Enzymes
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Namehelp_outline
a 5'-end (N7-methyl 5'-triphosphoguanosine)-ribonucleoside in mRNA
Identifier
RHEA-COMP:17167
Reactive part
help_outline
- Name help_outline a 5'-(N7-methyl 5'-triphosphoguanosine)-ribonucleoside residue Identifier CHEBI:156461 Charge -2 Formula C16H22N5O17P3R SMILEShelp_outline C1(=O)NC(=NC2=C1[N+](=CN2[C@@H]3O[C@H](COP(OP(OP(OC[C@H]4O[C@H]([C@@H]([C@@H]4O*)O)*)(=O)[O-])(=O)[O-])(=O)[O-])[C@@H](O)[C@H]3O)C)N 2D coordinates Mol file for the small molecule Search links Involved in 19 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
- Name help_outline S-adenosyl-L-methionine Identifier CHEBI:59789 Charge 1 Formula C15H23N6O5S InChIKeyhelp_outline MEFKEPWMEQBLKI-AIRLBKTGSA-O SMILEShelp_outline C[S+](CC[C@H]([NH3+])C([O-])=O)C[C@H]1O[C@H]([C@H](O)[C@@H]1O)n1cnc2c(N)ncnc12 2D coordinates Mol file for the small molecule Search links Involved in 868 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
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Namehelp_outline
a 5'-end (N7-methyl 5'-triphosphoguanosine)-(2'-O-methyl-ribonucleoside) in mRNA
Identifier
RHEA-COMP:17168
Reactive part
help_outline
- Name help_outline 5'-(N7-methyl 5'-triphosphoguanosine)-(2'-O-methyl-ribonucleoside) residue Identifier CHEBI:167609 Charge -2 Formula C17H24N5O17P3R SMILEShelp_outline C1(=O)NC(=NC2=C1[N+](=CN2[C@@H]3O[C@H](COP(OP(OP(OC[C@H]4O[C@H]([C@@H]([C@@H]4O*)OC)*)(=O)[O-])(=O)[O-])(=O)[O-])[C@@H](O)[C@H]3O)C)N 2D coordinates Mol file for the small molecule Search links Involved in 4 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
- Name help_outline H+ Identifier CHEBI:15378 Charge 1 Formula H InChIKeyhelp_outline GPRLSGONYQIRFK-UHFFFAOYSA-N SMILEShelp_outline [H+] 2D coordinates Mol file for the small molecule Search links Involved in 9,431 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
- Name help_outline S-adenosyl-L-homocysteine Identifier CHEBI:57856 Charge 0 Formula C14H20N6O5S InChIKeyhelp_outline ZJUKTBDSGOFHSH-WFMPWKQPSA-N SMILEShelp_outline Nc1ncnc2n(cnc12)[C@@H]1O[C@H](CSCC[C@H]([NH3+])C([O-])=O)[C@@H](O)[C@H]1O 2D coordinates Mol file for the small molecule Search links Involved in 792 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
Cross-references
RHEA:67020 | RHEA:67021 | RHEA:67022 | RHEA:67023 | |
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Reaction direction help_outline | undefined | left-to-right | right-to-left | bidirectional |
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Specific form(s) of this reaction
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Publications
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mRNA(nucleoside-2'-)-methyltransferase from vaccinia virus. Characteristics and substrate specificity.
Barbosa E., Moss B.
An mRNA(nucleoside-2'-)-methyltransferase purified from vaccinia virus was shown to methylate the penultimate nucleoside of RNA ending in m7G(5')pppN-. By contrast, RNAs ending in pN-, ppN-, or even G(5')pppN-are not methyl acceptors. This specificity indicates that 2'-O-methylation is the final s ... >> More
An mRNA(nucleoside-2'-)-methyltransferase purified from vaccinia virus was shown to methylate the penultimate nucleoside of RNA ending in m7G(5')pppN-. By contrast, RNAs ending in pN-, ppN-, or even G(5')pppN-are not methyl acceptors. This specificity indicates that 2'-O-methylation is the final step in the formation of the m7G(5')pppNm-cap structure. Both adenosine and guanosine are methylated, in accordance with the presence of these nucleosides in the penultimate position of vaccinia virus mRNAs. Studies with homopolyribonucleotides containing m7G(5')pppN ends indicated that poly(A) and poly(I) were the best methyl acceptors while significant but much less activity was obtained with poly(G), poly(U), and poly(C). Simple dinucleotides of the type m7G(5')pppN, however, are poor substrates and do not compete with capped RNA. Additional studies indicate that the methyltransferase has a pH optimum of 7.5, does not require divalent cations, is inhibited by S-adenosylhomocysteine, has a Km of 2.0 micrometer for S-adenosylmethionine, a Km of approximately 5 nM for brome mosaic virus RNA, and kinetics consistent with a random bireactant mechanism. << Less
J Biol Chem 253:7698-7702(1978) [PubMed] [EuropePMC]
This publication is cited by 3 other entries.
