N6-Methyladenosin (German Wikipedia)

Analysis of information sources in references of the Wikipedia article "N6-Methyladenosin" in German language version.

refsWebsite
Global rank German rank
2nd place
3rd place
low place
5,523rd place
4th place
7th place

doi.org

  • Jerry M. Adams, Suzanne Cory: Modified nucleosides and bizarre 5′-termini in mouse myeloma mRNA. In: Nature. Band 255, Nr. 5503, 1. Mai 1975, S. 28–33, doi:10.1038/255028a0.
  • Ronald Desrosiers, Karen Friderici, Fritz Rottman: Identification of Methylated Nucleosides in Messenger RNA from Novikoff Hepatoma Cells. In: Proceedings of the National Academy of Sciences. Band 71, Nr. 10, Oktober 1974, S. 3971–3975, doi:10.1073/pnas.71.10.3971.
  • Y Aloni, R Dhar, G Khoury: Methylation of nuclear simian virus 40 RNAs. In: Journal of Virology. Band 32, Nr. 1, Oktober 1979, S. 52–60, doi:10.1128/jvi.32.1.52-60.1979.
  • Karen Beemon, Jerry Keith: Localization of N6-methyladenosine in the Rous sarcoma virus genome. In: Journal of Molecular Biology. Band 113, Nr. 1, Juni 1977, S. 165–179, doi:10.1016/0022-2836(77)90047-X.
  • Pengfei Ji, Xia Wang, Nina Xie, Yujing Li: N6-Methyladenosine in RNA and DNA: An Epitranscriptomic and Epigenetic Player Implicated in Determination of Stem Cell Fate. In: Stem Cells International. Band 2018, 10. Oktober 2018, S. 1–18, doi:10.1155/2018/3256524.
  • David G. Courtney, Edward M. Kennedy, Rebekah E. Dumm, Hal P. Bogerd, Kevin Tsai, Nicholas S. Heaton, Bryan R. Cullen: Epitranscriptomic Enhancement of Influenza A Virus Gene Expression and Replication. In: Cell Host & Microbe. Band 22, Nr. 3, September 2017, S. 377–386.e5, doi:10.1016/j.chom.2017.08.004.
  • Nandan S. Gokhale, Alexa B.R. McIntyre, Michael J. McFadden, Allison E. Roder, Edward M. Kennedy, Jorge A. Gandara, Sharon E. Hopcraft, Kendra M. Quicke, Christine Vazquez, Jason Willer, Olga R. Ilkayeva, Brittany A. Law, Christopher L. Holley, Mariano A. Garcia-Blanco, Matthew J. Evans, Mehul S. Suthar, Shelton S. Bradrick, Christopher E. Mason, Stacy M. Horner: N6-Methyladenosine in Flaviviridae Viral RNA Genomes Regulates Infection. In: Cell Host & Microbe. Band 20, Nr. 5, November 2016, S. 654–665, doi:10.1016/j.chom.2016.09.015.
  • Cha Mer Wei, Alan Gershowitz, Bernard Moss: 5'-Terminal and internal methylated nucleotide sequences in HeLa cell mRNA. In: Biochemistry. Band 15, Nr. 2, 1. Januar 1976, S. 397–401, doi:10.1021/bi00647a024.
  • Robert P. Perry, Dawn E. Kelley, Karen Friderici, Fritz Rottman: The methylated constituents of L cell messenger RNA: Evidence for an unusual cluster at the 5′ terminus. In: Cell. Band 4, Nr. 4, April 1975, S. 387–394, doi:10.1016/0092-8674(75)90159-2.
  • Robbet Levis, Sheldon Penman: 5′-Terminal structures of poly(A)+ cytoplasmic messenger RNA and of poly(A)+ and poly(A)− heterogeneous nuclear RNA of cells of the dipteran Drosophila melanogaster. In: Journal of Molecular Biology. Band 120, Nr. 4, April 1978, S. 487–515, doi:10.1016/0022-2836(78)90350-9.
  • J.L. Nichols: in maize poly(A)-containing RNA. In: Plant Science Letters. Band 15, Nr. 4, August 1979, S. 357–361, doi:10.1016/0304-4211(79)90141-X.
  • T. D. Kennedy, B. G. Lane: Wheat embryo ribonucleates. XIII. Methyl-substituted nucleoside constituents and 5′-terminal dinucleotide sequences in bulk poly(A)-rich RNA from imbibing wheat embryos. In: Canadian Journal of Biochemistry. Band 57, Nr. 6, 1. Juni 1979, S. 927–931, doi:10.1139/o79-112.
  • Silin Zhong, Hongying Li, Zsuzsanna Bodi, James Button, Laurent Vespa, Michel Herzog, Rupert G. Fray: MTA Is an Arabidopsis Messenger RNA Adenosine Methylase and Interacts with a Homolog of a Sex-Specific Splicing Factor. In: The Plant Cell. Band 20, Nr. 5, 30. Juni 2008, S. 1278–1288, doi:10.1105/tpc.108.058883.
  • M. J. Clancy: Induction of sporulation in Saccharomyces cerevisiae leads to the formation of N6-methyladenosine in mRNA: a potential mechanism for the activity of the IME4 gene. In: Nucleic Acids Research. Band 30, Nr. 20, 15. Oktober 2002, S. 4509–4518, doi:10.1093/nar/gkf573.
