pre-miRNA Information
pre-miRNA mmu-mir-302a   
Genomic Coordinates chr3: 127545496 - 127545564
Description Mus musculus miR-302a stem-loop
Comment None
RNA Secondary Structure

Mature miRNA Information
Mature miRNA mmu-miR-302a-3p
Sequence 44| UAAGUGCUUCCAUGUUUUGGUGA |66
Evidence Experimental
Experiments Cloned
Putative Targets

Gene Information
Gene Symbol Camk4   
Synonyms A430110E23Rik, AI666733, CaMKIV, CaMKIV/Gr, D18Bwg0362e
Description calcium/calmodulin-dependent protein kinase IV
Transcript NM_009793   
Expression
Putative miRNA Targets on Camk4
3'UTR of Camk4
(miRNA target sites are highlighted)
>Camk4|NM_009793|3'UTR
   1 GCTGGCTTCCTTTAGGTCAGGGCCAACCCCAGCATTTTATGCACTCTGTCCCTCAGCAAGGCGGGGAAGCATGATATGCA
  81 CTATAGTGATTCTGTTTTGAGGTGCAAAAAAAAAACCCATATATACCAGTTGGTAACCCTAATGTCAGTGCATGTGTTTG
 161 CTTTATGAAATAATGACATTTTCTATGGCATGTAATGGATACCTAATACTGATGAGTTAAATTTGAAATTTCTAGCAAAC
 241 AACGCAACACTTAAACATTCTCAGCCTTTGGTGGCACATATTGAAGTGAAATGGCAAACAGACTTTGAAAGCTTAGGCAT
 321 CCTACACCCACTAGAAGTCTTCAAAGAGGGCAATTCCTTTGAACTCAGCTAAAACCAGCTGGAGGTAGAGGACACACTCC
 401 CATGACTTTTCAAATACTTGCAGTGGGAAGGGCCGAGTAGGCCGTTTTAAAAGTAGGCTGAAGATGGTTATAAAAGATAA
 481 CCTGTAGAACGTGCAAAAACATCCATGTACAGTGTTGAGAAGTTGAGTCATTCTTACAAGGCTCTGAGTCCACAGTCCTC
 561 TTAAGTGTATGCAGAGAATGTCTTATTTTTCTTTAGTATACTCTATAAGAATACCCAAAATGTTCAGTATAAAATTCTGC
 641 CAGTTTACAATTCTTGGGAAATTAATTTTTAAACTGTGCCGCTACTTTTCCTCTACCTGCCTTTCAAATAAAATACCCCG
 721 CAGAGTATACAGCCTAGGAAAGAGGAAATTTAACTAAAATGAGATAGAATTAGGCTTTGGATGTACCAAGATTAACTCCT
 801 TTTCATTTCTCACAAAAATTTGCATTTGTGAGCTTATATGATATTTTGCATATCAGAACATTTTTATGGATACACTCTGC
 881 AAGTAGCAAGTTTCAAGTTTTGGAAAAGCCCATTGTACAAGTCGAGGCCAAAATGTCTGAATCTTATAACAATACATTCA
 961 ATGGTTAGATTACTTAGTACTGAGGTTGTTAGAGTAAGGAAATGTTAGCACAGGATATTCCCCTCCACCTATGTATACAT
1041 ACTGTTCATTAAAATTCACTATGAGAGCTAGGAGCTTTTCCAATGGAGGGGTTTACACATTTTATAATGTTGAAATATGT
1121 TGAATATATGCCAAGAAATTTAGCATAGTGTGAACTTTTTTTTTTTTTGCCTTAAAAATAAGCAAAACCAAAAATAAAAT
1201 AAAAACACATCTTGAACTAGACCTCGGAGAGGGCACAGCATTAGATCTTAGTTAGCATGATTTTCTTCTTAGAATAATTG
1281 GGGGGGGGGGTATACGAAATCCAATACCTCAAATTTTGTGTTTGAGTGAAAATGAGCACTTTATCAAAATAGCTGTTTAA
1361 TATTTTGTGTGGATTTTCTTGACTTAAAAAAAAGTATTACTTTTAAAGTCCAAAATGGGGGCAGGAAAAATGAATAGCAC
1441 AGAATTTTTTTTTCATTAAACTAATAATTTGTTCTGACGCGTTCAGTCACACTGGGAACTGACGTTCTATCAGAGGTTTC
