2vdv Citations

Structure of the yeast tRNA m7G methylation complex.

Leulliot N, Chaillet M, Durand D, Ulryck N, Blondeau K, van Tilbeurgh H
Structure 16 52-61 (2008)
Cited: 70 times
EuropePMC logo PMID: 18184583

Abstract

Loss of N7-methylguanosine (m7G) modification is involved in the recently discovered rapid tRNA degradation pathway. In yeast, this modification is catalyzed by the heterodimeric complex composed of a catalytic subunit Trm8 and a noncatalytic subunit Trm82. We have solved the crystal structure of Trm8 alone and in complex with Trm82. Trm8 undergoes subtle conformational changes upon Trm82 binding which explains the requirement of Trm82 for activity. Cocrystallization with the S-adenosyl-methionine methyl donor defines the putative catalytic site and a guanine binding pocket. Small-angle X-ray scattering in solution of the Trm8-Trm82 heterodimer in complex with tRNA(Phe) has enabled us to propose a low-resolution structure of the ternary complex which defines the tRNA binding mode of Trm8-Trm82 and the structural elements contributing to specificity.

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  2. A generalized approach to sampling backbone conformations with RosettaDock for CAPRI rounds 13-19. Sircar A, Chaudhury S, Kilambi KP, Berrondo M, Gray JJ. Proteins 78 3115-3123 (2010)
  3. MarkUs: a server to navigate sequence-structure-function space. Fischer M, Zhang QC, Dey F, Chen BY, Honig B, Petrey D. Nucleic Acids Res. 39 W357-61 (2011)


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  1. Gene expression regulation mediated through reversible m⁶A RNA methylation. Fu Y, Dominissini D, Rechavi G, He C. Nat. Rev. Genet. 15 293-306 (2014)
  2. Methylated nucleosides in tRNA and tRNA methyltransferases. Hori H. Front Genet 5 144 (2014)
  3. N6-methyladenosine modification in mRNA: machinery, function and implications for health and diseases. Maity A, Das B. FEBS J. 283 1607-1630 (2016)
  4. Diversity in mechanism and function of tRNA methyltransferases. Swinehart WE, Jackman JE. RNA Biol 12 398-411 (2015)
  5. Two-subunit enzymes involved in eukaryotic post-transcriptional tRNA modification. Guy MP, Phizicky EM. RNA Biol 11 1608-1618 (2014)
  6. A rationale for tRNA modification circuits in the anticodon loop. Han L, Phizicky EM. RNA 24 1277-1284 (2018)
  7. 7-Methylguanosine Modifications in Transfer RNA (tRNA). Tomikawa C. Int J Mol Sci 19 (2018)
  8. Epigenetic Signaling and RNA Regulation in Cardiovascular Diseases. Mongelli A, Atlante S, Bachetti T, Martelli F, Farsetti A, Gaetano C. Int J Mol Sci 21 (2020)
  9. Internal m7G methylation: A novel epitranscriptomic contributor in brain development and diseases. Xia X, Wang Y, Zheng JC. Mol Ther Nucleic Acids 31 295-308 (2023)
  10. The life and times of a tRNA. Phizicky EM, Hopper AK. RNA 29 898-957 (2023)
  11. The role of RNA modification in hepatocellular carcinoma. Feng Q, Wang D, Xue T, Lin C, Gao Y, Sun L, Jin Y, Liu D. Front Pharmacol 13 984453 (2022)
  12. Epitranscriptomics as a New Layer of Regulation of Gene Expression in Skeletal Muscle: Known Functions and Future Perspectives. Imbriano C, Moresi V, Belluti S, Renzini A, Cavioli G, Maretti E, Molinari S. Int J Mol Sci 24 15161 (2023)
  13. Multi-Substrate Specificity and the Evolutionary Basis for Interdependence in tRNA Editing and Methylation Enzymes. Dixit S, Henderson JC, Alfonzo JD. Front Genet 10 104 (2019)
  14. N7-methylguanosine modification: from regulatory roles to therapeutic implications in cancer. Cai M, Yang C, Wang Z. Am J Cancer Res 13 1640-1655 (2023)
  15. The epigenetic implication in coronavirus infection and therapy. Atlante S, Mongelli A, Barbi V, Martelli F, Farsetti A, Gaetano C. Clin Epigenetics 12 156 (2020)
  16. To be or not to be modified: Miscellaneous aspects influencing nucleotide modifications in tRNAs. Barraud P, Tisné C. IUBMB Life 71 1126-1140 (2019)