  • Zsuzsanna Bodi, James D. Button, Donald Grierson, Rupert G. Fray: Yeast targets for mRNA methylation. In: Nucleic Acids Research. Band 38, Nr. 16, September 2010, S. 5327–5335, doi:10.1093/nar/gkq266.
  • Kate D. Meyer, Yogesh Saletore, Paul Zumbo, Olivier Elemento, Christopher E. Mason, Samie R. Jaffrey: Comprehensive Analysis of mRNA Methylation Reveals Enrichment in 3′ UTRs and near Stop Codons. In: Cell. Band 149, Nr. 7, Juni 2012, S. 1635–1646, doi:10.1016/j.cell.2012.05.003.
  • Dan Dominissini, Sharon Moshitch-Moshkovitz, Schraga Schwartz, Mali Salmon-Divon, Lior Ungar, Sivan Osenberg, Karen Cesarkas, Jasmine Jacob-Hirsch, Ninette Amariglio, Martin Kupiec, Rotem Sorek, Gideon Rechavi: Topology of the human and mouse m6A RNA methylomes revealed by m6A-seq. In: Nature. Band 485, Nr. 7397, 10. Mai 2012, S. 201–206, doi:10.1038/nature11112.
  • J.A. Bokar, M.E. Rath-Shambaugh, R. Ludwiczak, P. Narayan, F. Rottman: Characterization and partial purification of mRNA N6-adenosine methyltransferase from HeLa cell nuclei. Internal mRNA methylation requires a multisubunit complex. In: Journal of Biological Chemistry. Band 269, Nr. 26, Juli 1994, S. 17697–17704, doi:10.1016/s0021-9258(17)32497-3.
  • Joan E. Harper, Sheila M. Miceli, Richard J. Roberts, James L. Manley: Sequence specificity of the human mRNA N6-adenosine methylase in vitro. In: Nucleic Acids Research. Band 18, Nr. 19, 1990, S. 5735–5741, doi:10.1093/nar/18.19.5735.
  • S E Kane, K Beemon: Precise localization of m6A in Rous sarcoma virus RNA reveals clustering of methylation sites: implications for RNA processing. In: Molecular and Cellular Biology. Band 5, Nr. 9, September 1985, S. 2298–2306, doi:10.1128/MCB.5.9.2298.
  • S Horowitz, A Horowitz, T W Nilsen, T W Munns, F M Rottman: Mapping of N6-methyladenosine residues in bovine prolactin mRNA. In: Proceedings of the National Academy of Sciences. Band 81, Nr. 18, September 1984, S. 5667–5671, doi:10.1073/pnas.81.18.5667.
  • Jianzhao Liu, Yanan Yue, Dali Han, Xiao Wang, Ye Fu, Liang Zhang, Guifang Jia, Miao Yu, Zhike Lu, Xin Deng, Qing Dai, Weizhong Chen, Chuan He: A METTL3–METTL14 complex mediates mammalian nuclear RNA N6-adenosine methylation. In: Nature Chemical Biology. Band 10, Nr. 2, Februar 2014, S. 93–95, doi:10.1038/nchembio.1432.
  • Yang Wang, Yue Li, Julia I. Toth, Matthew D. Petroski, Zhaolei Zhang, Jing Crystal Zhao: N6-methyladenosine modification destabilizes developmental regulators in embryonic stem cells. In: Nature Cell Biology. Band 16, Nr. 2, Februar 2014, S. 191–198, doi:10.1038/ncb2902.
  • Xiao-Li Ping, Bao-Fa Sun, Lu Wang, Wen Xiao, Xin Yang, Wen-Jia Wang, Samir Adhikari, Yue Shi, Ying Lv, Yu-Sheng Chen, Xu Zhao, Ang Li, Ying Yang, Ujwal Dahal, Xiao-Min Lou, Xi Liu, Jun Huang, Wei-Ping Yuan, Xiao-Fan Zhu, Tao Cheng, Yong-Liang Zhao, Xinquan Wang, Jannie M Rendtlew Danielsen, Feng Liu, Yun-Gui Yang: Mammalian WTAP is a regulatory subunit of the RNA N6-methyladenosine methyltransferase. In: Cell Research. Band 24, Nr. 2, Februar 2014, S. 177–189, doi:10.1038/cr.2014.3.
  • Schraga Schwartz, Maxwell R. Mumbach, Marko Jovanovic, Tim Wang, Karolina Maciag, G. Guy Bushkin, Philipp Mertins, Dmitry Ter-Ovanesyan, Naomi Habib, Davide Cacchiarelli, Neville E. Sanjana, Elizaveta Freinkman, Michael E. Pacold, Rahul Satija, Tarjei S. Mikkelsen, Nir Hacohen, Feng Zhang, Steven A. Carr, Eric S. Lander, Aviv Regev: Perturbation of m6A Writers Reveals Two Distinct Classes of mRNA Methylation at Internal and 5′ Sites. In: Cell Reports. Band 8, Nr. 1, Juli 2014, S. 284–296, doi:10.1016/j.celrep.2014.05.048.
  • Nhan van Tran, Felix G M Ernst, Ben R Hawley, Christiane Zorbas, Nathalie Ulryck, Philipp Hackert, Katherine E Bohnsack, Markus T Bohnsack, Samie R Jaffrey, Marc Graille, Denis L J Lafontaine: The human 18S rRNA m6A methyltransferase METTL5 is stabilized by TRMT112. In: Nucleic Acids Research. Band 47, Nr. 15, 5. September 2019, S. 7719–7733, doi:10.1093/nar/gkz619.