1521 TCCAGGCTGTTAGAGTGTCAGCACTTCAGCAGGTCAAGCACAAACCTCTGACAGCTTTTGGGGAAGGAGACAGTGTGGTG
1601 CTTTGAGCATTTTGTGAATGGGTCCTTGACAGGCAGCTGACTAGGAGGGCATCATCTGACGAGGGTGATTCTTTTCCTGT
1681 TGACTTCCATTCACAGTGTTTATGCTCCTCCTCCTGTTTGAATTCTTCCCTCTTGGAAGACCTCATTCTGAGGGTCATAA
1761 AGGGCTCCCTAGTTTTAACTTTTAAGAGTGCTTTGTTACGATTTCCATTTAGGAAGAGCAATTCCCTGGTGTAATTTTCC
1841 TCATCAAACTTACCATATGTATGGTGAGTTTCCCATATTTGGAAAGAGTAGAGAAGACTAGGGGGTCTTGTTAGAAGATG
1921 GCATCTAAATATCAGAACATATCATTGCTCAAACCCAGCCCAGGCCTTTCTTCATCCCAGCATATGCTGAATGCCTCGAA
2001 TGACCCTGTAGGCTATAGGAAGAGCATTATAAATGCCAAGGCCTCTCGGATCTCAGAATCAGTTGCTTAAATGATTGTAT
2081 CTCATCCCTTCTTGGTGGAACTCAAGAGTTCTAGCACAATTCCCTCCCTCTCTTTCATAACCTACACATTTCACTAGCTA
2161 AACATCATGAGTAGGTTTCATTTGTAACTGGTACACTAAAGATTAAGTCCTACTAATACTTACAACCTTTCGCTCAAATC
2241 ATTCAGAGATTCCATCTAAGAATAATTATTTTACCCACTTAAAAGAACAATCAACATTTATATTGCTTGTTAAAATTATA
2321 TTATCTATTTCAAAGATTATGTAAACTGAAGGAAGACAGTCTTAATTTGAAAGAATACGTTCTAATATTACTCTTAATTG
2401 TTAATTGTCTTTGTTAGGGTTTTACTCCTCTGAAGAGACACCATGACCAAAGCAACTCTTGTCATGGAAAACACTTAATT
2481 GGGGGCTGGCTTACAGTTTTAGAGGTTCAATCCATTATCATCATGGCAGGAAGCAGGGCAGCATCCAGGCCAATATAGTG
2561 CTGGAGAAGAGACAGAGTTCTACATCTTAATTCAAAGGTAGCAGCAGGAGACTCTGGATCACACTGACCAGATTTAAGCA
2641 TATATATAAGCGGGACATCAAAGCCCTGCCTCCACACTGACTACCTTCCCCTAACAAGGCCACACCTCCTCCAGTAAGGC
2721 CACACCCCCTAAATAATGCCACTTCCCATGGGACAAGCACATTCAAACCACCACAGTAATACAGTCACAAAGCAAAACAA
2801 AATTTTAAATTTCAGCAAATAGCAAATATGCATTCCAAGGTGGTGGGAGGCAGAGGCAGACGGATCTCTGAGTCCCAAGG
2881 ACAGCCTGCCTGGTCTACAGAGTAAGTTCCAAGACATCCAGGGCTGCAAAGAGAAACCCTGTATCAACAAAAAGCCAAAG
2961 CCAAAGAGCAACAGAAAAGTTACATTCATTATTGGTTTTTATTTCAAGATCAGACATATAGCTTAACGGGGTTCTTTCAC
3041 CACAGAGGACAGTCTGCAAATTTTTTTCTCCTATTTAGAAAGTCCACCTGTGCTTACAGTGGTTTCTCAAACTGTTAGCC
3121 CTCTTGCCACAACAGCACATAAATGAGAGATTAGAATAGAATGGTTACAAAGTTATCTTCTGAAATAAGTGTTTATATTA
3201 AAAAGTATAATAAGGTACACATGTAAAAACAATTCTCAGACAAGGTTTTATTATGAATTGCAGGCTGGCCTTGAATTCAC
3281 TTTGTAATCTAGGCTGACCTCAGACTCACACAGTGATCTTCCTGCCTCATCTTTCCCTGGATCTGGGGTTATAAGCATAT
3361 GCCACCACTCCCATAACCATGCATGTATCTTTAGATTTTCTATTAGCTACATTCTAAAAAGAAAATATGGAATTAATACT
3441 ATATTTTAATCCAGTATACACATATTATTACATCAAAATTAAAATTAATAAGATAATTTGAATCTATTTTATACTGTTTC
3521 TAAATTAACAGTTTAAGCATGTTTACATCGGGCGGTCATGAGCCACATTAAGCCAGTGGTTCCTATGGTAGACATGCTAG
