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Table representation of search results timeline featuring number of search results per year.

Year Number of Results
1980 2
1982 5
1983 1
1984 2
1985 4
1986 7
1987 7
1988 4
1989 15
1990 8
1991 21
1992 31
1993 23
1994 37
1995 34
1996 46
1997 63
1998 51
1999 45
2000 81
2001 99
2002 116
2003 157
2004 212
2005 242
2006 243
2007 300
2008 324
2009 363
2010 449
2011 539
2012 657
2013 736
2014 901
2015 969
2016 1122
2017 1218
2018 1551
2019 1681
2020 2064
2021 2312
2022 2714
2023 2712
2024 1410

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20,996 results

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Page 1
The role of m(6)A RNA methylation in human cancer.
Chen XY, Zhang J, Zhu JS. Chen XY, et al. Among authors: zhu js. Mol Cancer. 2019 May 29;18(1):103. doi: 10.1186/s12943-019-1033-z. Mol Cancer. 2019. PMID: 31142332 Free PMC article. Review.
M(6)A modification is installed by the m(6)A methyltransferases (METTL3/14, WTAP, RBM15/15B and KIAA1429, termed as "writers"), reverted by the demethylases (FTO and ALKBH5, termed as "erasers") and recognized by m(6)A binding proteins (YTHDF1/2/3, IGF2BP1 an
M(6)A modification is installed by the m(6)A methyltransferases (METTL3/14, WTAP, RBM15/15B and KIAA1429, termed as "writers")
N6-methyladenosine in macrophage function: a novel target for metabolic diseases.
Zhu X, Tang H, Yang M, Yin K. Zhu X, et al. Trends Endocrinol Metab. 2023 Feb;34(2):66-84. doi: 10.1016/j.tem.2022.12.006. Epub 2022 Dec 29. Trends Endocrinol Metab. 2023. PMID: 36586778 Review.
N6-methyladenosine (m(6)A) is one of the most prevalent internal transcriptional modifications. Evidence has highlighted changes in m(6)A in metabolic disorders and various metabolic diseases. However, the precise mechanisms of these m(6)A changes in such con …
N6-methyladenosine (m(6)A) is one of the most prevalent internal transcriptional modifications. Evidence has highlighted changes in …
An oncopeptide regulates m(6)A recognition by the m(6)A reader IGF2BP1 and tumorigenesis.
Zhu S, Wang JZ, Chen D, He YT, Meng N, Chen M, Lu RX, Chen XH, Zhang XL, Yan GR. Zhu S, et al. Nat Commun. 2020 Apr 3;11(1):1685. doi: 10.1038/s41467-020-15403-9. Nat Commun. 2020. PMID: 32245947 Free PMC article.
N(6)-methyladenosine (m(6)A) is the most prevalent modification in eukaryotic RNAs. The biological importance of m(6)A relies on m(6)A readers, which control mRNA fate and function. ...Thus, the oncopeptide RBRP encoded by LINC00266-1 is a regulatory subunit …
N(6)-methyladenosine (m(6)A) is the most prevalent modification in eukaryotic RNAs. The biological importance of m(6)A relies …
Roles of the m(6)A Modification of RNA in the Glioblastoma Microenvironment as Revealed by Single-Cell Analyses.
Yuan F, Cai X, Cong Z, Wang Y, Geng Y, Aili Y, Du C, Zhu J, Yang J, Tang C, Zhang A, Zhao S, Ma C. Yuan F, et al. Among authors: zhu j. Front Immunol. 2022 Apr 26;13:798583. doi: 10.3389/fimmu.2022.798583. eCollection 2022. Front Immunol. 2022. PMID: 35558067 Free PMC article.
We used bioinformatics and statistical tools to analyze associations between m(6)A regulators and multiple factors. RESULTS: HNRNPA2B1 and HNRNPC were extensively expressed in the GBM microenvironment. m(6)A regulators promoted the stemness state in GBM cancer cells …
We used bioinformatics and statistical tools to analyze associations between m(6)A regulators and multiple factors. RESULTS: HNRNPA2B …
Vital roles of m(5)C RNA modification in cancer and immune cell biology.
Gu X, Ma X, Chen C, Guan J, Wang J, Wu S, Zhu H. Gu X, et al. Among authors: zhu h. Front Immunol. 2023 May 31;14:1207371. doi: 10.3389/fimmu.2023.1207371. eCollection 2023. Front Immunol. 2023. PMID: 37325635 Free PMC article. Review.
RNA modification plays an important role in epigenetics at the posttranscriptional level, and 5-methylcytosine (m(5)C) has attracted increasing attention in recent years due to the improvement in RNA m(5)C site detection methods. ...Alterations in immune cell expres …
RNA modification plays an important role in epigenetics at the posttranscriptional level, and 5-methylcytosine (m(5)C) has attracted …
Human genome meeting 2016 : Houston, TX, USA. 28 February - 2 March 2016.