  • Chuan He: Grand Challenge Commentary: RNA epigenetics? In: Nature Chemical Biology. Band 6, Nr. 12, Dezember 2010, S. 863–865, doi:10.1038/nchembio.482.
  • Guifang Jia, Ye Fu, Xu Zhao, Qing Dai, Guanqun Zheng, Ying Yang, Chengqi Yi, Tomas Lindahl, Tao Pan, Yun-Gui Yang, Chuan He: N6-Methyladenosine in nuclear RNA is a major substrate of the obesity-associated FTO. In: Nature Chemical Biology. Band 7, Nr. 12, Dezember 2011, S. 885–887, doi:10.1038/nchembio.687.
  • Guanqun Zheng, John Arne Dahl, Yamei Niu, Peter Fedorcsak, Chun-Min Huang, Charles J. Li, Cathrine B. Vågbø, Yue Shi, Wen-Ling Wang, Shu-Hui Song, Zhike Lu, Ralph P.G. Bosmans, Qing Dai, Ya-Juan Hao, Xin Yang, Wen-Ming Zhao, Wei-Min Tong, Xiu-Jie Wang, Florian Bogdan, Kari Furu, Ye Fu, Guifang Jia, Xu Zhao, Jun Liu, Hans E. Krokan, Arne Klungland, Yun-Gui Yang, Chuan He: ALKBH5 Is a Mammalian RNA Demethylase that Impacts RNA Metabolism and Mouse Fertility. In: Molecular Cell. Band 49, Nr. 1, Januar 2013, S. 18–29, doi:10.1016/j.molcel.2012.10.015.
  • Xiao Wang, Zhike Lu, Adrian Gomez, Gary C. Hon, Yanan Yue, Dali Han, Ye Fu, Marc Parisien, Qing Dai, Guifang Jia, Bing Ren, Tao Pan, Chuan He: N6-methyladenosine-dependent regulation of messenger RNA stability. In: Nature. Band 505, Nr. 7481, Januar 2014, S. 117–120, doi:10.1038/nature12730.
  • Xiao Wang, Boxuan Simen Zhao, Ian A. Roundtree, Zhike Lu, Dali Han, Honghui Ma, Xiaocheng Weng, Kai Chen, Hailing Shi, Chuan He: N6-methyladenosine Modulates Messenger RNA Translation Efficiency. In: Cell. Band 161, Nr. 6, Juni 2015, S. 1388–1399, doi:10.1016/j.cell.2015.05.014.
  • Chao Xu, Xiao Wang, Ke Liu, Ian A Roundtree, Wolfram Tempel, Yanjun Li, Zhike Lu, Chuan He, Jinrong Min: Structural basis for selective binding of m6A RNA by the YTHDC1 YTH domain. In: Nature Chemical Biology. Band 10, Nr. 11, November 2014, S. 927–929, doi:10.1038/nchembio.1654.
  • Wen Xiao, Samir Adhikari, Ujwal Dahal, Yu-Sheng Chen, Ya-Juan Hao, Bao-Fa Sun, Hui-Ying Sun, Ang Li, Xiao-Li Ping, Wei-Yi Lai, Xing Wang, Hai-Li Ma, Chun-Min Huang, Ying Yang, Niu Huang, Gui-Bin Jiang, Hai-Lin Wang, Qi Zhou, Xiu-Jie Wang, Yong-Liang Zhao, Yun-Gui Yang: Nuclear m 6 A Reader YTHDC1 Regulates mRNA Splicing. In: Molecular Cell. Band 61, Nr. 4, Februar 2016, S. 507–519, doi:10.1016/j.molcel.2016.01.012.
  • Huilin Huang, Hengyou Weng, Wenju Sun, Xi Qin, Hailing Shi, Huizhe Wu, Boxuan Simen Zhao, Ana Mesquita, Chang Liu, Celvie L. Yuan, Yueh-Chiang Hu, Stefan Hüttelmaier, Jennifer R. Skibbe, Rui Su, Xiaolan Deng, Lei Dong, Miao Sun, Chenying Li, Sigrid Nachtergaele, Yungui Wang, Chao Hu, Kyle Ferchen, Kenneth D. Greis, Xi Jiang, Minjie Wei, Lianghu Qu, Jun-Lin Guan, Chuan He, Jianhua Yang, Jianjun Chen: Recognition of RNA N6-methyladenosine by IGF2BP proteins enhances mRNA stability and translation. In: Nature Cell Biology. Band 20, Nr. 3, März 2018, S. 285–295, doi:10.1038/s41556-018-0045-z.
  • Nian Liu, Qing Dai, Guanqun Zheng, Chuan He, Marc Parisien, Tao Pan: N6-methyladenosine-dependent RNA structural switches regulate RNA–protein interactions. In: Nature. Band 518, Nr. 7540, 26. Februar 2015, S. 560–564, doi:10.1038/nature14234.