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Modification of the 5'-terminus of mRNA by soluble guanylyl and methyl transferases from vaccinia virus.
Ensinger M.J., Martin S.A., Paoletti E., Moss B.
RNA guanylyl and methyl transferases have been solubilized from vaccinia virus cores. The guanylyl transferase specifically adds a GMP residue to the 5'-terminus of unmethylated vaccinia virus mRNA to form the structures G(5')ppp(5')Gp- and G(5')ppp(5')Ap-. Studies with [alpha-32P]GTP and [beta, g ... >> More
RNA guanylyl and methyl transferases have been solubilized from vaccinia virus cores. The guanylyl transferase specifically adds a GMP residue to the 5'-terminus of unmethylated vaccinia virus mRNA to form the structures G(5')ppp(5')Gp- and G(5')ppp(5')Ap-. Studies with [alpha-32P]GTP and [beta, gamma-32P]GTP indicated that only the alpha-phosphate is transferred. In the presence of S-adenosylmethionine, the methyl transferases convert the blocked 5'-termini to m7G(5')ppp(5')Gmp- and m7G(5')ppp(5')Amp-. Similarly, the enzymes can modify synthetic poly(A) to form the structure m7G(5')ppp(5')Amp-. << Less
Proc Natl Acad Sci U S A 72:2525-2529(1975) [PubMed] [EuropePMC]
This publication is cited by 11 other entries.
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2'-O-ribose methylation of cap2 in human: function and evolution in a horizontally mobile family.
Werner M., Purta E., Kaminska K.H., Cymerman I.A., Campbell D.A., Mittra B., Zamudio J.R., Sturm N.R., Jaworski J., Bujnicki J.M.
The 5' cap of human messenger RNA consists of an inverted 7-methylguanosine linked to the first transcribed nucleotide by a unique 5'-5' triphosphate bond followed by 2'-O-ribose methylation of the first and often the second transcribed nucleotides, likely serving to modify efficiency of transcrip ... >> More
The 5' cap of human messenger RNA consists of an inverted 7-methylguanosine linked to the first transcribed nucleotide by a unique 5'-5' triphosphate bond followed by 2'-O-ribose methylation of the first and often the second transcribed nucleotides, likely serving to modify efficiency of transcript processing, translation and stability. We report the validation of a human enzyme that methylates the ribose of the second transcribed nucleotide encoded by FTSJD1, henceforth renamed HMTR2 to reflect function. Purified recombinant hMTr2 protein transfers a methyl group from S-adenosylmethionine to the 2'-O-ribose of the second nucleotide of messenger RNA and small nuclear RNA. Neither N(7) methylation of the guanosine cap nor 2'-O-ribose methylation of the first transcribed nucleotide are required for hMTr2, but the presence of cap1 methylation increases hMTr2 activity. The hMTr2 protein is distributed throughout the nucleus and cytosol, in contrast to the nuclear hMTr1. The details of how and why specific transcripts undergo modification with these ribose methylations remains to be elucidated. The 2'-O-ribose RNA cap methyltransferases are present in varying combinations in most eukaryotic and many viral genomes. With the capping enzymes in hand their biological purpose can be ascertained. << Less
Nucleic Acids Res. 39:4756-4768(2011) [PubMed] [EuropePMC]
This publication is cited by 5 other entries.
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Synthesis of mRNA guanylyltransferase and mRNA methyltransferases in cells infected with vaccinia virus.
Boone R.F., Ensinger M.J., Moss B.
