pre-miRNA Information | |
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pre-miRNA | mmu-mir-350 |
Genomic Coordinates | chr1: 176772325 - 176772423 |
Synonyms | Mirn350, mmu-mir-350, Mir350 |
Description | Mus musculus miR-350 stem-loop |
Comment | Kim et al. cloned 40 new miRNAs from rat E18 primary cortical neurons . |
RNA Secondary Structure |
Mature miRNA Information | |
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Mature miRNA | mmu-miR-350-3p |
Sequence | 61| UUCACAAAGCCCAUACACUUUC |82 |
Evidence | Experimental |
Experiments | Cloned |
Putative Targets |
Gene Information | |||||||||||||||||||||
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Gene Symbol | Larp1 | ||||||||||||||||||||
Synonyms | 1810024J12Rik, 3110040D16Rik, Larp, mKIAA0731 | ||||||||||||||||||||
Description | La ribonucleoprotein domain family, member 1 | ||||||||||||||||||||
Transcript | NM_028451 | ||||||||||||||||||||
Expression | |||||||||||||||||||||
Putative miRNA Targets on Larp1 | |||||||||||||||||||||
3'UTR of Larp1 (miRNA target sites are highlighted) |
>Larp1|NM_028451|3'UTR 1 ATGGCCTGAAGCCCCCTGGGGTTTGTGATAGAGGGGTGGGGTGGTTGAGGATCTGTGGGGTGCCCAGAAGAGCGAACAAG 81 AGAAGGGACAGACCTAGAGTACTAAGAATGGGCCTTTGCGCTAAGTAGCAGTGTATACCATTTGGGCTATTAGCGGTGCT 161 CCTGGGCAGGAGCCTCCAAGTACCCCATCCCTCCTGTCACCATGACTTCCATCATAACTTCTAAGGGGGGAGGGGAAGGG 241 GGGAGATTTTATATATATATATATATATATATACATATATATATATCAAGTTTTAAATTATTGATAGTTTGTCTGGATTA 321 CCAAAATCACTCTTTAGCCCTTCCTGCGGCTATTATGCCGACCTGTCTCCCCTGCCTCTTCCCGCTTCCCTCAAGCCAAC 401 TATGCAGCCCACCAGAAGGCTCTGGCGGTGCCCATGGGCCCCAGAAGCACCAGCCCCTTGATCACCTGGGGTTTGCCATC 481 ACCGTGTCCCTGCTGTTCCACATGCCCTTCTGCCACCTCTGGGGGAAGGAAACCAAAGGATCTCAGTGGGGGTGGGAGCT 561 TCAGCCTCTCCCCTCGCCCCCTCGCCCCACCCCAGAGACGCTGCTCACACCAGAAGAGACTATTGAAAGATGATTCATTT 641 TATTTTTTCTCTGACCTTTCCATCCTTGGGAAAACAGAAAAACAAAACAAAAAAACAAAAAAAAAACAAAAACGAAAATA 721 AAAAAGAAAGAAAGAAGAAAGAAAAAAAAAAGACAAAATCGACCACTTTAAAAAAAAAAAAAAGACAAAAAACCAGAGCC 801 CACCTACTCCATAGAAAGTGATGTCTTTCCCCCTCCTTGGAATTTTTCTTCTGTTCTGTTTTTGGAAATAATATTTTTTT 881 AAAAGTTGCCTTATTGTGGAGCGGGAACCTGAACTAATGCCCAAATGCCTGTTTTCCTTGAGCCTCCGGAAGAGCTCCAC 961 CTGCCCGGGATGTCCCTGGACTTGGACTGACTAGAACTTTCCTCGAGACTGAGTTGCATGTACGGGGCCTCCTACCTGGA 1041 GGCAAGAGTTGGGGCAGTTCTATCAGAGCTGTGCCCAGGACACCCCTGCTGTTGCATTGTCTGAAGCCAATGTCCTGTGT 1121 CTGCACACTGTTGCCACTGTCCTTGTTGTGCTTGCTGTCGCCTCTCCAGGCCCACTCAGCTCTGCTCCGCCCCGCCCCGC 1201 CCAGCCAAGCCCTGGGAAACCCCAAGGCCAAGTTTGCTTCAGACTGTTGTAAACATAATTGGTCTTGCCTGGTACACACT 1281 TGTCCTCAGTGTGCACATCTCCCCAACTCCAGAACAAGGGGTTGAACACCCACTGATGTCCACAGCTTAGGTCTGTGTCT 1361 AACCTTAACGACCTTTGACCTCAAGGAGGTGGAGAAAAGGTACCATTCTCTAAGGGTCTGGTGTTGTCTTTCCATCTTAT 1441 TACCACCACCCCCTGCAAGCCATCTCTGCCCACCCTCTCATTGGCCCTGCCTGGGATCAAGGGGGTGAGAGGAACCAAGG 1521 GCTGGGGAATCCTACCGTTTGGTGAAGCCCCATGGCAGGAAGGTATATGTGGACATAGAGTATACCTGACTTCTCTTCAA 1601 