  • P. Cody He, Jiangbo Wei, Xiaoyang Dou, Bryan T. Harada, Zijie Zhang, Ruiqi Ge, Chang Liu, Li-Sheng Zhang, Xianbin Yu, Shuai Wang, Ruitu Lyu, Zhongyu Zou, Mengjie Chen, Chuan He: Exon architecture controls mRNA m 6 A suppression and gene expression. In: Science. Band 379, Nr. 6633, 17. Februar 2023, S. 677–682, doi:10.1126/science.abj9090.
  • Patrick A. Limbach, Pamela F. Crain, James A. McCloskey: Summary: the modified nucleosides of RNA. In: Nucleic Acids Research, 22, 1994. Nummer 12, S. 2183–2196 doi:10.1093/nar/22.12.2183, PMID 7518580, PMC 523672 (freier Volltext).
  • Zsuzsanna Bodi, Silin Zhong, Surbhi Mehra, Jie Song, Neil Graham, Hongying Li, Sean May, Rupert George Fray: Adenosine Methylation in Arabidopsis mRNA is Associated with the 3′ End and Reduced Levels Cause Developmental Defects. In: Frontiers in Plant Science. Band 3, 2012, doi:10.3389/fpls.2012.00048.
  • Wen-Ju Sun, Jun-Hao Li, Shun Liu, Jie Wu, Hui Zhou, Liang-Hu Qu, Jian-Hua Yang: RMBase: a resource for decoding the landscape of RNA modifications from high-throughput sequencing data. In: Nucleic Acids Research. Band 44, D1, 4. Januar 2016, S. D259–D265, doi:10.1093/nar/gkv1036.
  • Shengdong Ke, Endalkachew A. Alemu, Claudia Mertens, Emily Conn Gantman, John J. Fak, Aldo Mele, Bhagwattie Haripal, Ilana Zucker-Scharff, Michael J. Moore, Christopher Y. Park, Cathrine Broberg Vågbø, Anna Kusśnierczyk, Arne Klungland, James E. Darnell, Robert B. Darnell: A majority of m 6 A residues are in the last exons, allowing the potential for 3′ UTR regulation. In: Genes & Development. Band 29, Nr. 19, 1. Oktober 2015, S. 2037–2053, doi:10.1101/gad.269415.115.
  • Shengdong Ke, Amy Pandya-Jones, Yuhki Saito, John J. Fak, Cathrine Broberg Vågbø, Shay Geula, Jacob H. Hanna, Douglas L. Black, James E. Darnell, Robert B. Darnell: m 6 A mRNA modifications are deposited in nascent pre-mRNA and are not required for splicing but do specify cytoplasmic turnover. In: Genes & Development. Band 31, Nr. 10, 15. Mai 2017, S. 990–1006, doi:10.1101/gad.301036.117.
  • Nicolle A. Rosa-Mercado, Johanna B. Withers, Joan A. Steitz: Settling the m 6 A debate: methylation of mature mRNA is not dynamic but accelerates turnover. In: Genes & Development. Band 31, Nr. 10, 15. Mai 2017, S. 957–958, doi:10.1101/gad.302695.117.
  • Jiangbo Wei, Xianbin Yu, Lei Yang, Xuelian Liu, Boyang Gao, Boxian Huang, Xiaoyang Dou, Jun Liu, Zhongyu Zou, Xiao-Long Cui, Li-Sheng Zhang, Xingsen Zhao, Qinzhe Liu, P. Cody He, Caraline Sepich-Poore, Nicole Zhong, Wenqiang Liu, Yanhe Li, Xiaochen Kou, Yanhong Zhao, You Wu, Xuejun Cheng, Chuan Chen, Yiming An, Xueyang Dong, Huanyu Wang, Qiang Shu, Ziyang Hao, Tao Duan, Yu-Ying He, Xuekun Li, Shaorong Gao, Yawei Gao, Chuan He: FTO mediates LINE1 m 6 A demethylation and chromatin regulation in mESCs and mouse development. In: Science. Band 376, Nr. 6596, 27. Mai 2022, S. 968–973, doi:10.1126/science.abe9582.
  • Abdulkadir Abakir, Tom C. Giles, Agnese Cristini, Jeremy M. Foster, Nan Dai, Marta Starczak, Alejandro Rubio-Roldan, Miaomiao Li, Maria Eleftheriou, James Crutchley, Luke Flatt, Lorraine Young, Daniel J. Gaffney, Chris Denning, Bjørn Dalhus, Richard D. Emes, Daniel Gackowski, Ivan R. Corrêa, Jose L. Garcia-Perez, Arne Klungland, Natalia Gromak, Alexey Ruzov: N6-methyladenosine regulates the stability of RNA:DNA hybrids in human cells. In: Nature Genetics. Band 52, Nr. 1, Januar 2020, S. 48–55, doi:10.1038/s41588-019-0549-x.
  • Jean-Michel Fustin, Masao Doi, Yoshiaki Yamaguchi, Hayashi Hida, Shinichi Nishimura, Minoru Yoshida, Takayuki Isagawa, Masaki Suimye Morioka, Hideaki Kakeya, Ichiro Manabe, Hitoshi Okamura: RNA-Methylation-Dependent RNA Processing Controls the Speed of the Circadian Clock. In: Cell. Band 155, Nr. 4, November 2013, S. 793–806, doi:10.1016/j.cell.2013.10.026.
  • Michael H. Hastings: m6A mRNA Methylation: A New Circadian Pacesetter. In: Cell. Band 155, Nr. 4, November 2013, S. 740–741, doi:10.1016/j.cell.2013.10.028.
