mir-30 microRNA precursor
miR-30 microRNA precursor is a small non-coding RNA that regulates gene expression. Animal microRNAs are transcribed as pri-miRNA (primary miRNA) of varying length which in turns are processed in the nucleus by Drosha into ~70 nucleotide stem-loop precursor called pre-miRNA (precursor miRNA) and subsequently processed by the Dicer enzyme to give a mature ~22 nucleotide product. In this case the mature sequence comes from both the 3' (miR-30)[1] and 5' (mir-97-6)[2] arms of the precursor. The products are thought to have regulatory roles through complementarity to mRNA.[3]
mir-30 microRNA precursor | |
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Predicted secondary structure and sequence conservation of mir-30 | |
Identifiers | |
Symbol | mir-30 |
Rfam | RF00131 |
miRBase | MI0000088 |
miRBase family | MIPF0000005 |
Other data | |
RNA type | Gene; miRNA |
Domain(s) | Eukaryota |
GO | 0035068 0035195 |
SO | 0001244 |
PDB structures | PDBe |
A screen of 17 miRNAs that have been predicted to regulate a number of breast cancer associated genes found variations in the microRNAs miR-17 and miR-30c-1, these patients were noncarriers of BRCA1 or BRCA2 mutations, lending the possibility that familial breast cancer may be caused by variation in these miRNAs.[4]
Members of the miR-30 family have been found to be highly expressed in heart cells.[5]
Targets of miR-30
It has been shown that the integrin ITGB3 and the ubiquitin conjugating E2 enzyme UBC9 are downregulated by miR-30.[6] It has also been suggested that the TP53 protein may be a target of miR-30c and miR-30e. An immunoblot analysis revealed that p53 expression levels were elevated upon knockdown of miR-30c and miR-30e.[7]
References
- Lagos-Quintana, M; Rauhut R; Lendeckel W; Tuschl T (2001). "Identification of novel genes coding for small expressed RNAs". Science. 294 (5543): 853–858. doi:10.1126/science.1064921. hdl:11858/00-001M-0000-0012-F65F-2. PMID 11679670.
- Mourelatos, Z; Dostie J; Paushkin S; Sharma A; Charroux B; Abel L; Rappsilber J; Mann M; Dreyfuss G (2002). "miRNPs: a novel class of ribonucleoproteins containing numerous microRNAs". Genes Dev. 16 (6): 720–728. doi:10.1101/gad.974702. PMC 155365. PMID 11914277.
- Ambros V (2001). "microRNAs: tiny regulators with great potential". Cell. 107 (7): 823–6. doi:10.1016/S0092-8674(01)00616-X. PMID 11779458.
- Shen J, Ambrosone CB, Zhao H (2009). "Novel genetic variants in microRNA genes and familial breast cancer". Int J Cancer. 124 (5): 1178–82. doi:10.1002/ijc.24008. PMID 19048628.
- Duisters RF, Tijsen AJ, Schroen B, et al. (January 2009). "miR-133 and miR-30 regulate connective tissue growth factor: implications for a role of microRNAs in myocardial matrix remodeling". Circ. Res. 104 (2): 170–8, 6p following 178. doi:10.1161/CIRCRESAHA.108.182535. PMID 19096030.
- Yu F, Deng H, Yao H, Liu Q, Su F, Song E (July 2010). "Mir-30 reduction maintains self-renewal and inhibits apoptosis in breast tumor-initiating cells". Oncogene. 29 (29): 4194–204. doi:10.1038/onc.2010.167. PMID 20498642.
- Li J, Donath S, Li Y, Qin D, Prabhakar BS, Li P (January 2010). McManus MT (ed.). "miR-30 regulates mitochondrial fission through targeting p53 and the dynamin-related protein-1 pathway". PLoS Genet. 6 (1): e1000795. doi:10.1371/journal.pgen.1000795. PMC 2793031. PMID 20062521.
Further reading
- Agrawal R, Tran U, Wessely O (December 2009). "The miR-30 miRNA family regulates Xenopus pronephros development and targets the transcription factor Xlim1/Lhx1". Development. 136 (23): 3927–36. doi:10.1242/dev.037432. PMC 2778741. PMID 19906860.
- Su S, Shao J, Zhao Q, et al. (May 2017). "MiR-30b Attenuates Neuropathic Pain by Regulating Voltage-Gated Sodium Channel Nav1.3 in Rats". Front Mol Neurosci. 10: 126. doi:10.3389/fnmol.2017.00126. PMC 5418349. PMID 28529474.