays using [3H]rauwolscine showed a very low number of alpha 2 receptors in the astrocytic cultures. Treatment of cultures with dibutyryl cyclic AMP (dBcAMP) increased significantly the number of receptors. The RNase protection assay was used to investigate which receptor subtype the cells express. The alpha 2B message was expressed at a low level in both treated and untreated cells, the levels of mRNA for the alpha 2A/D subtype were up-regulated significantly in cells treated with dBcAMP and no expression of mRNA for the alpha 2C subtype was detected. The alpha 2 agonist dexmedetomidine inhibited forskolin-induced increases in cyclic AMP both in treated and untreated cultures in a pertussis toxin-dependent manner. This effect was abolished by the alpha 2-receptor antagonist rauwolscine. Selective alpha 2-receptor agonists dexmedetomidine, clonidine, and UK14,304 all increased intracellular calcium only in dBcAMP-treated cells. The antagonist rauwolscine abolished this effect. Ca2+ responses were also seen in the absence of extracellular Ca2+ and they were inhibited by the phospholipase C inhibitor U-73122, suggesting that astroglial alpha 2 receptors are coupled to the inositol phospholipid pathway. We therefore also tested the effect of dexmedetomidine directly on inositol 1,4,5-trisphosphate accumulation. A significant increase was seen that was blocked by the antagonist rauwolscine and, as expected, by U-73122. In short, the results demonstrate that the alpha 2 receptors in astroglia are coupled to multiple second messenger pathways. They are up-regulated in cells treated with dBcAMP, which simultaneously assume a process-bearing morphology. If this morphological change reflects some in vivo process such as reactive gliosis, the up-regulation of alpha 2-receptor expression could mean an adaptive change in astrocytic responses to a common neurotransmitter, noradrenaline.
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PMID:Coupling of astroglial alpha 2-adrenoreceptors to second messenger pathways. 863 62

Cyclin and cyclin-dependent kinase(cdk) complexes, and their inhibitors (CKIs) play important roles in growth regulation on the cells. p27/kip1 is a CKI associated with G1 arrest induced by cell to cell contact, transforming growth factor-beta and cyclic AMP. The abnormality of p27/Kip1 genes in human tumors usually appears as a steady level defect of expression, since mutations in them is rare. Thus it is important to estimate the expression level of this gene. To detect the change of p27/Kip1 mRNA level in blood cells, we developed the ribonuclease protection assay using nonradioactive riboprobe which was produced by reverse transcriptase-polymerase chain reaction (RT-PCR) with T7 promoter-added antisense primer and the in vitro transcription system. Our assay may be useful for clinical evaluation of the mRNA level.
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PMID:[Detection of p27/kip1 mRNA in blood cells by nonradioactive ribonuclease protection assay]. 867 70

Adenine phosphoribosyltransferase (APRTase) is an important enzyme for its ability to convert adenine, a byproduct of many biochemical reactions, into AMP. By functional complementation of an Escherichia coli mutant, cDNAs encoding two APRTases have been cloned from Arabidopsis thaliana. One of the cDNAs (ATapt1) has been previously identified while the second (ATapt2) is of a previously unknown type. Kinetic analysis of the two enzymes purified from E. coli expressing the two cDNAs indicates that ATapt2 has a higher affinity for cytokinin than the ATapt1. RNase protection studies indicate that the ATapt2, is not expressed in leaves. Analysis of the gene structure indicates that ATapt2 has identical intron positions to ATapt1, but neither the intron sequence nor intron size are conserved between the two genes. The implications of a second, differentially expressed APRTase with affinity for both adenine and cytokinin are discussed.
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PMID:A second form of adenine phosphoribosyltransferase in Arabidopsis thaliana with relative specificity towards cytokinins. 869 67

Several neuronal nicotinic acetylcholine receptor (AChR) genes are expressed in chick skeletal muscle during development. One of the most abundantly expressed is alpha 7, which produces a protein capable of binding alpha-bungarotoxin and is physically distinct from muscle AChRs containing the alpha 1 gene product. We show here that the alpha 7-containing species in muscle is indistinguishable pharmacologically from alpha 7-containing AChRs in neurons. In addition, immunologic analysis with subunit-specific muscle antibodies shows that the alpha 7-containing species in muscle lacks the beta 1 and delta muscle AChR gene products as it does the alpha 1. RNase protection experiments measuring alpha 7 mRNA levels indicate that the alpha 1 and alpha 7 genes may, in part, be subject to similar kinds of regulation in the tissue. Surgical denervation of leg muscle in newly hatched chicks caused a small and transient increase in alpha 7 mRNA after 8 days, while alpha 1 transcripts underwent a large and sustained increase in number. Similarly, treating myotube cultures with tetrodotoxin caused a modest increase in alpha 7 transcript levels and a large increase in alpha 1. Calcitonin gene-related peptide (CGRP) increased both kinds of transcripts in myotube cultures equally as did treatment with 8-bromo-cyclic AMP; CGRP is thought to work via a cyclic AMP-dependent pathway in muscle. In at least one respect, however, alpha 7 expression in muscle differs qualitatively from that of alpha 1: AChR-inducing activity (ARIA) increased alpha 1 mRNA levels in culture while slightly depressing alpha 7 mRNA levels. The regulatory pattern of alpha 7 expression in muscle may combine features of both alpha 7 expression in neurons and alpha 1 expression in muscle.
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PMID:Neuronal-type acetylcholine receptors and regulation of alpha 7 gene expression in vertebrate skeletal muscle. 898 64