AAGCCAGACTGCCTGAGCTGCACTTGAGATGCCAGAGGAGTGGCTGGAGGCTGCTGTCACCAGGAGCTGAGGAGGGTAAT 1681 GAAGGACTGAGCACACAGGCTGGGAGACTTCATGCTAACCCTACACTTGGACCTAGGTGGCACAAGGGGGTGTGGTCTTT 1761 TTGCTAGCTTAACTGAAATTTGTGTGACCCTCCTCATCGCCCAGTTCCTCTATTGTCCCAAAAGTTGGGACTGGGACACA 1841 GCATCCCAGGCTGACAAGAGCTTGCCTTCTGTCTTTGGGCACCTTGTTACTTTGAGCTCATGCCTTGCCCCACTCTGTCC 1921 TCCCGGTGCTTAGGATGTGGGAATCCCTTGTCAGCTCCTGTGACTCACTTGTCGCAAACAAATAAGGGAACAGGATCATC 2001 TGCTGCTGGGATCTGAGGCCTTCTCCTAAGTCTGGTACCTGCCCTATGGTGCACCTTCACCAAACAGTGGGCTCCCTGCT 2081 TCCCTTTCTCCTCTCCTCTCCTCACTCAGCCCTCTACTGTATATCCAGCACCACAGAACCTCAGGGCTTGAGGCCCAGCA 2161 TCAGGGAAGGTGGTTTCCATCTAGGCTATCCAGACTAGGGTTGCCATTCTCTCCCAGATCCTCCCAGACCCTCTGAGGGA 2241 AGAAGCCCCTCTGGGGTGGGAAGGCAAGGCTATCATCTCAACACAGGCTGAGGAGGGGTGGGAGTGTGTGTGTGTGTGTG 2321 TGTGTGTGTGTGTGTGTGTGTATTTTTTGTGACATGTTAAGAGTTGATGTTGCGGAGTAGTTTACATCTTCACCTTCTGA 2401 AGACACTTGAATTTAGGACCGATGTATCTGTGACAAGTATGCCAGGAGTGGGGGTGGGGCACCAGAGCAAGCCACTTCCC 2481 CATCACCATCTTCCCATGGAATCCAAGACCTAAGACAGACAGCCTGCCAAATGGAACCGCCTTCATCCTCTGCCTGTGCA 2561 GGGTTAGACATCCACCTGGCCCCAGCAAGGGGCAGATGGTGGTTTGCAAACCTGTGAGCCTCAGAGCAGATTTGCTACTC 2641 GGAGGGAAGGCTGCCTGGCCCTGCTCCAGCCTGGACCGCAGGTTCAGACAGGTGCTGAGCCCCGGGTCAAGTTGTTCAAT 2721 GTTTTTGTTCTGTAGCTCCTTCCCACTCCTTTTTGATGACATTTACAAAAGAAGGCAAGCTGCTTGGAAGGTCTGGACAT 2801 GAGGGAAAGGGCATTGAGGACAAGGCTAATGGTGGGGAGTGCTAGAGGCTTGGGTTCCCCTGTCCCCTGGATGGGACCCC 2881 AGAGTCTCTTGTCACAGGGCCCCTAGGTTTTCCCCAGCTCCCACCCTCTCCTCCAGCCATGGTTACGGCAGAGGCAGAAG 2961 AAAACTTTGAGCCCAGTTCTCACAGGAAAGGAAAACTCTCATGGGCTTTGCAGAGAAGGTTCCACCTACGCTCATATATT 3041 GTCTTTACCATGTGCTAGGATATCACATCAACAGGACAAGAAAAATGTAAAATACTTGAATGAGCTTGTATTATAACATT 3121 AATATTATTGAGAGTGTCTGCTTCCCAGGCTGAAGTGATTCATTCATTATTCTGGTCCTGCTCTAGTCCTTTGTAATTGG 3201 TGGTAATTATTATGCTTTTCTTTTTAATACAAAAAAAATGTATAAAAATAAAAACTTGAAAAGGCAAAA Target sites
Provided by authors
Predicted by miRanda
DRVs
SNPs
DRVs & SNPs
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miRNA-target interactions (Predicted by miRanda) |
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Experimental Support 1 for Functional miRNA-Target Interaction | |
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miRNA:Target | ---- |
Validation Method |
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Conditions | mESCs |
Location of target site | 3'UTR |
Tools used in this research | TargetScan , miRTarCLIP , Piranha |
Original Description (Extracted from the article) |
...
HITS-CLIP data was present in GSM622571. RNA binding protein: AGO2. Condition:WT1B
... - Leung AK; Young AG; Bhutkar A; Zheng GX; et al., 2011, Nature structural & molecular biology. |
Article |
- Leung AK; Young AG; Bhutkar A; Zheng GX; et al. - Nature structural & molecular biology, 2011