3601 TCTAGCCTAGAGCACTTTTCTTCGGAGCAGAGTAAGACTTGAGTTTCTATGGTCAGATCTGAGCTGACTTAGTTTTCCAC
3681 ATTGGTGAGTTGGTGAGCAGCTAAGATGCAAATGTTATAGGTGTAGATGCATAAATCCTGGCTACCCCTGGACATGCATT
3761 TTCTTAAATAAAAAAAAGTGATCTGTGTTATCACATCAAAGTAACACTTCCTTACACATTGTCAAAGTGTATGTACTGGT
3841 CAGAGTCCAGCTTATCCCCATTTGGCTCTGGAAACCTGACTGTACCCCAGTTTCCTGAGTACTGCCAAAGAGCCAACAGA
3921 ATTCCCACTTAGCAGAAATTATTGTGGGCCCACCGCGTGTCACCACTGAGCAGCCTATATACAGAGTCCATTCTCTAGAC
4001 ACTGAACTCAGCTGGACATCATCCTCATGTATGCAGGCAATCTTTCCAGAAGCCTCCTGGAAAATACAGTTGCATGGTGG
4081 ATATGTTAGTTGAAGGTGGTGATATGGCAGATACCCACAAAATGGAAATGCCATCATGTCTGGCATTTGTGAAGCCTCAT
4161 AGAAGGAACTGGTCAACACTGACACTGACAGATTTTTTAAAAAAGACTTTTGGAAATTTTTACATACTGATTTTAGAATA
4241 ATATCCTAATCGTTTTATTGGCAAATTTATAGAGAAAGAGCAGCTTGCCTTTTAAAGGGACCTTGATTGCATGCCATTTG
4321 ATATTTTGTAATGTAGAATGTTCAGCATTTTTTTAATTGGCTATTTCCAGTATAACACAAGGTTGCTAATTGTGAGCTGC
4401 CTGCAGGTTGAAGCTTGAAAGAGCCATTGTATTTCATGGTTCAGTTTTTATTACACAGAAACAGCTGGTTGCATTTCAAA
4481 TTGGAAAAAGAAAAACAATGCCAGAAAAGACAACACACTTCTACTTTGGAATTGTTCTTATGAAGCCAAATTAAAAATAA
4561 TTTTAAAAGAGGTCATCAGCGTGAATTAGCACAGAACAGTCAATTTCGGGATTATGATGCCACTGTGTGATTGCGAAGCA
4641 CTCGTCTGGCTGTCGAGGTTTATTTGAGAGAGCACAAAGTTTCCAGACATTACTTATGCAATGAGATTTGTAATAGCTTT
4721 GTAATTACTGTCCATTAGGTCACACCCCAATTTCCTTAATGTTTTCCACTGATACATTACCAATCAGCATCATGGCTGAC
4801 ATCTGAACAAATTCCAGTTGAACACTGCGGAAGGTTAGATCAGTGTCTGCAGTGTTTGTTTTAATATGCAAATAGAGTCC
4881 TATGTTGGTGTTTATAGCCACACGGATGAAAACGTACAAAATTTTCTACCTAAAAATTTTAAGACACTTAACTTTCTTAT
4961 AAAAAGGTGGCTCTCTAGTTTCTTGAAAGTGAAGGTAGGATAGAAGAGGGAGAAGAGAGGAGGGAGGAGGGTAAAAGAGA
5041 GAGAGGGAAGGGGTAGGGATACATAGATTAGTAACACACTCAGTGCTGCACTGATCAGGAGGTTCACATTTCTTGTTTGC
5121 ATTCAAAGATAAGCTTCTGTCATTTCTCTTTGGGAATATCACCTGAGGTCAAATAACATAGACTCAGTCCAATCGTTTTT
5201 CACTTACCTTGGAAGGCAGTAGCAAACAATTTATGATTGGCTAAAATCAATTTTCATAAATGATCTGCGACAGATTCAGA
5281 AAGGCTTGACACTATCTGTTCCCAGGCATCTGGTCCAGAAGTCCAGGTCAAAACCTTGTCATAAAACCAGACTGCCTGGC
5361 ATTATTGCAGGAATCAGCTTTAAAGATCCCCAGCATCTGACCTAGTTAGACTCAAGTACAGACCCTCCATGCTCTGAAGG
5441 ACTGTCTCTTTAAATCCTTCACTGTTCTTGACCAAATGACAAGAAAAGGGAATTCTGTCAATCACGTTTCTTTGTGTGTC
5521 CCAGTCGGGGTATTGTTTTATCCATCCAGACATCAGCCTCACTTTGGAAATGTGAAGTCCTTTAATTTCTGGTAGGAGCA
5601 TTCTACACTAACTAGAGGAACAGGTTTTAGGCCTCAGGTTGACACACTGATGAGGAATTCTAAGACTGCAAAATCACACT
