Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.1 (phosphodiesterase)
 18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We describe here a sensitive and straightforward method for characterizing the methylation specificity of type II DNA methyltransferase (MTase) using matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry. DNA substrate, prepared by ligation of a commercially available oligonucleotide, was modified by the subject MTase, and was derivatized to a mixture of single-stranded oligonucleotides through endonuclease treatment, heat-denaturation and limited digestion by 3'-terminus-specific phosphodiesterase I. MALDI-TOF mass spectrometry was used to determine the mass differences between the digestion products, and the methylated nucleotide was explicitly identified by the mass increase of 14 Da due to the base modification. The method was applicable to the three representative MTases M. Eco RI, M. Bam HI and M. Hae III.
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PMID:Determination of methylation specificity of sequence-specific DNA methyltransferases using matrix assisted laser desorption/ionization time-of-flight mass spectrometry. 932 74

Reported here is how modified oligonucleotides with increased affinity for DNA or RNA target strands can be selected from small combinatorial libraries via spectrometrically monitored selection experiments (SMOSE). The extent to which target strands retard the degradation of 5'-acyl-, 5'-aminoacyl-, and 5'-dipeptidyl-oligodeoxyribonucleotides by phosphodiesterase I (EC 3.1.4.1) was measured via quantitative MALDI-TOF mass spectrometry. Oligonucleotide hybrids were prepared on solid support, and nuclease selections were performed with up to 10 modified oligonucleotides in one solution. The mass spectrometrically monitored experiments required between 120 and 300 pmol of each modified oligonucleotide, depending on whether HPLC-purified or crude compounds were employed. Data acquisition and analysis were optimized to proceed in semiautomated fashion, and functions correcting for incomplete degradation during the monitoring time were developed. Integration of the degradation kinetics provided "protection factors" that correlate well with melting points obtained with traditional UV melting curves employing single, pure compounds. Among the components of the five libraries tested, three were found to contain 5'-substituents that strongly stabilize Watson--Crick duplexes. Selecting and optimizing modified oligonucleotides via monitored nuclease assays may offer a more efficient way to search for new antisense agents, hybridization probes, and biochemical tools.
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PMID:Selection of modified oligonucleotides with increased target affinity via MALDI-monitored nuclease survival assays. 1074 27

Data on five single-nucleotide polymorphisms (SNPs) per gene are estimated to allow association of disease risks or pharmacogenetic parameters with individual genes. Efficient technologies for rapidly detecting SNPs will therefore facilitate the mining of genomic information. Known methods for SNP analysis include restriction-fragment-length polymorphism polymerase chain reaction (PCR), allele-specific oligomer hybridization, oligomer-specific ligation assays, minisequencing, direct sequencing, fluorescence-detected 5'-exonuclease assays, and hybridization with PNA probes. Detection by mass spectrometry (MS) offers speed and high resolution. Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI TOF MS) can detect primer extension products, mass-tagged oligonucleotides, DNA created by restriction endonuclease cleavage, and genomic DNA. We have previously reported MALDI-TOF-monitored nuclease selections of modified oligonucleotides with increased affinity for targets. Here we use nuclease selections for genotyping by treating DNA to be analyzed with oligonucleotide probes representing known genotypes and digesting probes that are not complementary to the DNA. With phosphodiesterase I, the target-bound, complementary probe is largely refractory to nuclease attack and its peak persists in mass spectra (Fig. 1A). In optimized assays, both alleles of a heterozygote were genotyped with six nonamer DNA probes (> or = 125 fmol each) and asymmetrically amplified DNA from exon 10 of the cystic fibrosis transmembrane regulatory gene (CFTR).
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PMID:Rapid genotyping by MALDI-monitored nuclease selection from probe libraries. 1106 45

The location of carcinogen-modified nucleobases (DNA adducts) within DNA sequences is a critical factor affecting their promutagenic properties and persistence in DNA. We now report the use of controlled exonuclease digestion followed by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) to directly map modified nucleobases within DNA. The DNA sequence is determined by mass spectral analysis of the DNA ladders produced by sequential removal of nucleotides with either 5'-->3' or 3'-->5' exonuclease. Individual mononucleotides are identified from the mass differences between adjacent peaks corresponding to singly charged ions of the products of enzymatic cleavage. Chemically modified nucleotides are detected and identified by their molecular weight. The resolution and mass accuracy of this approach are sufficient to identify nucleobase modifications differing in mass by as little as 2 Da. No a priori information on the DNA sequence or adduct type is required. We demonstrate the general applicability of this method by sequencing synthetic oligonucleotides containing a range of nucleobase modifications: O(6)-methylguanine, peroxynitrite-induced oxidative lesions (oxaluric acid, oxazolone, cyanuric acid), and the N(2)-guanine adduct of (+,-)-7r,8t-dihydroxy-9t,10t-epoxy-7,8,9,10-tetrahydribenzo[a]pyrene. Sequence information is also obtained for DNA oligodeoxynucleotides containing O(6)-pyridyloxobutylguanine, despite the ability of this lesion to block 3'-phosphodiesterase.
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PMID:Locating nucleobase lesions within DNA sequences by MALDI-TOF mass spectral analysis of exonuclease ladders. 1151 Nov 80