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  1. Docking and scoring protein interactions: CAPRI 2009. Lensink MF, Wodak SJ. Proteins 78 3073-3084 (2010)
  2. Prp43p contains a processive helicase structural architecture with a specific regulatory domain. Walbott H, Mouffok S, Capeyrou R, Lebaron S, Humbert O, van Tilbeurgh H, Henry Y, Leulliot N. EMBO J. 29 2194-2204 (2010)
  3. N7-Methylguanine at position 46 (m7G46) in tRNA from Thermus thermophilus is required for cell viability at high temperatures through a tRNA modification network. Tomikawa C, Yokogawa T, Kanai T, Hori H. Nucleic Acids Res. 38 942-957 (2010)
  4. Blind predictions of protein interfaces by docking calculations in CAPRI. Lensink MF, Wodak SJ. Proteins 78 3085-3095 (2010)
  5. Performance of ZDOCK and ZRANK in CAPRI rounds 13-19. Hwang H, Vreven T, Pierce BG, Hung JH, Weng Z. Proteins 78 3104-3110 (2010)
  6. Mechanism of activation of methyltransferases involved in translation by the Trm112 'hub' protein. Liger D, Mora L, Lazar N, Figaro S, Henri J, Scrima N, Buckingham RH, van Tilbeurgh H, Heurgué-Hamard V, Graille M. Nucleic Acids Res. 39 6249-6259 (2011)
  7. Transcriptome-wide Mapping of Internal N7-Methylguanosine Methylome in Mammalian mRNA. Zhang LS, Liu C, Ma H, Dai Q, Sun HL, Luo G, Zhang Z, Zhang L, Hu L, Dong X, He C. Mol Cell 74 1304-1316.e8 (2019)
  8. Binding site prediction and improved scoring during flexible protein-protein docking with ATTRACT. Fiorucci S, Zacharias M. Proteins 78 3131-3139 (2010)
  9. Crystal structure of tRNA m1G9 methyltransferase Trm10: insight into the catalytic mechanism and recognition of tRNA substrate. Shao Z, Yan W, Peng J, Zuo X, Zou Y, Li F, Gong D, Ma R, Wu J, Shi Y, Zhang Z, Teng M, Li X, Gong Q. Nucleic Acids Res. 42 509-525 (2014)
  10. Crystal structures of human BTG2 and mouse TIS21 involved in suppression of CAF1 deadenylase activity. Yang X, Morita M, Wang H, Suzuki T, Yang W, Luo Y, Zhao C, Yu Y, Bartlam M, Yamamoto T, Rao Z. Nucleic Acids Res. 36 6872-6881 (2008)
  11. Mutation in WDR4 impairs tRNA m(7)G46 methylation and causes a distinct form of microcephalic primordial dwarfism. Shaheen R, Abdel-Salam GM, Guy MP, Alomar R, Abdel-Hamid MS, Afifi HH, Ismail SI, Emam BA, Phizicky EM, Alkuraya FS. Genome Biol. 16 210 (2015)
  12. PresCont: predicting protein-protein interfaces utilizing four residue properties. Zellner H, Staudigel M, Trenner T, Bittkowski M, Wolowski V, Icking C, Merkl R. Proteins 80 154-168 (2012)
  13. Strengths and weaknesses of data-driven docking in critical assessment of prediction of interactions. de Vries SJ, Melquiond AS, Kastritis PL, Karaca E, Bordogna A, van Dijk M, Rodrigues JP, Bonvin AM. Proteins 78 3242-3249 (2010)
  14. Two distinct regions in Staphylococcus aureus GatCAB guarantee accurate tRNA recognition. Nakamura A, Sheppard K, Yamane J, Yao M, Söll D, Tanaka I. Nucleic Acids Res. 38 672-682 (2010)
  15. Eukaryotic rRNA Modification by Yeast 5-Methylcytosine-Methyltransferases and Human Proliferation-Associated Antigen p120. Bourgeois G, Ney M, Gaspar I, Aigueperse C, Schaefer M, Kellner S, Helm M, Motorin Y. PLoS ONE 10 e0133321 (2015)
  16. The targets of CAPRI Rounds 13-19. Janin J. Proteins 78 3067-3072 (2010)
  17. Capturing the interactome of newly transcribed RNA. Bao X, Guo X, Yin M, Tariq M, Lai Y, Kanwal S, Zhou J, Li N, Lv Y, Pulido-Quetglas C, Wang X, Ji L, Khan MJ, Zhu X, Luo Z, Shao C, Lim DH, Liu X, Li N, Wang W, He M, Liu YL, Ward C, Wang T, Zhang G, Wang D, Yang J, Chen Y, Zhang C, Jauch R, Yang YG, Wang Y, Qin B, Anko ML, Hutchins AP, Sun H, Wang H, Fu XD, Zhang B, Esteban MA. Nat. Methods 15 213-220 (2018)