  • Jean-Michel Fustin, Shiqi Ye, Christin Rakers, Kensuke Kaneko, Kazuki Fukumoto, Mayu Yamano, Marijke Versteven, Ellen Grünewald, Samantha J. Cargill, T. Katherine Tamai, Yao Xu, Maria Luísa Jabbur, Rika Kojima, Melisa L. Lamberti, Kumiko Yoshioka-Kobayashi, David Whitmore, Stephanie Tammam, P. Lynne Howell, Ryoichiro Kageyama, Takuya Matsuo, Ralf Stanewsky, Diego A. Golombek, Carl Hirschie Johnson, Hideaki Kakeya, Gerben van Ooijen, Hitoshi Okamura: Methylation deficiency disrupts biological rhythms from bacteria to humans. In: Communications Biology. Band 3, Nr. 1, 6. Mai 2020, doi:10.1038/s42003-020-0942-0.
  • Ainur R. Akilzhanova, Bagdat Nyshanbekkyzy, Zhannur M. Nurkina, Ivan I. Shtephanov, Abay K. Makishev, Tasbolat A. Adylkhanov, Tolebay K. Rakhypbekov, Erlan M. Ramanculov, Kuvat T. Momynaliev: BRCA1 and BRCA2 Gene Mutations Screening In Sporadic Breast Cancer Patients In Kazakhstan. In: Central Asian Journal of Global Health. Band 2, Nr. 1, 21. Mai 2013, doi:10.5195/cajgh.2013.29.
  • S M Reddy, M Sadim, J Li, N Yi, S Agarwal, C S Mantzoros, V G Kaklamani: Clinical and genetic predictors of weight gain in patients diagnosed with breast cancer. In: British Journal of Cancer. Band 109, Nr. 4, August 2013, S. 872–881, doi:10.1038/bjc.2013.441.
  • Katrin-Janine Heiliger, Julia Hess, Donata Vitagliano, Paolo Salerno, Herbert Braselmann, Giuliana Salvatore, Clara Ugolini, Isolde Summerer, Tatjana Bogdanova, Kristian Unger, Gerry Thomas, Massimo Santoro, Horst Zitzelsberger: Novel candidate genes of thyroid tumourigenesis identified in Trk-T1 transgenic mice. In: Endocrine-Related Cancer. Band 19, Nr. 3, Juni 2012, S. 409–421, doi:10.1530/ERC-11-0387.
  • Angeles Ortega, Martina Niksic, Angela Bachi, Matthias Wilm, Lucas Sánchez, Nicholas Hastie, Juan Valcárcel: Biochemical Function of Female-Lethal (2)D/Wilms' Tumor Suppressor-1-associated Proteins in Alternative Pre-mRNA Splicing. In: Journal of Biological Chemistry. Band 278, Nr. 5, Januar 2003, S. 3040–3047, doi:10.1074/jbc.M210737200.
  • Du‐Il Jin, Sang Weon Lee, Myoung‐Eun Han, Hyun‐Jung Kim, Seon‐Ae Seo, Gi‐Yeong Hur, Shin Jung, Bong‐Seon Kim, Sae‐Ock Oh: Expression and roles of W ilms' tumor 1‐associating protein in glioblastoma. In: Cancer Science. Band 103, Nr. 12, Dezember 2012, S. 2102–2109, doi:10.1111/cas.12022.
  • Yingsong Lin, Junko Ueda, Kiyoko Yagyu, Hiroshi Ishii, Makoto Ueno, Naoto Egawa, Haruhisa Nakao, Mitsuru Mori, Keitaro Matsuo, Shogo Kikuchi: Association between variations in the fat mass and obesity-associated gene and pancreatic cancer risk: a case–control study in Japan. In: BMC Cancer. Band 13, Nr. 1, Dezember 2013, doi:10.1186/1471-2407-13-337.
  • R. Casalegno-Garduño, A. Schmitt, X. Wang, X. Xu, M. Schmitt: Wilms' Tumor 1 as a Novel Target for Immunotherapy of Leukemia. In: Transplantation Proceedings. Band 42, Nr. 8, Oktober 2010, S. 3309–3311, doi:10.1016/j.transproceed.2010.07.034.
  • Michael Linnebacher, Anne Wienck, Inga Boeck, Ernst Klar: Identification of an MSI-H Tumor-Specific Cytotoxic T Cell Epitope Generated by the ( − 1) Frame of U79260(FTO). In: Journal of Biomedicine and Biotechnology. Band 2010, 2010, S. 1–6, doi:10.1155/2010/841451.
  • M. J. Machiela, S. Lindstrom, N. E. Allen, C. A. Haiman, D. Albanes, A. Barricarte, S. I. Berndt, H. B. Bueno-de-Mesquita, S. Chanock, J. M. Gaziano, S. M. Gapstur, E. Giovannucci, B. E. Henderson, E. J. Jacobs, L. N. Kolonel, V. Krogh, J. Ma, M. J. Stampfer, V. L. Stevens, D. O. Stram, A. Tjonneland, R. Travis, W. C. Willett, D. J. Hunter, L. Le Marchand, P. Kraft: Association of Type 2 Diabetes Susceptibility Variants With Advanced Prostate Cancer Risk in the Breast and Prostate Cancer Cohort Consortium. In: American Journal of Epidemiology. Band 176, Nr. 12, 15. Dezember 2012, S. 1121–1129, doi:10.1093/aje/kws191.