For deciphering the cyclic guanosine monophosphate (cGMP) signaling pathway, we employed chemical proteomics to identify the novel target molecules of cGMP. We used cGMP that was immobilized onto agarose beads with linkers directed at three different positions of cGMP. We performed a pull-down assay using the beads as baits on tissue lysates and identified 9 proteins by MALDI-TOF (Matrix-Assisted Laser Desorption/Ionization Time-of-Flight) mass spectrometry. Some of the identified proteins were previously known cGMP targets, including cGMP-dependent protein kinase and cGMP-stimulated phosphodiesterase. Surprisingly, some of the coprecipitated proteins were never formerly reported to associate with the cGMP signaling pathway. The competition binding assays showed that the interactions are not by nonspecific binding to either the linker or bead itself, but by specific binding to cGMP. Furthermore, we observed that the interactions are highly specific to cGMP against other nucleotides, such as cyclic adenosine monophosphate (cAMP) and 5\'-GMP, which are structurally similar to cGMP. As one of the identified targets, MAPK1 was confirmed by immunoblotting with an anti-MAPK1 antibody. For further proof, we observed that the membrane-permeable cGMP (8-bromo cyclic GMP) stimulated mitogen-activated protein kinase 1 signaling in the treated cells. Our present study suggests that chemical proteomics can be a very useful and powerful technique for identifying the target proteins of small bioactive molecules.
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PMID:Identification of novel target proteins of cyclic GMP signaling pathways using chemical proteomics. 1278 86

Self-complementary [[5'-d(G-C)4]2] and non-selfcomplementary oligonucleotides [5'-d(TAG GTC AAT ACT) x 3'-d(ATC CAG TTA TGA)] containing 7-(omega-aminoalkyn-1-yl)-7-deaza-2'-deoxyguanosines (1a-c) (1) and 7-deaza-2'-deoxyguanosine instead of dG were studied regarding their thermal stability as well as their phosphodiester hydrolysis by either 3' --> 5'- or 5' --> 3'-phosphodiesterase studied by MALDI-TOF MS.
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PMID:Oligonucleotides incorporating 7-(aminoalkyn-1-yl)-7-deaza-2'-deoxyguanosines: duplex stability and phosphodiester hydrolysis by exonucleases. 1456 87

Nucleic acid "lariats" have been of great interest to the biological community since their discovery two decades ago as splicing intermediates in the biosynthesis of messenger RNA (lariat RNA introns). We report here the first synthesis of lariat DNA and RNA via template-mediated chemical ligation of Y-shaped oligonucleotides. The method allows for the synthesis of lariat DNA of any base composition as well as the more biologically relevant lariat RNA. Typically, branched precursors and complementary linear templates ("splints") were dissolved in an equimolar ratio at a total concentration of 10(-4) M, and ligation was promoted by addition of cyanogen bromide in a pH 7.6 buffer. The template-directed cyclization was very efficient, since the amount of circularized lariat product observed in all cases was in the 40-60% range. The lariats were purified by polyacrylamide gel electrophoresis, and their structure and nucleotide composition confirmed by MALDI-TOF mass spectrometry. Thermal denaturation and circular dichroism studies of lariat:RNA and lariat:DNA duplexes were fully supportive of the isolated "lasso" structures. Further characterization was conducted by enzymatic degradation with spleen phosphodiesterase (a 3'-exonuclease) and the RNA lariat debranching enzyme, a specific 2',5'-phosphodiesterase.
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PMID:Template-mediated synthesis of lariat RNA and DNA. 1457 54