MicroRNAs (miRNAs) are 19-22-nucleotide noncoding RNAs that post-transcriptionally regulate mRNA targets. We have identified endogenous miRNA binding sites in mouse embryonic stem cells (mESCs), by performing photo-cross-linking immunoprecipitation using antibodies to Argonaute (Ago2) followed by deep sequencing of RNAs (CLIP-seq). We also performed CLIP-seq in Dicer(-)/(-) mESCs that lack mature miRNAs, allowing us to define whether the association of Ago2 with the identified sites was miRNA dependent. A significantly enriched motif, GCACUU, was identified only in wild-type mESCs in 3' untranslated and coding regions. This motif matches the seed of a miRNA family that constitutes ~68% of the mESC miRNA population. Unexpectedly, a G-rich motif was enriched in sequences cross-linked to Ago2 in both the presence and absence of miRNAs. Expression analysis and reporter assays confirmed that the seed-related motif confers miRNA-directed regulation on host mRNAs and that the G-rich motif can modulate this regulation.
LinkOut: [PMID: 21258322]
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Experimental Support 2 for Functional miRNA-Target Interaction | |
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miRNA:Target | ---- |
Validation Method |
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Conditions | C2C12 |
Location of target site | 3'UTR |
Tools used in this research | TargetScan , miRTarCLIP , Piranha |
Original Description (Extracted from the article) |
...
HITS-CLIP data was present in GSM1385342. RNA binding protein: 聽AGO2. Condition:C2C12_GM_Ago2_CLIP-Seq_myoblast
... - Zhang X; Zuo X; Yang B; Li Z; Xue Y; Zhou et al., 2014, Cell. |
Article |
- Zhang X; Zuo X; Yang B; Li Z; Xue Y; Zhou et al. - Cell, 2014
MicroRNAs are well known to mediate translational repression and mRNA degradation in the cytoplasm. Various microRNAs have also been detected in membrane-compartmentalized organelles, but the functional significance has remained elusive. Here, we report that miR-1, a microRNA specifically induced during myogenesis, efficiently enters the mitochondria where it unexpectedly stimulates, rather than represses, the translation of specific mitochondrial genome-encoded transcripts. We show that this positive effect requires specific miR:mRNA base-pairing and Ago2, but not its functional partner GW182, which is excluded from the mitochondria. We provide evidence for the direct action of Ago2 in mitochondrial translation by crosslinking immunoprecipitation coupled with deep sequencing (CLIP-seq), functional rescue with mitochondria-targeted Ago2, and selective inhibition of the microRNA machinery in the cytoplasm. These findings unveil a positive function of microRNA in mitochondrial translation and suggest a highly coordinated myogenic program via miR-1-mediated translational stimulation in the mitochondria and repression in the cytoplasm.