  • Jirong Long, Ben Zhang, Lisa B. Signorello, Qiuyin Cai, Sandra Deming-Halverson, Martha J. Shrubsole, Maureen Sanderson, Joe Dennis, Kyriaki Michailiou, Douglas F. Easton, Xiao-Ou Shu, William J. Blot, Wei Zheng: Evaluating Genome-Wide Association Study-Identified Breast Cancer Risk Variants in African-American Women. In: PLoS ONE. Band 8, Nr. 4, 8. April 2013, S. e58350, doi:10.1371/journal.pone.0058350.
  • Virginia Kaklamani, Nengjun Yi, Maureen Sadim, Kalliopi Siziopikou, Kui Zhang, Yanfei Xu, Sarah Tofilon, Surbhi Agarwal, Boris Pasche, Christos Mantzoros: The role of the fat mass and obesity associated gene (FTO) in breast cancer risk. In: BMC Medical Genetics. Band 12, Nr. 1, Dezember 2011, doi:10.1186/1471-2350-12-52.
  • Brandon L. Pierce, Melissa A. Austin, Habibul Ahsan: Association study of type 2 diabetes genetic susceptibility variants and risk of pancreatic cancer: an analysis of PanScan-I data. In: Cancer Causes & Control. Band 22, Nr. 6, Juni 2011, S. 877–883, doi:10.1007/s10552-011-9760-5.
  • Joseph A. Bokar: The biosynthesis and functional roles of methylated nucleosides in eukaryotic mRNA. In: Fine-Tuning of RNA Functions by Modification and Editing. Band 12. Springer Berlin Heidelberg, Berlin, Heidelberg 2005, ISBN 978-3-540-24495-0, S. 141–177, doi:10.1007/b106365.
  • Shuibin Lin, Junho Choe, Peng Du, Robinson Triboulet, Richard I. Gregory: The m 6 A Methyltransferase METTL3 Promotes Translation in Human Cancer Cells. In: Molecular Cell. Band 62, Nr. 3, Mai 2016, S. 335–345, doi:10.1016/j.molcel.2016.03.021.
  • Chuanzhao Zhang, Debangshu Samanta, Haiquan Lu, John W. Bullen, Huimin Zhang, Ivan Chen, Xiaoshun He, Gregg L. Semenza: Hypoxia induces the breast cancer stem cell phenotype by HIF-dependent and ALKBH5-mediated m 6 A-demethylation of NANOG mRNA. In: Proceedings of the National Academy of Sciences. Band 113, Nr. 14, 5. April 2016, doi:10.1073/pnas.1602883113.
  • Ruth J. F. Loos, Giles S. H. Yeo: The bigger picture of FTO—the first GWAS-identified obesity gene. In: Nature Reviews Endocrinology. Band 10, Nr. 1, Januar 2014, S. 51–61, doi:10.1038/nrendo.2013.227.
  • Timothy M. Frayling, Nicholas J. Timpson, Michael N. Weedon, Eleftheria Zeggini, Rachel M. Freathy, Cecilia M. Lindgren, John R. B. Perry, Katherine S. Elliott, Hana Lango, Nigel W. Rayner, Beverley Shields, Lorna W. Harries, Jeffrey C. Barrett, Sian Ellard, Christopher J. Groves, Bridget Knight, Ann-Marie Patch, Andrew R. Ness, Shah Ebrahim, Debbie A. Lawlor, Susan M. Ring, Yoav Ben-Shlomo, Marjo-Riitta Jarvelin, Ulla Sovio, Amanda J. Bennett, David Melzer, Luigi Ferrucci, Ruth J. F. Loos, Inês Barroso, Nicholas J. Wareham, Fredrik Karpe, Katharine R. Owen, Lon R. Cardon, Mark Walker, Graham A. Hitman, Colin N. A. Palmer, Alex S. F. Doney, Andrew D. Morris, George Davey Smith, Andrew T. Hattersley, Mark I. McCarthy: A Common Variant in the FTO Gene Is Associated with Body Mass Index and Predisposes to Childhood and Adult Obesity. In: Science. Band 316, Nr. 5826, 11. Mai 2007, S. 889–894, doi:10.1126/science.1141634.
  • Lina Wang, Qing Yu, Yan Xiong, Linfei Liu, Xuening Zhang, Zhen Zhang, Jianru Wu, Bei Wang: Variant rs1421085 in the FTO gene contribute childhood obesity in Chinese children aged 3–6years. In: Obesity Research & Clinical Practice. Band 7, Nr. 1, Januar 2013, S. e14–e22, doi:10.1016/j.orcp.2011.12.007.
  • Ineta Kalnina, Linda Zaharenko, Iveta Vaivade, Vita Rovite, Liene Nikitina-Zake, Raitis Peculis, Davids Fridmanis, Kristine Geldnere, Josefin A. Jacobsson, Markus S. Almen, Valdis Pirags, Helgi B. Schiöth, Janis Klovins: Polymorphisms in FTO and near TMEM18 associate with type 2 diabetes and predispose to younger age at diagnosis of diabetes. In: Gene. Band 527, Nr. 2, September 2013, S. 462–468, doi:10.1016/j.gene.2013.06.079.
