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Mirtrons are a type of microRNAs that are located in the introns of the mRNA encoding host genes. [1] [2] These short hairpin introns formed via atypical miRNA biogenesis pathways. [3] [4] Mirtrons arise from the spliced-out introns and are known to function in gene expression.

Mirtrons were first identified in Drosophila melanogaster and Caenorhabditis elegans. [5] [6] The number of mirtrons identified to date are 14, 9, and 19 in D. melanogaster, C. elegans and mammals respectively. [7] Mirtrons are alternative precursors for microRNA biogenesis. The short hairpin introns use splicing to bypass DROSHA cleavage, which is otherwise essential for the generation of canonical animal microRNAs. Mirtrons arise from the spliced-out introns and are known to function like classical microRNAs (miRs) and regulate gene expression, by either mRNA destabilisation, inhibition of the translation or target mRNA cleavage. [8]

Now more evidence is emerging that supports the existence of mirtrons in plants. All the miRNAs in plants are derived from the sequential DCL1 cleavages from pri-miRNA to give pre-miRNA (or miRNA precursor), but the mirtrons bypass the DCL1 cleavage and enter as pre-miRNA in the miRNA maturation pathway. [7]

Mirtrons are distinct from canonical miRNA sequences, and can be distinguished with machine learning methods in data analysis. [9]

References

  1. ^ Ruby, JG; Jan, CH; Bartel, DP (Jul 5, 2007). "Intronic microRNA precursors that bypass Drosha processing". Nature. 448 (7149): 83–6. Bibcode: 2007Natur.448...83R. doi: 10.1038/nature05983. PMC  2475599. PMID  17589500.
  2. ^ Wen, Jiayu; Ladewig, Erik; Shenker, Sol; Mohammed, Jaaved; Lai, Eric C. (2015). "Analysis of Nearly One Thousand Mammalian Mirtrons Reveals Novel Features of Dicer Substrates". PLOS Computational Biology. 11 (9): e1004441. Bibcode: 2015PLSCB..11E4441W. doi: 10.1371/journal.pcbi.1004441. PMC  4556696. PMID  26325366.
  3. ^ Ruby, JG; Jan, CH; Bartel, DP (Jul 5, 2007). "Intronic microRNA precursors that bypass Drosha processing". Nature. 448 (7149): 83–6. Bibcode: 2007Natur.448...83R. doi: 10.1038/nature05983. PMC  2475599. PMID  17589500.
  4. ^ Da Fonseca, Bruno Henrique Ribeiro; Domingues, Douglas Silva; Paschoal, Alexandre Rossi (2019-10-01). "mirtronDB: a mirtron knowledge base". Bioinformatics. 35 (19): 3873–3874. doi: 10.1093/bioinformatics/btz153. ISSN  1367-4803. PMC  6761972. PMID  30874795.
  5. ^ Ruby, JG; Jan, CH; Bartel, DP (Jul 5, 2007). "Intronic microRNA precursors that bypass Drosha processing". Nature. 448 (7149): 83–6. Bibcode: 2007Natur.448...83R. doi: 10.1038/nature05983. PMC  2475599. PMID  17589500.
  6. ^ Jan, CH; Ruby, JG; Friedman, R; Bartel, DP (Jan 6, 2011). "Formation, regulation and evolution of Caenorhabditis elegans 3′UTRs" (PDF). Nature. 469 (7328): 97–101. Bibcode: 2011Natur.469...97J. doi: 10.1038/nature09616. PMC  3057491. PMID  21085120.
  7. ^ a b Zhu, Q.-H.; Spriggs, A.; Matthew, L.; Fan, L.; Kennedy, G.; Gubler, F.; Helliwell, C. (30 July 2008). "A diverse set of microRNAs and microRNA-like small RNAs in developing rice grains". Genome Research. 18 (9): 1456–1465. doi: 10.1101/gr.075572.107. PMC  2527712. PMID  18687877.
  8. ^ "mirtron". mirtron.gene-quantification.info. Retrieved 2022-12-10.
  9. ^ Rorbach, Grzegorz; Unold, Olgierd; Konopka, Bogumil M. (2018). "Distinguishing mirtrons from canonical miRNAs with data exploration and machine learning methods". Scientific Reports. 8 (1): 7560. Bibcode: 2018NatSR...8.7560R. doi: 10.1038/s41598-018-25578-3. PMC  5953923. PMID  29765080.


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