Guanylyltransferase and methyltransferases that modify the 5'-terminals of viral mRNA's to form the structures m7G(5')pppAm- and m7G(5')pppGm-appear to be synthesized afte-vaccinia virus infection of HeLa cells. Elevations in these enzyme activities were detected within 1 h after virus inoculation ... >> More
Guanylyltransferase and methyltransferases that modify the 5'-terminals of viral mRNA's to form the structures m7G(5')pppAm- and m7G(5')pppGm-appear to be synthesized afte-vaccinia virus infection of HeLa cells. Elevations in these enzyme activities were detected within 1 h after virus inoculation and increased 15-to 30-fold by 4 to 10 h. Increases in the guanylyl- and methyltransferase activities were prevented by cycloheximide, an inhibitor of protein synthesis, but not by cytosine arabinoside, an inhibitor of DNA synthesis. The latter results suggest that the mRNA guanylyl- and methyltransferases are "early" or prereplicative viral gene products. The guanylyltransferase and two methyltransferases, a guanine-7-methyltransferase and nucleoside-2'-methyltransferase, were isolated by column chromatography from infected cell extracts and found to have properties similar or identical to those of the corresponding enzyme previously isolated from vaccinia virus cores. In contrast, enzymes with these properties could not be isolated from uninfected cells. << Less
J Virol 21:475-483(1977) [PubMed] [EuropePMC]
This publication is cited by 3 other entries.
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The 2'-O-ribose methyltransferase for cap 1 of spliced leader RNA and U1 small nuclear RNA in Trypanosoma brucei.
Zamudio J.R., Mittra B., Foldynova-Trantirkova S., Zeiner G.M., Lukes J., Bujnicki J.M., Sturm N.R., Campbell D.A.
mRNA cap 1 2'-O-ribose methylation is a widespread modification that is implicated in processing, trafficking, and translational control in eukaryotic systems. The eukaryotic enzyme has yet to be identified. In kinetoplastid flagellates trans-splicing of spliced leader (SL) to polycistronic precur ... >> More
mRNA cap 1 2'-O-ribose methylation is a widespread modification that is implicated in processing, trafficking, and translational control in eukaryotic systems. The eukaryotic enzyme has yet to be identified. In kinetoplastid flagellates trans-splicing of spliced leader (SL) to polycistronic precursors conveys a hypermethylated cap 4, including a cap 0 m7G and seven additional methylations on the first 4 nucleotides, to all nuclear mRNAs. We report the first eukaryotic cap 1 2'-O-ribose methyltransferase, TbMTr1, a member of a conserved family of viral and eukaryotic enzymes. Recombinant TbMTr1 methylates the ribose of the first nucleotide of an m7G-capped substrate. Knockdowns and null mutants of TbMTr1 in Trypanosoma brucei grow normally, with loss of 2'-O-ribose methylation at cap 1 on substrate SL RNA and U1 small nuclear RNA. TbMTr1-null cells have an accumulation of cap 0 substrate without further methylation, while spliced mRNA is modified efficiently at position 4 in the absence of 2'-O-ribose methylation at position 1; downstream cap 4 methylations are independent of cap 1. Based on TbMTr1-green fluorescent protein localization, 2'-O-ribose methylation at position 1 occurs in the nucleus. Accumulation of 3'-extended SL RNA substrate indicates a delay in processing and suggests a synergistic role for cap 1 in maturation. << Less
Mol. Cell. Biol. 27:6084-6092(2007) [PubMed] [EuropePMC]
This publication is cited by 3 other entries.
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mRNA(nucleoside-2'-)-methyltransferase from vaccinia virus. Purification and physical properties.
Barbosa E., Moss B.
An S-adenosyl-L-methionine:mRNA(nucleoside-2'-)-methyltransferase, one of at least three activities required for the 5'-terminal modification of mRNA, has been purified from vaccinia virus particles. Employing brome mosaic virus RNA ending in m7G(5')pppG-as substrate, a simple DEAE-cellulose filte ... >> More
An S-adenosyl-L-methionine:mRNA(nucleoside-2'-)-methyltransferase, one of at least three activities required for the 5'-terminal modification of mRNA, has been purified from vaccinia virus particles. Employing brome mosaic virus RNA ending in m7G(5')pppG-as substrate, a simple DEAE-cellulose filter assay measuring the incorporation of methyl groups from S-adenosyl[methyl-3H]methionine to position 2' of the penultimate nucleoside was devised. Starting from disrupted vaccinia virus cores, a 350-fold enzyme purification was achieved by successive chromatography on columns of DEAE-cellulose, CM-Sephadex, and APP-agarose. Analysis of the isolated enzyme by sodium dodecyl sulfate-polyacrylamide discontinuous gel electrophoresis revealed a single polypeptide with a molecular weight of 38,000. Similar molecular weights were obtained by sucrose gradient centrifugation and gel filtration of the native methyltransferase. The isoelectric point of the purified enzyme occurs at pH 8.4. << Less
J Biol Chem 253:7692-7697(1978) [PubMed] [EuropePMC]
This publication is cited by 3 other entries.