  • Efthimia Karra, Owen G. O’Daly, Agharul I. Choudhury, Ahmed Yousseif, Steven Millership, Marianne T. Neary, William R. Scott, Keval Chandarana, Sean Manning, Martin E. Hess, Hiroshi Iwakura, Takashi Akamizu, Queensta Millet, Cigdem Gelegen, Megan E. Drew, Sofia Rahman, Julian J. Emmanuel, Steven C.R. Williams, Ulrich U. Rüther, Jens C. Brüning, Dominic J. Withers, Fernando O. Zelaya, Rachel L. Batterham: A link between FTO, ghrelin, and impaired brain food-cue responsivity. In: Journal of Clinical Investigation. Band 123, Nr. 8, 1. August 2013, S. 3539–3551, doi:10.1172/JCI44403.
  • Xu Zhao, Ying Yang, Bao-Fa Sun, Yue Shi, Xin Yang, Wen Xiao, Ya-Juan Hao, Xiao-Li Ping, Yu-Sheng Chen, Wen-Jia Wang, Kang-Xuan Jin, Xing Wang, Chun-Min Huang, Yu Fu, Xiao-Meng Ge, Shu-Hui Song, Hyun Seok Jeong, Hiroyuki Yanagisawa, Yamei Niu, Gui-Fang Jia, Wei Wu, Wei-Min Tong, Akimitsu Okamoto, Chuan He, Jannie M Rendtlew Danielsen, Xiu-Jie Wang, Yun-Gui Yang: FTO-dependent demethylation of N6-methyladenosine regulates mRNA splicing and is required for adipogenesis. In: Cell Research. Band 24, Nr. 12, Dezember 2014, S. 1403–1419, doi:10.1038/cr.2014.151.
  • Myrte Merkestein, Samantha Laber, Fiona McMurray, Daniel Andrew, Gregor Sachse, Jeremy Sanderson, Mengdi Li, Samuel Usher, Dyan Sellayah, Frances M. Ashcroft, Roger D. Cox: FTO influences adipogenesis by regulating mitotic clonal expansion. In: Nature Communications. Band 6, Nr. 1, 17. April 2015, doi:10.1038/ncomms7792.
  • Meizi Zhang, Ying Zhang, Jun Ma, Feima Guo, Qian Cao, Yu Zhang, Bin Zhou, Jijie Chai, Wenqing Zhao, Renbin Zhao: The Demethylase Activity of FTO (Fat Mass and Obesity Associated Protein) Is Required for Preadipocyte Differentiation. In: PLOS ONE. Band 10, Nr. 7, 28. Juli 2015, S. e0133788, doi:10.1371/journal.pone.0133788.
  • Martin E Hess, Simon Hess, Kate D Meyer, Linda A W Verhagen, Linda Koch, Hella S Brönneke, Marcelo O Dietrich, Sabine D Jordan, Yogesh Saletore, Olivier Elemento, Bengt F Belgardt, Thomas Franz, Tamas L Horvath, Ulrich Rüther, Samie R Jaffrey, Peter Kloppenburg, Jens C Brüning: The fat mass and obesity associated gene (Fto) regulates activity of the dopaminergic midbrain circuitry. In: Nature Neuroscience. Band 16, Nr. 8, August 2013, S. 1042–1048, doi:10.1038/nn.3449.
  • Hong Joo Kim, Nam Chul Kim, Yong-Dong Wang, Emily A. Scarborough, Jennifer Moore, Zamia Diaz, Kyle S. MacLea, Brian Freibaum, Songqing Li, Amandine Molliex, Anderson P. Kanagaraj, Robert Carter, Kevin B. Boylan, Aleksandra M. Wojtas, Rosa Rademakers, Jack L. Pinkus, Steven A. Greenberg, John Q. Trojanowski, Bryan J. Traynor, Bradley N. Smith, Simon Topp, Athina-Soragia Gkazi, Jack Miller, Christopher E. Shaw, Michael Kottlors, Janbernd Kirschner, Alan Pestronk, Yun R. Li, Alice Flynn Ford, Aaron D. Gitler, Michael Benatar, Oliver D. King, Virginia E. Kimonis, Eric D. Ross, Conrad C. Weihl, James Shorter, J. Paul Taylor: Mutations in prion-like domains in hnRNPA2B1 and hnRNPA1 cause multisystem proteinopathy and ALS. In: Nature. Band 495, Nr. 7442, März 2013, S. 467–473, doi:10.1038/nature11922.
  • Ze-Lin Wang, Bin Li, Yu-Xia Luo, Qiao Lin, Shu-Rong Liu, Xiao-Qin Zhang, Hui Zhou, Jian-Hua Yang, Liang-Hu Qu: Comprehensive Genomic Characterization of RNA-Binding Proteins across Human Cancers. In: Cell Reports. Band 22, Nr. 1, Januar 2018, S. 286–298, doi:10.1016/j.celrep.2017.12.035.
  • Prema Narayan, Fritz M. Rottman: Methylation of mRNA. In: Advances in Enzymology - and Related Areas of Molecular Biology. 1. Auflage. Band 65. Wiley, 1992, ISBN 978-0-471-52760-2, S. 255–285, doi:10.1002/9780470123119.ch7.