LinkOut: [PMID: 25083871]
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27 mmu-miR-350-3p Target Genes:
Functional analysis:
ID | Target | Description | Validation methods | |||||||||
Strong evidence | Less strong evidence | |||||||||||
MIRT435011 | Lars2 | leucyl-tRNA synthetase, mitochondrial | 1 | 2 | ||||||||
MIRT577176 | Tet1 | tet methylcytosine dioxygenase 1 | 1 | 5 | ||||||||
MIRT577951 | Pole4 | polymerase (DNA-directed), epsilon 4 (p12 subunit) | 1 | 1 | ||||||||
MIRT579173 | Cd70 | CD70 antigen | 1 | 1 | ||||||||
MIRT580234 | Tsga10 | testis specific 10 | 1 | 1 | ||||||||
MIRT581630 | Prkaa1 | protein kinase, AMP-activated, alpha 1 catalytic subunit | 1 | 1 | ||||||||
MIRT584029 | D230025D16Rik | RIKEN cDNA D230025D16 gene | 1 | 1 | ||||||||
MIRT588424 | Zbtb6 | zinc finger and BTB domain containing 6 | 1 | 1 | ||||||||
MIRT588528 | Usp45 | ubiquitin specific petidase 45 | 1 | 2 | ||||||||
MIRT588917 | Skor1 | SKI family transcriptional corepressor 1 | 1 | 1 | ||||||||
MIRT589679 | Larp1 | La ribonucleoprotein domain family, member 1 | 1 | 2 | ||||||||
MIRT590168 | Elp4 | elongator acetyltransferase complex subunit 4 | 1 | 1 | ||||||||
MIRT593065 | Ehf | ets homologous factor | 1 | 1 | ||||||||
MIRT593183 | BC068281 | WD repeat and coiled coil containing | 1 | 4 | ||||||||
MIRT595160 | Cbfa2t3 | core-binding factor, runt domain, alpha subunit 2, translocated to, 3 (human) | 1 | 1 | ||||||||
MIRT596758 | Utp23 | UTP23 small subunit processome component | 1 | 1 | ||||||||
MIRT596783 | Ubxn2a | UBX domain protein 2A | 1 | 1 | ||||||||
MIRT597289 | Slc1a7 | solute carrier family 1 (glutamate transporter), member 7 | 1 | 1 | ||||||||
MIRT597494 | Rbm41 | RNA binding motif protein 41 | 1 | 1 | ||||||||
MIRT600204 | Ube2j2 | ubiquitin-conjugating enzyme E2J 2 | 1 | 1 | ||||||||
MIRT603448 | Ric3 | RIC3 acetylcholine receptor chaperone | 1 | 1 | ||||||||
MIRT604253 | Cercam | cerebral endothelial cell adhesion molecule | 1 | 1 | ||||||||
MIRT604915 | Iqcj | IQ motif containing J | 1 | 1 | ||||||||
MIRT605131 | Cnnm3 | cyclin M3 | 1 | 1 | ||||||||
MIRT605214 | Arnt | aryl hydrocarbon receptor nuclear translocator | 1 | 1 | ||||||||
MIRT605697 | Ifnar1 | interferon (alpha and beta) receptor 1 | 1 | 1 | ||||||||
MIRT606256 | Polr1e | polymerase (RNA) I polypeptide E | 1 | 1 |
miRNA-Drug Associations | |||||||||||||||||||||||||||||||||||||||||||||
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