Terminal Repeat Sequences
"Terminal Repeat Sequences" 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.
Nucleotide sequences repeated on both the 5' and 3' ends of a sequence under consideration. For example, the hallmarks of a transposon are that it is flanked by inverted repeats on each end and the inverted repeats are flanked by direct repeats. The Delta element of Ty retrotransposons and LTRs (long terminal repeats) are examples of this concept.
|Terminal Repeat Sequences
- Terminal Repeat Sequences
- Repeat Sequence, Terminal
- Repeat Sequences, Terminal
- Sequence, Terminal Repeat
- Sequences, Terminal Repeat
- Terminal Repeat Sequence
- Flanking Repeat Sequences
- Flanking Repeat Sequence
- Repeat Sequence, Flanking
- Repeat Sequences, Flanking
- Sequence, Flanking Repeat
- Sequences, Flanking Repeat
- Terminal Repeat
- Repeat, Terminal
- Repeats, Terminal
- Terminal Repeats
R Repetitive Sequence
- R Repetitive Sequence
- R Repetitive Sequences
- Repetitive Sequence, R
- Repetitive Sequences, R
- Sequence, R Repetitive
- Sequences, R Repetitive
Long Terminal Repeat
- Long Terminal Repeat
- Long Terminal Repeats
- Repeat, Long Terminal
- Repeats, Long Terminal
- Terminal Repeat, Long
- Terminal Repeats, Long
- Delta Elements
- Delta Element
- Element, Delta
- Elements, Delta
Below are MeSH descriptors whose meaning is more general than "Terminal Repeat Sequences".
Below are MeSH descriptors whose meaning is more specific than "Terminal Repeat Sequences".
This graph shows the total number of publications written about "Terminal Repeat Sequences" by people in this website by year, and whether "Terminal Repeat Sequences" was a major or minor topic of these publications.
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Below are the most recent publications written about "Terminal Repeat Sequences" by people in Profiles.
Namkung S, Tran NT, Manokaran S, He R, Su Q, Xie J, Gao G, Tai PWL. Direct ITR-to-ITR Nanopore Sequencing of AAV Vector Genomes. Hum Gene Ther. 2022 11; 33(21-22):1187-1196.
Estevez M, Li R, Paul B, Daneshvar K, Mullen AC, Romerio F, Addepalli B. Identification and mapping of post-transcriptional modifications on the HIV-1 antisense transcript Ast in human cells. RNA. 2022 05; 28(5):697-710.
Chou HJ, Donnard E, Gustafsson HT, Garber M, Rando OJ. Transcriptome-wide Analysis of Roles for tRNA Modifications in Translational Regulation. Mol Cell. 2017 Dec 07; 68(5):978-992.e4.
Gruntman AM, Su L, Su Q, Gao G, Mueller C, Flotte TR. Stability and compatibility of recombinant adeno-associated virus under conditions commonly encountered in human gene therapy trials. Hum Gene Ther Methods. 2015 Apr; 26(2):71-6.
Diehl WE, Johnson WE, Hunter E. Elevated rate of fixation of endogenous retroviral elements in Haplorhini TRIM5 and TRIM22 genomic sequences: impact on transcriptional regulation. PLoS One. 2013; 8(3):e58532.
Santoni FA, Guerra J, Luban J. HERV-H RNA is abundant in human embryonic stem cells and a precise marker for pluripotency. Retrovirology. 2012 Dec 20; 9:111.
Vagin VV, Sigova A, Li C, Seitz H, Gvozdev V, Zamore PD. A distinct small RNA pathway silences selfish genetic elements in the germline. Science. 2006 Jul 21; 313(5785):320-4.
Kalmykova AI, Klenov MS, Gvozdev VA. Argonaute protein PIWI controls mobilization of retrotransposons in the Drosophila male germline. Nucleic Acids Res. 2005; 33(6):2052-9.
Ping YH, Chu CY, Cao H, Jacque JM, Stevenson M, Rana TM. Modulating HIV-1 replication by RNA interference directed against human transcription elongation factor SPT5. Retrovirology. 2004 Dec 27; 1:46.
Oikemus SR, McGinnis N, Queiroz-Machado J, Tukachinsky H, Takada S, Sunkel CE, Brodsky MH. Drosophila atm/telomere fusion is required for telomeric localization of HP1 and telomere position effect. Genes Dev. 2004 Aug 01; 18(15):1850-61.