  • Edward M. Kennedy, Hal P. Bogerd, Anand V.R. Kornepati, Dong Kang, Delta Ghoshal, Joy B. Marshall, Brigid C. Poling, Kevin Tsai, Nandan S. Gokhale, Stacy M. Horner, Bryan R. Cullen: Posttranscriptional m 6 A Editing of HIV-1 mRNAs Enhances Viral Gene Expression. In: Cell Host & Microbe. Band 19, Nr. 5, Mai 2016, S. 675–685, doi:10.1016/j.chom.2016.04.002.
  • Nagaraja Tirumuru, Boxuan Simen Zhao, Wuxun Lu, Zhike Lu, Chuan He, Li Wu: N6-methyladenosine of HIV-1 RNA regulates viral infection and HIV-1 Gag protein expression. In: eLife. Band 5, 2. Juli 2016, doi:10.7554/eLife.15528.
  • Gianluigi Lichinchi, Shang Gao, Yogesh Saletore, Gwendolyn Michelle Gonzalez, Vikas Bansal, Yinsheng Wang, Christopher E. Mason, Tariq M. Rana: Dynamics of the human and viral m6A RNA methylomes during HIV-1 infection of T cells. In: Nature Microbiology. Band 1, Nr. 4, 22. Februar 2016, doi:10.1038/nmicrobiol.2016.11.
  • Gianluigi Lichinchi, Boxuan Simen Zhao, Yinga Wu, Zhike Lu, Yue Qin, Chuan He, Tariq M. Rana: Dynamics of Human and Viral RNA Methylation during Zika Virus Infection. In: Cell Host & Microbe. Band 20, Nr. 5, November 2016, S. 666–673, doi:10.1016/j.chom.2016.10.002.
  • Nandan S. Gokhale, Alexa B.R. McIntyre, Michael J. McFadden, Allison E. Roder, Edward M. Kennedy, Jorge A. Gandara, Sharon E. Hopcraft, Kendra M. Quicke, Christine Vazquez, Jason Willer, Olga R. Ilkayeva, Brittany A. Law, Christopher L. Holley, Mariano A. Garcia-Blanco, Matthew J. Evans, Mehul S. Suthar, Shelton S. Bradrick, Christopher E. Mason, Stacy M. Horner: N6 -Methyladenosine in Flaviviridae Viral RNA Genomes Regulates Infection. In: Cell Host & Microbe. Band 20, Nr. 5, November 2016, S. 654–665, doi:10.1016/j.chom.2016.09.015.
  • Jae-Su Moon, Wooseong Lee, Yong-Hee Cho, Yonghyo Kim, Geon-Woo Kim: The Significance of N6-Methyladenosine RNA Methylation in Regulating the Hepatitis B Virus Life Cycle. In: Journal of Microbiology and Biotechnology. Band 34, Nr. 2, 28. März 2024, S. 233–239, doi:10.4014/jmb.2309.09013.
  • Zach Klapholz O’Brown, Eric Lieberman Greer: N6-Methyladenine: A Conserved and Dynamic DNA Mark. In: DNA Methyltransferases – Role and Function. Band 945. Springer International Publishing, Cham 2016, ISBN 978-3-319-43622-7, S. 213–246, doi:10.1007/978-3-319-43624-1_10.
  • Melania Balzarolo, Sander Engels, Anja J. de Jong, Katka Franke, Timo K. van den Berg, Muhammet F. Gulen, Andrea Ablasser, Edith M. Janssen, Bas van Steensel, Monika C. Wolkers: m6A methylation potentiates cytosolic dsDNA recognition in a sequence-specific manner. In: Open Biology. Band 11, Nr. 3, März 2021, doi:10.1098/rsob.210030.
  • Nalini Raghunathan, Sayantan Goswami, Jakku K Leela, Apuratha Pandiyan, Jayaraman Gowrishankar: A new role for Escherichia coli Dam DNA methylase in prevention of aberrant chromosomal replication. In: Nucleic Acids Research. Band 47, Nr. 11, 20. Juni 2019, S. 5698–5711, doi:10.1093/nar/gkz242.
  • Matthew J. Blow, Tyson A. Clark, Chris G. Daum, Adam M. Deutschbauer, Alexey Fomenkov, Roxanne Fries, Jeff Froula, Dongwan D. Kang, Rex R. Malmstrom, Richard D. Morgan, Janos Posfai, Kanwar Singh, Axel Visel, Kelly Wetmore, Zhiying Zhao, Edward M. Rubin, Jonas Korlach, Len A. Pennacchio, Richard J. Roberts: The Epigenomic Landscape of Prokaryotes. In: PLOS Genetics. Band 12, Nr. 2, 12. Februar 2016, S. e1005854, doi:10.1371/journal.pgen.1005854.
  • W. A. M. Loenen, D. T. F. Dryden, E. A. Raleigh, G. G. Wilson: Type I restriction enzymes and their relatives. In: Nucleic Acids Research. Band 42, Nr. 1, 1. Januar 2014, S. 20–44, doi:10.1093/nar/gkt847.
  • Xiulin Jiang, Baiyang Liu, Zhi Nie, Lincan Duan, Qiuxia Xiong, Zhixian Jin, Cuiping Yang, Yongbin Chen: The role of m6A modification in the biological functions and diseases. In: Signal Transduction and Targeted Therapy. Band 6, Nr. 1, 21. Februar 2021, doi:10.1038/s41392-020-00450-x.

nih.gov

ncbi.nlm.nih.gov

trc-canada.com