Granulosa cells are essential for follicular development and corpus luteum formation and their functions are regulated by gonadotrophins through G protein-coupled receptors. The dominant second messenger pathway involves the stimulation of cyclic AMP formation by G alpha s-linked receptors. In this paper we have investigated the expression of G alpha s mRNA splice variants in relation to expression of G alpha s protein isoforms in granulosa cells obtained from patients undergoing in vitro fertilization. We have carried out ribonuclease protection assays using cRNA riboprobes which are capable of detecting all G alpha s mRNA isoforms as well as quantifying total amounts of G alpha s mRNA. Granulosa cells express the message for G alpha s-Large and G alpha s-Small and the presence of two distinct protein products was confirmed by immunoblotting using the antibody RM/1. Moreover, the data show that a significant fraction of G alpha s-Large and G alpha s-Small mRNAs contain an extra CAG codon. This should generate proteins with an extra serine residue, resulting in G alpha s variants with the consensus sequence of a protein kinase C phosphorylation site. These results highlight the possible interaction between different signalling pathways in the control of cAMP production and the need to investigate the relationship between G alpha s variants and different adenylyl cyclase isozymes in patients with normal and abnormal ovarian function.
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PMID:Identification of G alpha s messenger ribonucleic acid splice variants in human granulosa cells. 906 4

In order to study the reaction mechanism of RNase Rh from Rhizopus niveus, the rates of cleavage of four 2',3'-cyclic nucleotides by mutant enzymes of RNase Rh, H46F, H109F, E105Q, and K108L were measured. H46F is virtually inactive towards cyclic nucleotides, but H109F hydrolyzed these substrates at 0.7-4.5% of the rates of the native RNase Rh. The other mutants hydrolyzed 2',3'-cyclic nucleotides at 15-20% of the rates of the native enzyme. Relative enzymatic activities towards four cyclic nucleotides of H109F in the hydrolysis reaction (2nd step) were much higher than in the transphosphorylation reaction (the 1st step). In the presence of a 13-fold excess of uridine, H109F catalyzed the transphosphorylation reaction of 2',3'-cyclic AMP (A>p) to ApU. However, this reaction was not catalyzed by H46F mutant or native RNase Rh. These results showed that His46 is crucial to the hydrolysis reaction, and to the reversed reaction of the transphosphorylation reaction. We suggest that His46 in RNase Rh plays a major role in these reactions by acting as a base catalyst to activate water and the 5'-hydroxyl group of nucleosides, respectively.
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PMID:Role of histidine 46 in the hydrolysis and the reverse transphosphorylation reaction of RNase Rh from Rhizopus niveus. 919 24

Inhibition and substrate competition kinetics demonstrated that tRNA is a highly preferred substrate of thyroid alkaline RNase. The pyrimidine-specific RNase cleaved poly(C) 2.8 x 10(5) faster than poly(U). kcat:K(M) ratios for tRNA and poly(C) based on molecular weights failed to predict preference when both were present. Competition experiments between poly(C) and tRNA revealed tRNA was a tight-binding competing substrate and the cytidylate residues in the 3'-CCA terminus to tRNA were preferred about 280:1 over those in poly(C). Poly(U) was competitive with tRNA. When poly(C) was the substrate, inhibition type by poly(G) depended on poly(G) concentration. Neither tRNA lacking its 3' terminal cytidylyl(3'-5')adenosine and terminating in a 2':3' cCMP residue, tRNA lacking its 3' terminal 5'AMP residue, guanosine, nor guanylyl(3'-5')guanylyl(3'-5')guanosine were inhibitors. Product inhibition by adenosine and 2':3' cCMP showed the kinetic mechanism for cleavage of tRNA was ordered uni bi.
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PMID:Inhibition and substrate competition kinetics in analysis of porcine thyroid alkaline ribonuclease's specificity toward synthetic RNA's and tRNA. 931 16

