RNA Processing, Post-Transcriptional

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"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 265 publications over 30 distinct years, with a maximum of 21 publications in 2014

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

Year	Major Topic	Minor Topic	Total
1988	5	0	5
1989	4	4	8
1990	3	2	5
1991	2	5	7
1992	2	2	4
1993	2	0	2
1994	1	3	4
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	4	7
2004	6	3	9
2005	2	7	9
2006	5	7	12
2007	6	4	10
2008	8	5	13
2009	6	6	12
2010	12	7	19
2011	10	10	20
2012	4	6	10
2013	8	8	16
2014	9	12	21
2015	2	12	14
2016	4	5	9
2017	4	6	10

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

Chakraborty A, Uechi T, Nakajima Y, Gazda HT, O'Donohue MF, Gleizes PE, Kenmochi N. Cross talk between TP53 and c-Myc in the pathophysiology of Diamond-Blackfan anemia: Evidence from RPL11-deficient in vivo and in vitro models. Biochem Biophys Res Commun. 2018 01 08; 495(2):1839-1845.

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Anastasiadou E, Jacob LS, Slack FJ. Non-coding RNA networks in cancer. Nat Rev Cancer. 2018 Jan; 18(1):5-18.

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Lee G, Zheng Y, Cho S, Jang C, England C, Dempsey JM, Yu Y, Liu X, He L, Cavaliere PM, Chavez A, Zhang E, Isik M, Couvillon A, Dephoure NE, Blackwell TK, Yu JJ, Rabinowitz JD, Cantley LC, Blenis J. Post-transcriptional Regulation of De Novo Lipogenesis by mTORC1-S6K1-SRPK2 Signaling. Cell. 2017 Dec 14; 171(7):1545-1558.e18.

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Kulkarni S, Ramsuran V, Rucevic M, Singh S, Lied A, Kulkarni V, O'hUigin C, Le Gall S, Carrington M. Posttranscriptional Regulation of HLA-A Protein Expression by Alternative Polyadenylation Signals Involving the RNA-Binding Protein Syncrip. J Immunol. 2017 12 01; 199(11):3892-3899.

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Braun DA, Rao J, Mollet G, Schapiro D, Daugeron MC, Tan W, Gribouval O, Boyer O, Revy P, Jobst-Schwan T, Schmidt JM, Lawson JA, Schanze D, Ashraf S, Ullmann JFP, Hoogstraten CA, Boddaert N, Collinet B, Martin G, Liger D, Lovric S, Furlano M, Guerrera IC, Sanchez-Ferras O, Hu JF, Boschat AC, Sanquer S, Menten B, Vergult S, De Rocker N, Airik M, Hermle T, Shril S, Widmeier E, Gee HY, Choi WI, Sadowski CE, Pabst WL, Warejko JK, Daga A, Basta T, Matejas V, Scharmann K, Kienast SD, Behnam B, Beeson B, Begtrup A, Bruce M, Ch'ng GS, Lin SP, Chang JH, Chen CH, Cho MT, Gaffney PM, Gipson PE, Hsu CH, Kari JA, Ke YY, Kiraly-Borri C, Lai WM, Lemyre E, Littlejohn RO, Masri A, Moghtaderi M, Nakamura K, Ozaltin F, Praet M, Prasad C, Prytula A, Roeder ER, Rump P, Schnur RE, Shiihara T, Sinha MD, Soliman NA, Soulami K, Sweetser DA, Tsai WH, Tsai JD, Topaloglu R, Vester U, Viskochil DH, Vatanavicharn N, Waxler JL, Wierenga KJ, Wolf MTF, Wong SN, Leidel SA, Truglio G, Dedon PC, Poduri A, Mane S, Lifton RP, Bouchard M, Kannu P, Chitayat D, Magen D, Callewaert B, van Tilbeurgh H, Zenker M, Antignac C, Hildebrandt F. Mutations in KEOPS-complex genes cause nephrotic syndrome with primary microcephaly. Nat Genet. 2017 Oct; 49(10):1529-1538.

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Chand SN, Zarei M, Schiewer MJ, Kamath AR, Romeo C, Lal S, Cozzitorto JA, Nevler A, Scolaro L, Londin E, Jiang W, Meisner-Kober N, Pishvaian MJ, Knudsen KE, Yeo CJ, Pascal JM, Winter JM, Brody JR. Posttranscriptional Regulation of PARG mRNA by HuR Facilitates DNA Repair and Resistance to PARP Inhibitors. Cancer Res. 2017 09 15; 77(18):5011-5025.

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Sharma S, Yang J, van Nues R, Watzinger P, Kötter P, Lafontaine DLJ, Granneman S, Entian KD. Specialized box C/D snoRNPs act as antisense guides to target RNA base acetylation. PLoS Genet. 2017 May; 13(5):e1006804.

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Lee J, Dykstra B, Spencer JA, Kenney LL, Greiner DL, Shultz LD, Brehm MA, Lin CP, Sackstein R, Rossi DJ. mRNA-mediated glycoengineering ameliorates deficient homing of human stem cell-derived hematopoietic progenitors. J Clin Invest. 2017 Jun 01; 127(6):2433-2437.

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Lim J, Giri PK, Kazadi D, Laffleur B, Zhang W, Grinstein V, Pefanis E, Brown LM, Ladewig E, Martin O, Chen Y, Rabadan R, Boyer F, Rothschild G, Cogné M, Pinaud E, Deng H, Basu U. Nuclear Proximity of Mtr4 to RNA Exosome Restricts DNA Mutational Asymmetry. Cell. 2017 Apr 20; 169(3):523-537.e15.

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Espinoza-Lewis RA, Yang Q, Liu J, Huang ZP, Hu X, Chen D, Wang DZ. Poly(C)-binding protein 1 (Pcbp1) regulates skeletal muscle differentiation by modulating microRNA processing in myoblasts. J Biol Chem. 2017 06 09; 292(23):9540-9550.

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Funded by the NIH National Center for Advancing Translational Sciences through its Clinical and Translational Science Awards Program, grant number UL1TR002541, and through institutional support from Harvard University, Harvard Medical School, Harvard T.H. Chan School of Public Health, Beth Israel Deaconess Medical Center, Boston Children's Hospital, Brigham and Women's Hospital, Massachusetts General Hospital and the Dana-Farber Cancer Institute.

RNA Processing, Post-Transcriptional

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