  18. Combining interface core and whole interface descriptors in postscan processing of protein-protein docking models. Kowalsman N, Eisenstein M. Proteins 77 297-318 (2009)
  19. Score_set: a CAPRI benchmark for scoring protein complexes. Lensink MF, Wodak SJ. Proteins 82 3163-3169 (2014)
  20. Strategies for the structural analysis of multi-protein complexes: lessons from the 3D-Repertoire project. Collinet B, Friberg A, Brooks MA, van den Elzen T, Henriot V, Dziembowski A, Graille M, Durand D, Leulliot N, Saint André C, Lazar N, Sattler M, Séraphin B, van Tilbeurgh H. J. Struct. Biol. 175 147-158 (2011)
  21. METTL1-mediated m7G modification of Arg-TCT tRNA drives oncogenic transformation. Orellana EA, Liu Q, Yankova E, Pirouz M, De Braekeleer E, Zhang W, Lim J, Aspris D, Sendinc E, Garyfallos DA, Gu M, Ali R, Gutierrez A, Mikutis S, Bernardes GJL, Fischer ES, Bradley A, Vassiliou GS, Slack FJ, Tzelepis K, Gregory RI. Mol Cell 81 3323-3338.e14 (2021)
  22. Optimization of pyDock for the new CAPRI challenges: Docking of homology-based models, domain-domain assembly and protein-RNA binding. Pons C, Solernou A, Perez-Cano L, Grosdidier S, Fernandez-Recio J. Proteins 78 3182-3188 (2010)
  23. CONS-COCOMAPS: a novel tool to measure and visualize the conservation of inter-residue contacts in multiple docking solutions. Vangone A, Oliva R, Cavallo L. BMC Bioinformatics 13 Suppl 4 S19 (2012)
  24. Selection of near-native poses in CAPRI rounds 13-19. Qin S, Zhou HX. Proteins 78 3166-3173 (2010)
  25. The structure of the NasR transcription antiterminator reveals a one-component system with a NIT nitrate receptor coupled to an ANTAR RNA-binding effector. Boudes M, Lazar N, Graille M, Durand D, Gaidenko TA, Stewart V, van Tilbeurgh H. Mol. Microbiol. 85 431-444 (2012)
  26. Wuho Is a New Member in Maintaining Genome Stability through its Interaction with Flap Endonuclease 1. Cheng IC, Chen BC, Shuai HH, Chien FC, Chen P, Hsieh TS. PLoS Biol. 14 e1002349 (2016)
  27. Activation mode of the eukaryotic m2G10 tRNA methyltransferase Trm11 by its partner protein Trm112. Bourgeois G, Marcoux J, Saliou JM, Cianférani S, Graille M. Nucleic Acids Res. 45 1971-1982 (2017)
  28. CAPRI targets T29-T42: proving ground for new docking procedures. Eisenstein M, Ben-Shimon A, Frankenstein Z, Kowalsman N. Proteins 78 3174-3181 (2010)
  29. Further delineation of the phenotype caused by biallelic variants in the WDR4 gene. Trimouille A, Lasseaux E, Barat P, Deiller C, Drunat S, Rooryck C, Arveiler B, Lacombe D. Clin. Genet. 93 374-377 (2018)
  30. Kinetic characterization of substrate-binding sites of thermostable tRNA methyltransferase (TrmB). Tomikawa C, Takai K, Hori H. J. Biochem. 163 133-142 (2018)
  31. Mettl1/Wdr4-Mediated m7G tRNA Methylome Is Required for Normal mRNA Translation and Embryonic Stem Cell Self-Renewal and Differentiation. Lin S, Liu Q, Lelyveld VS, Choe J, Szostak JW, Gregory RI. Mol. Cell 71 244-255.e5 (2018)
  32. A machine learning approach for ranking clusters of docked protein-protein complexes by pairwise cluster comparison. Pfeiffenberger E, Chaleil RA, Moal IH, Bates PA. Proteins 85 528-543 (2017)
  33. Monomeric tRNA (m(7)G46) methyltransferase from Escherichia coli presents a novel structure at the function-essential insertion. Zhou H, Liu Q, Yang W, Gao Y, Teng M, Niu L. Proteins 76 512-515 (2009)
  34. Binding synergy as an essential step for tRNA editing and modification enzyme codependence in Trypanosoma brucei. McKenney KM, Rubio MAT, Alfonzo JD. RNA 24 56-66 (2018)
  35. Functional roles in S-adenosyl-L-methionine binding and catalysis for active site residues of the thiostrepton resistance methyltransferase. Myers CL, Kuiper EG, Grant PC, Hernandez J, Conn GL, Honek JF. FEBS Lett. 589 3263-3270 (2015)