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Autographa californica nucleopolyhedrovirus orf69 encodes an RNA cap (nucleoside-2'-O)-methyltransferase.
Wu X., Guarino L.A.
The AcNPV orf69 gene encodes a protein that contains an S-adenosylmethionine (AdoMet)-dependent methyltransferase signature motif. More significantly, ORF69 shows high conservation at residues diagnostic for (nucleoside 2'-O)-methyltransferase activity. To analyze the function of this protein, whi ... >> More
The AcNPV orf69 gene encodes a protein that contains an S-adenosylmethionine (AdoMet)-dependent methyltransferase signature motif. More significantly, ORF69 shows high conservation at residues diagnostic for (nucleoside 2'-O)-methyltransferase activity. To analyze the function of this protein, which was renamed MTase1, it was overexpressed in Escherichia coli and purified to homogeneity. Photo cross-linking experiments showed that MTase1 bound AdoMet, and functional assays demonstrated cap 0-dependent methyltransferase activity. In vivo expression assays in insect cells showed that MTase1 was synthesized during the late phase of infection and that its expression was dependent on viral DNA replication. Primer extension analysis identified a late promoter motif, ATAAG, at the transcription start site. A mutant virus was constructed by inserting the lacZ gene into the coding region of mtase1. Immunoblot analysis confirmed that MTase1 was not synthesized in these cells, and single-step growth curves revealed that the rate of virus replication in tissue culture was not affected by the absence of MTase1. << Less
J. Virol. 77:3430-3440(2003) [PubMed] [EuropePMC]
This publication is cited by 3 other entries.
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Methylation and capping of RNA polymerase II primary transcripts by HeLa nuclear homogenates.
Groner Y., Gilboa E., Aviv H.
HeLa nuclear homogenates incubated in vitro incorporate [beta-32P]ATP and S-[methyl-3H]-adenosylmeth-ionine ([3H]SAM) into blocked methylated 5' termini of newly synthesized RNA. Approximately 10% of the RNA chains initiated in vitro with [beta-32P]ATP are subsequently blocked by condensation of G ... >> More
HeLa nuclear homogenates incubated in vitro incorporate [beta-32P]ATP and S-[methyl-3H]-adenosylmeth-ionine ([3H]SAM) into blocked methylated 5' termini of newly synthesized RNA. Approximately 10% of the RNA chains initiated in vitro with [beta-32P]ATP are subsequently blocked by condensation of GMP to di- or triphosphate terminated RNA. The blocked termini can then be methylated by transfer of methyl groups from [3H]SAM to the 7 position of the guanosine and 2'-O position of the adenosine to form m7Gpp*pAm-capped terminus. In addition to conventional triphosphate caps, HeLa nuclear homogenates produce capping structures containing two phosphate residues in the pyrophosphate bridge. The two distinct cap forms were separated by DEAE-cellulose chromatography and analyzed. In contrast to triphosphate caps (m7GpppXm) in which X can be any one of the four nucleosides (G, A, C, or U), in diphosphate caps (m7GppXm), more than 95% of the penultimate nucleoside Xm is G. Incorporation of both [beta-32P]ATP and [3H]SAM into caps was markedly reduced by low concentrations of alpha-amanitin. However, an ammonium sulfate fraction of the nuclear homogenate can cap beta-32P-labeled RNA (pp*pA-RNA) to form m7Gpp*pA-RNA, in the presence of 0.5 microgram/mL of alpha-amanitin. Therefore, the nuclear capping enzyme is resistant to this drug. Our results indicate that RNA polymerase II primary transcripts are the substrate for the cellular capping enzyme and that the beta phosphate in the pyrophosphate bridge (m7GgammapbetapalphapXm) is derived from the 5' ends of the RNA chains. << Less
Biochemistry 17:977-982(1978) [PubMed] [EuropePMC]
This publication is cited by 11 other entries.