RNA Processing, Post-Transcriptional

"RNA Processing, Post-Transcriptional" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus, MeSH (Medical Subject Headings). Descriptors are arranged in a hierarchical structure, which enables searching at various levels of specificity.

MeSH information

Definition | Details | More General Concepts | Related Concepts | More Specific Concepts

Post-transcriptional biological modification of messenger, transfer, or ribosomal RNAs or their precursors. It includes cleavage, methylation, thiolation, isopentenylation, pseudouridine formation, conformational changes, and association with ribosomal protein.

Descriptor ID

D012323

MeSH Number(s)

G02.111.087.750

G02.149.115.750

G03.495.839

G05.355.315.700

Concept/Terms

RNA Processing, Post-Transcriptional

Below are MeSH descriptors whose meaning is more general than "RNA Processing, Post-Transcriptional".

Biological Sciences [G]
Chemical Phenomena [G02]
Biochemical Phenomena [G02.111]
Biochemical Processes [G02.111.087]
RNA Processing, Post-Transcriptional [G02.111.087.750]
Chemical Processes [G02.149]
Biochemical Processes [G02.149.115]
RNA Processing, Post-Transcriptional [G02.149.115.750]
Metabolic Phenomena [G03]
Metabolism [G03.495]
RNA Processing, Post-Transcriptional [G03.495.839]
Genetic Phenomena [G05]
Genetic Processes [G05.355]
Gene Expression Regulation [G05.355.315]
RNA Processing, Post-Transcriptional [G05.355.315.700]

Below are MeSH descriptors whose meaning is related to "RNA Processing, Post-Transcriptional".

Below are MeSH descriptors whose meaning is more specific than "RNA Processing, Post-Transcriptional".

publications

Timeline | Most Recent

This graph shows the total number of publications written about "RNA Processing, Post-Transcriptional" by people in Harvard Catalyst Profiles by year, and whether "RNA Processing, Post-Transcriptional" was a major or minor topic of these publication.

Bar chart showing 272 publications over 30 distinct years, with a maximum of 21 publications in 2011

To see the data from this visualization as text, click here.

Year	Major Topic	Minor Topic	Total
1990	3	2	5
1991	2	5	7
1992	2	2	4
1993	1	0	1
1994	1	2	3
1995	1	4	5
1996	1	0	1
1997	1	3	4
1998	1	0	1
1999	0	5	5
2000	3	6	9
2001	1	5	6
2002	2	6	8
2003	3	3	6
2004	6	3	9
2005	2	6	8
2006	4	7	11
2007	7	5	12
2008	8	5	13
2009	6	5	11
2010	10	7	17
2011	11	10	21
2012	4	6	10
2013	5	8	13
2014	8	11	19
2015	2	11	13
2016	7	5	12
2017	6	6	12
2018	9	5	14
2019	6	6	12

Below are the most recent publications written about "RNA Processing, Post-Transcriptional" by people in Profiles.

Poganik JR, Long MJC, Disare MT, Liu X, Chang SH, Hla T, Aye Y. Post-transcriptional regulation of Nrf2-mRNA by the mRNA-binding proteins HuR and AUF1. FASEB J. 2019 12; 33(12):14636-14652.

View in: PubMed
Xu L, Wang P, Feng X, Tang J, Li L, Zheng X, Zhang J, Hu Y, Lan T, Yuan K, Zhang Y, Ren S, Hao X, Zhang M, Xu M. SETD3 is regulated by a couple of microRNAs and plays opposing roles in proliferation and metastasis of hepatocellular carcinoma. Clin Sci (Lond). 2019 10 30; 133(20):2085-2105.

View in: PubMed
Nachmani D, Bothmer AH, Grisendi S, Mele A, Bothmer D, Lee JD, Monteleone E, Cheng K, Zhang Y, Bester AC, Guzzetti A, Mitchell CA, Mendez LM, Pozdnyakova O, Sportoletti P, Martelli MP, Vulliamy TJ, Safra M, Schwartz S, Luzzatto L, Bluteau O, Soulier J, Darnell RB, Falini B, Dokal I, Ito K, Clohessy JG, Pandolfi PP. Germline NPM1 mutations lead to altered rRNA 2'-O-methylation and cause dyskeratosis congenita. Nat Genet. 2019 10; 51(10):1518-1529.

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Gable DL, Gaysinskaya V, Atik CC, Talbot CC, Kang B, Stanley SE, Pugh EW, Amat-Codina N, Schenk KM, Arcasoy MO, Brayton C, Florea L, Armanios M. ZCCHC8, the nuclear exosome targeting component, is mutated in familial pulmonary fibrosis and is required for telomerase RNA maturation. Genes Dev. 2019 10 01; 33(19-20):1381-1396.

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Weil AA, Ellis CN, Debela MD, Bhuiyan TR, Rashu R, Bourque DL, Khan AI, Chowdhury F, LaRocque RC, Charles RC, Ryan ET, Calderwood SB, Qadri F, Harris JB. Posttranslational Regulation of IL-23 Production Distinguishes the Innate Immune Responses to Live Toxigenic versus Heat-Inactivated Vibrio cholerae. mSphere. 2019 08 21; 4(4).

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Boulias K, Toczydlowska-Socha D, Hawley BR, Liberman N, Takashima K, Zaccara S, Guez T, Vasseur JJ, Debart F, Aravind L, Jaffrey SR, Greer EL. Identification of the m6Am Methyltransferase PCIF1 Reveals the Location and Functions of m6Am in the Transcriptome. Mol Cell. 2019 08 08; 75(3):631-643.e8.

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Sendinc E, Valle-Garcia D, Dhall A, Chen H, Henriques T, Navarrete-Perea J, Sheng W, Gygi SP, Adelman K, Shi Y. PCIF1 Catalyzes m6Am mRNA Methylation to Regulate Gene Expression. Mol Cell. 2019 08 08; 75(3):620-630.e9.

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Liu Q, Gregory RI. RNAmod: an integrated system for the annotation of mRNA modifications. Nucleic Acids Res. 2019 07 02; 47(W1):W548-W555.

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Nussbacher JK, Tabet R, Yeo GW, Lagier-Tourenne C. Disruption of RNA Metabolism in Neurological Diseases and Emerging Therapeutic Interventions. Neuron. 2019 04 17; 102(2):294-320.

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Krajewska M, Dries R, Grassetti AV, Dust S, Gao Y, Huang H, Sharma B, Day DS, Kwiatkowski N, Pomaville M, Dodd O, Chipumuro E, Zhang T, Greenleaf AL, Yuan GC, Gray NS, Young RA, Geyer M, Gerber SA, George RE. CDK12 loss in cancer cells affects DNA damage response genes through premature cleavage and polyadenylation. Nat Commun. 2019 04 15; 10(1):1757.

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