Srivastava AK, Wang Y, Huang R, Skinner C, Thompson T, Pollard L, Wood T, Luo F, Stevenson R, Polimanti R, Gelernter J, Lin X, Lim IY, Wu Y, Teh AL, Chen L, Aris IM, Soh SE, Tint MT, MacIsaac JL, Yap F, Kwek K, Saw SM, Kobor MS, Meaney MJ, Godfrey KM, Chong YS, Holbrook JD, Lee YS, Gluckman PD, Karnani N; GUSTO study group; Kapoor A, Lee D, Chakravarti A, Maercker C, Graf F, Boutros M, Stamoulis G, Santoni F, Makrythanasis P, Letourneau A, Guipponi M, Panousis N, Garieri M, Ribaux P, Falconnet E, Borel C, Antonarakis SE, Kumar S, Curran J, Blangero J, Chatterjee S, Kapoor A, Akiyama J, Auer D, Berrios C, Pennacchio L, Chakravarti A, Donti TR, Cappuccio G, Miller M, Atwal P, Kennedy A, Cardon A, Bacino C, Emrick L, Hertecant J, Baumer F, Porter B, Bainbridge M, Bonnen P, Graham B, Sutton R, Sun Q, Elsea S, Hu Z, Wang P, Zhu Y, Zhao J, Xiong M, Bennett DA, Hidalgo-Miranda A, Romero-Cordoba S, Rodriguez-Cuevas S, Rebollar-Vega R, Tagliabue E, Iorio M, D’Ippolito E, Baroni S, Kaczkowski B, Tanaka Y, Kawaji H, Sandelin A, Andersson R, Itoh M, Lassmann T; The FANTOM5 Consortium; Hayashizaki Y, Carninci P, Forrest ARR, Semple CA, Rosenthal EA, Shirts B, Amendola L, Gallego C, Hori… See abstract for full author list ➔ Srivastava AK, et al. Among authors: zhu y. Hum Genomics. 2016 May 26;10 Suppl 1(Suppl 1):12. doi: 10.1186/s40246-016-0063-5. Hum Genomics. 2016. PMID: 27294413 Free PMC article.
M. Saw, M. S. Kobor, M. J. Meaney, K. M. Godfrey, Y. S. Chong, J. ...M. Edrees, M. Athar, F. A. Al-Allaf, M. M. Taher, W. Khan, A. Bouazzaoui, N. ...
M. Saw, M. S. Kobor, M. J. Meaney, K. M. Godfrey, Y. S. Chong, J. ...M. Edrees, M. Athar, F. A. Al
Detecting m(6)A with In Vitro DART-Seq.
Tegowski M, Zhu H, Meyer KD. Tegowski M, et al. Among authors: zhu h. Methods Mol Biol. 2022;2404:363-374. doi: 10.1007/978-1-0716-1851-6_20. Methods Mol Biol. 2022. PMID: 34694620
Traditional methods for m(6)A profiling have used m(6)A antibodies to immunoprecipitate methylated RNAs. ...Here, we describe the in vitro DART method and present a detailed protocol for highly sensitive m(6)A profiling from any RNA sample of interest....
Traditional methods for m(6)A profiling have used m(6)A antibodies to immunoprecipitate methylated RNAs. ...Here, we describe …
Improved Methods for Deamination-Based m(6)A Detection.
Zhu H, Yin X, Holley CL, Meyer KD. Zhu H, et al. Front Cell Dev Biol. 2022 Apr 27;10:888279. doi: 10.3389/fcell.2022.888279. eCollection 2022. Front Cell Dev Biol. 2022. PMID: 35573664 Free PMC article.
Much of our knowledge of m(6)A has been enabled by the identification of m(6)A sites transcriptome-wide. ...Altogether, these improvements to the DART-seq approach will enable better m(6)A detection and will facilitate the mapping of m(6)A in samples n …
Much of our knowledge of m(6)A has been enabled by the identification of m(6)A sites transcriptome-wide. ...Altogether, these …
The role of Mycobacterium tuberculosis acetyltransferase and protein acetylation modifications in tuberculosis.
Huang Y, Zhu C, Pan L, Zhang Z. Huang Y, et al. Among authors: zhu c. Front Cell Infect Microbiol. 2023 Jul 25;13:1218583. doi: 10.3389/fcimb.2023.1218583. eCollection 2023. Front Cell Infect Microbiol. 2023. PMID: 37560320 Free PMC article. Review.
This review focuses on the contribution of protein acetylation to the function of M. tb and its infected macrophages. The acetylation of M. tb proteins plays a critical role in virulence, drug resistance, regulation of metabolism, and host anti-TB immune response. . …
This review focuses on the contribution of protein acetylation to the function of M. tb and its infected macrophages. The acetylation …
N(6) -methyladenosine (m(6)A) RNA modification in human cancer.
Huo FC, Zhu ZM, Pei DS. Huo FC, et al. Among authors: zhu zm. Cell Prolif. 2020 Nov;53(11):e12921. doi: 10.1111/cpr.12921. Epub 2020 Oct 7. Cell Prolif. 2020. PMID: 33029866 Free PMC article. Review.
This governs the fate of modified transcripts, regulates RNA metabolism and biological processes, and participates in pathogenesis of numerous human diseases, especially in cancer through the reciprocal regulation of m(6) A methyltransferases ("writers") and demethylases ( …
This governs the fate of modified transcripts, regulates RNA metabolism and biological processes, and participates in pathogenesis of numero …
20,996 results
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