Labeling of 21-kDa material was observed when bovine brain soluble fraction was incubated with [adenylate-32P]NAD+ in the presence of GTP. The 21-kDa substrate, slightly smaller than C3 substrate in size, was labeled even without C3 exoenzyme. GTP could be replaced by nucleoside triphosphates other than ATP while ATP inhibited the GTP-induced labeling of 21-kDa substrate. After incubation of the soluble fraction with [adenylate-32P]NAD+ in the presence of GTP, [32P]ADP and [32P]ATP were detected in addition to [32P]AMP and [32P]ADP-ribose while only the last two nucleotides were observed without GTP. The 21-kDa substrate was labeled with [alpha-32P]ATP even in the absence of GTP, suggesting adenylylation rather than ADP-ribosylation. The labeled 21-kDa substrate, was extractable by phenol, disappeared with RNase treatment but not with tryptic digestion. Alkaline treatment of the phenol extract yielded an equal mixture of 3'-[32P]CMP and 2'-[32P]CMP. From these results we concluded that the 21-kDa labeling is a result of tRNA tailing with [alpha-32P]ATP generated from the [32P]AMP moiety of [adenylate-32P]NAD+. Results from reconstitution experiments using enzymes and tRNA purified from bovine brain soluble fraction, which are involved in this pathway, confirmed our conclusion.
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PMID:GTP-dependent modification of a 21-kDa substrate with NAD+ in bovine brain soluble fraction is not ADP-ribosylation of small G-protein but tailing of tRNA. 935 90

1. In order to understand the differences in pH optima and reaction rates of RNase A towards low molecular weight substrates and polymer substrates, the subsite structure of bovine pancreatic RNase A was studied. The kinetic studies of various sizes of oligouridylic acids showed that the size of the subsite is three nucleotides long. The kinetic studies on the inhibition of pUp, X-ray crystallographies of RNase A-ApC and pTp complexes, 31P-NMR studies on the binding of RNase A-pAp, and pTp showed the presence of P0, P2 and B3 sites. The location of the P0 site was assigned to be Lys66 by X-ray crystallography of the RNase A-pTp complex. The location of the P2 and/or P3/B3 site was determined by studying the enzymatic activities of several S-peptide analogs in which N-Leu was substituted for Lys7 and/or Lys1 coupled with S-protein toward various chain lengths of oligouridylic acids. The experiment suggested that P2 is Lys7 and P3/B3 is Lys1. 2. Several new pyrimidine base specific RNases were isolated and their primary structures were determined. They were two non-secretory RNases, a bovine liver alkaline RNase, a bovine brain RNase, and a bullfrog liver RNase. The bovine brain RNase has extra 16 amino acids at the C-terminus with O-glycosylated Ser. The bullfrog liver RNase was an extremely heat-stable RNase so far known. 3. Two new RNases belonging to RNase T1 family were isolated and their primary structures were elucidated. They were RNases isolated from Aspergillus saitoi and a mushroom (hiratake). The former RNase has a similar structure to RNase T1, but it was a base non-specific and guanylic acid preferential enzyme. From the results of X-crystallographic studies of this RNase, we suggested that the mechanism of RNase T1 RNase is essentialy a general acid-base catalysis between His40 and Glu58. 4. We isolated several fungal, plant and animal base non-specific acid RNases with a molecular mass about 24 kDa or more, and elucidated their primary structures. These RNases contain two sequences containing common 7-8 amino acid residues in common which include most of the amino acid residues important for the catalysis. Therefore, we proposed to designate these RNases as RNase T2 family RNase. On the basis of chemical modifications, kinetic studies and protein engineering studies of RNase Rh from Rhizopus niveus and RNase M from A. saitoi, we assigned that the catalytic site of RNase Rh consists of His46, His104, His109, Glu105, and Lys108. In the mechanism we proposed for RNase Rh, His46 and His109 work as a general acid and base catalysts. His104 was a phosphate binding site, and Glu105 and Lys108 might work to polarize a P=O bond of the substrate or stabilize the pentacovalent intermediate. However, in the reverse reaction of the transfer reaction step and the hydrolysis step of RNase Rh, His109 and His46 work as an acid and base catalyst, respectively. The X-ray crystallographic studies of RNase Rh, an RNase Rh-2'-AMP or d(ApC)complex, and the protein engineering studies of several mutant enzymes assigned the components of the major base recognition site (B1 site) and the minor base recognition site (B2 sites) of RNase Rh. The enzymatic studies of several mutant enzymes indicated that (i) Asp51 is very crucial for adenine base recognition, and the replacement of Asp51 by other amino acid, such as Thr, Ser, Glu, Asn makes RNase Rh more guanylic acid preferential, (ii) the replacement of Trp49 by Phe, and Tyr57 by Trp make the enzyme more pyrimidine and purine bases preferential, respectively. These trials are the first example of marked artificial change in the base specificity of RNases.
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PMID:[Structures and functions of ribonucleases]. 935 26

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