In boar spermatozoa, the capacitating agent bicarbonate has been shown to induce rapid changes both in plasma membrane lipid architecture and in motility; in each case, a PKA-dependent pathway is involved. Early bicarbonate-induced changes in protein phosphorylation were probed using a commercial antibody against the phosphorylated form of the consensus substrate site for cyclic AMP-dependent protein kinase. The antibody detected relatively few bands in sperm extracts, of which only a small number showed incubation-dependent changes. While the quantitative response varied between boar ejaculates, in general terms bicarbonate induced phosphorylation increases in bands of 96, 64, and 59 kDa within 80 sec. The changes reached a maximum after about 160 sec, declined somewhat thereafter, and then increased again slowly as incubation progressed further (up to 21 min). The bicarbonate-induced increases were strongly dependent on the presence of BSA in the incubation medium. They were inhibited by H89 (PKA inhibitor) but not by GF (PKC inhibitor), and were enhanced by papaverine (phosphodiesterase inhibitor) and by calyculin (protein phosphatase inhibitor). The cyclic AMP analogue cBIMPS was able to mimic bicarbonate action though its effect was less dramatic. Stearated Ht31, a permeable inhibitor of PKA's binding to A-kinase anchoring protein, did not affect either the intensity or the specificity of the bicarbonate-induced phosphorylation changes, though it blocked motility entirely. Immunocytochemical studies revealed marked bicarbonate-dependent phosphorylation changes in the post-acrosomal region of the head and in the neck, midpiece, and anterior regions of the tail. Fractionation of stimulated spermatozoa showed that all bands detectable with the antibody were bound to heads and to midpieces and associated large tail fragments; no bands were detected in either small tail or membrane fragments or in the cytoplasmic fraction. Differential extraction of the midpiece/large tail fraction revealed two protein bands with closely similar electrophoretic mobilities to the 96- and 59-kDa phosphorylated bands; MALDI-TOF analyses of these bands revealed both to be members of the Odf2 family.
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PMID:Rapid PKA-catalysed phosphorylation of boar sperm proteins induced by the capacitating agent bicarbonate. 1473 95

Cytoskeletal structures under the cell membrane carry out pivotal roles in the maintenance and remodeling of the cell structures. Reforming of the cytoskeletal networks after partial extraction of membrane components could be a good clue to identify molecular components pertaining the interaction of cytoskeleton with membrane. A detergent extract from 3-week-old rat brain membrane fraction was found to make an actin-based gel upon incubation at 25 degrees C. Some protein components of the gelation products were recovered in a Triton-insoluble low-density microdomain fraction (raft) after depolymerization of actin filaments. Some of these proteins were identified as 2',3'-cyclic nucleotide-3'-phosphodiesterase (CNPase), proteolipid protein (PLP), and myelin oligodendrocyte glycoprotein (MOG) through electrospray time-of-flight (ESI-TOF) analysis and Western blotting. Because these proteins are well-known marker proteins of oligodendrocytes, localization of these proteins and cholesterol, a raft-localized lipid, with actin filaments was studied using cultured oligodendrocytes. Clear colocalization of these proteins and cholesterol with actin filaments was observed after Triton treatment at 4 degrees C before fixation. These results indicate that raft microdomains participate in the formation of cell shape through interaction with microfilaments in oligodendrocytes.
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PMID:Biochemical and morphologic evidence of the interaction of oligodendrocyte membrane rafts with actin filaments. 1593 70

Adipose tissues play a crucial endocrine role in the control of whole body glucose homeostasis and insulin sensitivity. Considering the current substantial rise in obesity and obesity-related diseases, including diabetes, it is important to understand the molecular basis of adipocyte differentiation and its control. In this study, we have analyzed the protein expression inherent to adipogenic differentiation, by 2-DE, MALDI-TOF, and RT-PCR. This study focused on proteins that were differentially expressed by the differentiation of human mesenchymal stem cells (hMSCs) to adipocytes. We conducted 2-DE for each set of proteins in the cytosol of adipocytes that had differentiated from hMSC, in a pH range from 3-10. Thirty-two protein spots were shown to have different expression levels. Among these, eight up-regulated proteins were identified by MALDI-TOF/MS, as the following: syntaxin binding protein 3, OSBP-related protein 3, phosphodiesterase, glycophorin, immunoglobulin kappa chain variable region, peroxisome proliferative activated receptor gamma (PPAR-gamma), bA528A10.3.1 (novel protein similar to KIAA01616, isoform 1), and T cell receptor V-beta 4. Four proteins: syntaxin-3, OSBP-related protein 3, PPAR-gamma and glycophorin were associated with adipogenesis.
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PMID:The proteomic analysis of an adipocyte differentiated from human mesenchymal stem cells using two-dimensional gel electrophoresis. 1642 33


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