  36. Identification of tRNA nucleoside modification genes critical for stress response and development in rice and Arabidopsis. Wang Y, Pang C, Li X, Hu Z, Lv Z, Zheng B, Chen P. BMC Plant Biol. 17 261 (2017)
  37. Multi-omics integration of methyltransferase-like protein family reveals clinical outcomes and functional signatures in human cancer. Campeanu IJ, Jiang Y, Liu L, Pilecki M, Najor A, Cobani E, Manning M, Zhang XM, Yang ZQ. Sci Rep 11 14784 (2021)
  38. Novel modulation factor quantifies the role of water molecules in protein interactions. Bueno M, Temiz NA, Camacho CJ. Proteins 78 3226-3234 (2010)
  39. Structural basis of regulated m7G tRNA modification by METTL1-WDR4. Li J, Wang L, Hahn Q, Nowak RP, Viennet T, Orellana EA, Roy Burman SS, Yue H, Hunkeler M, Fontana P, Wu H, Arthanari H, Fischer ES, Gregory RI. Nature 613 391-397 (2023)
  40. Structures and mechanisms of tRNA methylation by METTL1-WDR4. Ruiz-Arroyo VM, Raj R, Babu K, Onolbaatar O, Roberts PH, Nam Y. Nature 613 383-390 (2023)
  41. Structural model of the M7G46 Methyltransferase TrmB in complex with tRNA. Blersch KF, Burchert JP, August SC, Welp L, Neumann P, Köster S, Urlaub H, Ficner R. RNA Biol 18 2466-2479 (2021)
  42. Defects in t6A tRNA modification due to GON7 and YRDC mutations lead to Galloway-Mowat syndrome. Arrondel C, Missoury S, Snoek R, Patat J, Menara G, Collinet B, Liger D, Durand D, Gribouval O, Boyer O, Buscara L, Martin G, Machuca E, Nevo F, Lescop E, Braun DA, Boschat AC, Sanquer S, Guerrera IC, Revy P, Parisot M, Masson C, Boddaert N, Charbit M, Decramer S, Novo R, Macher MA, Ranchin B, Bacchetta J, Laurent A, Collardeau-Frachon S, van Eerde AM, Hildebrandt F, Magen D, Antignac C, van Tilbeurgh H, Mollet G. Nat Commun 10 3967 (2019)
  43. Hypomodified tRNA in evolutionarily distant yeasts can trigger rapid tRNA decay to activate the general amino acid control response, but with different consequences. De Zoysa T, Phizicky EM. PLoS Genet 16 e1008893 (2020)
  44. Integrative analyses reveal biological function and prognostic role of m7G methylation regulators in high-grade glioma. Li X, Li Y, Li N, Shen L, Li Z. Aging (Albany NY) 15 8782-8799 (2023)
  45. Molecular mechanism of tRNA binding by the Escherichia coli N7 guanosine methyltransferase TrmB. Schultz SK, Meadows K, Kothe U. J Biol Chem 299 104612 (2023)
  46. Native structure of mosquito salivary protein uncovers domains relevant to pathogen transmission. Liu S, Xia X, Calvo E, Zhou ZH. Nat Commun 14 899 (2023)
  47. Letter Structural insight into how WDR4 promotes the tRNA N7-methylguanosine methyltransferase activity of METTL1. Jin X, Guan Z, Hu N, He C, Yin P, Gong Z, Zhang D. Cell Discov 9 65 (2023)
  48. Structure of tRNA methyltransferase complex of Trm7 and Trm734 reveals a novel binding interface for tRNA recognition. Hirata A, Okada K, Yoshii K, Shiraishi H, Saijo S, Yonezawa K, Shimizu N, Hori H. Nucleic Acids Res. 47 10942-10955 (2019)
  49. The human 18S rRNA m6A methyltransferase METTL5 is stabilized by TRMT112. van Tran N, Ernst FGM, Hawley BR, Zorbas C, Ulryck N, Hackert P, Bohnsack KE, Bohnsack MT, Jaffrey SR, Graille M, Lafontaine DLJ. Nucleic Acids Res. 47 7719-7733 (2019)
  50. Wdr4 promotes cerebellar development and locomotion through Arhgap17-mediated Rac1 activation. Wu PR, Chiang SY, Midence R, Kao WC, Lai CL, Cheng IC, Chou SJ, Chen CC, Huang CY, Chen RH. Cell Death Dis 14 52 (2023)
  51. m7G-quant-seq: Quantitative Detection of RNA Internal N7-Methylguanosine. Zhang LS, Ju CW, Liu C, Wei J, Dai Q, Chen L, Ye C, He C. ACS Chem Biol 17 3306-3312 (2022)


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