5681 GCTCATAATTATCTTCCTTGTTTTGTGAAGATTGACTTGAAAGACCCATAGATATAGATACTTACGTCCAATTTAATAAT
5761 TACTTTGATTCATTGTATTGAAAATGACGAATATTTAATCTTCAGTCAAATTAAATAATCTTATTTTCCACCTAAAAGGT
5841 TACTTCAAGATAATACTCGCTGGGCAGTGGTGGCGCACGCCTTTACTTCCAGCACTTGGGAGGCAGAGGCAGGTGGATTT
5921 CTGAGTTTGAGGCCAGCCTGGTCTATAGAGTGAGTTCCAGGACAGCCAGGGTTCCAGGGTTCCACAGAGAAACCCTGTCT
6001 CAGAAAAAAAAAAAAAAAAAAAAAAAAAAAGATAATACTCAAAGAGGCTTCACCTCTTTGAAACTGCTTATTGAAGCTAT
6081 CTCCAAATCCTGATAGTTATGGATGATAAAAATCTTCTAGATGTGCGCTTCCTTTGTCCTGTCTTTGAAACATGGATAAC
6161 AATATATTTTGTATATGACACAAATATGACCATAATTTGAAAATTATCATTGCATAATGCCTACTTTTAACCTGACCTGT
6241 TTGGTATGTCTGCTTAACTAACTGTATATTATGTAACTAATAGGCAATTGTTCTGATTACTAAATAGCATATTCATGATT
6321 GATATCTCTCCTGGCCATGGCATTCTTGGTCTCAGTAATATTTTATGACCATCTATAAACCCAAAGAGATTTTCTAAATT
6401 TTAAGTTCTTTGGTTGAAATGGCACAGAACTTTTGTCATTCTATGTCCAACACATATTGCTTTTCCCCTTAAAGTCTATA
6481 AACATCTCATGAGTTTGGTGGCTGGGAACAGTGACTTGAGTACAGATAAATCTAATGAATGAAAGTTACAAACAAATGGG
6561 CTATTAGGGTGATGTTTTAAGTTAATAATCATACCATTTGTATTCCAATAATTTTTATATCTTGTCATTGAGATAGATAT
6641 ATTCTCTAGTTTCTTTGATGTGATAAACACCAGGACCAAAAACAAGGTAGAAGAGGAAAAGTTCTATTTTATCTTAGATG
6721 CTCCAGTCTACCATGAGGGAAAGCTACATCAGGACCTTATGGTAGGCACCTGGAGGCAGAATGTAGCACAGAAAGCATGA
6801 GGAACACTGTTTCCTGGCTTGCTCAGCTCTTACACAGCCCAGGGCCCCTGCCTATGGATGGTACTGCCCACAGTGGGCCA
6881 GGCCCTCACATCAGTTAGTTATCAAGGAAATGCCAAACAGCAAAGCTCAAACGTCAGTCTGATCAAGGCAGTCTCTAATC
6961 CAGACTCCCTCATACCATTTGGGGACATGTCCAGCTGACAGCTGAAGCTAACTAGAGCATATAAAAGTACATACATGTAA
7041 AAACTTTTCCCATAGGGTTCTCCAAAGAACTAAATTTAAATCCCCACAAAACAGTTTTCAGAACTTAGGCAAACTATAGT
7121 TTAAAGAGCAAATTTTAATTAAGGACTTAGATTGTAATTAATTCAAACAAATTTTATTATAATGGTCAGATTCATTTTAT
7201 GGGTTTTTTTTTTTGTCTATTTGCAAATTACTAGAATAGCATGATTCCGTCTTTTTCTGATTTTTCAGCAGAAGACCATA
7281 CAATCTACATTACCTAAAATGTCTATCTGGCCCTTTATAGGAAAAACAAAACTCAGTTTTTCTCTACCCGTCATGCTCTG
7361 CGATGACCTTAGGAATCCCTTTTCCACACTGTAGCTTCTTTTTGCCTTAGTTAGATTCTCTCATTTGCTTCTTAGAAGTT
7441 AGGTGATCTTTGTTTCATGTTGCAAATGGTCTCACAACTGCGTAGGAGGCAAAAATTAAAATTTCCATGTAGAACAGAAA
7521 ATGTAAAGTCACATTAGTTATTTCTTAAGAAGGAAATTGTGTGACTTGAGTTAAAAGTGCGTGTTCAGATTCTTCATTGT
7601 TGAACAGGTTTTAGAAACTTTAAAGACACGTGGATTAAACAGAAAACCATAACCAACACTGCCTCGTGTCATCGTCATGC
7681 CCTATTGCTTAACAAGCTTCAGATGAGCACTCATTGGCTCCAAACCTCAAATGCAATGAAATGATTTCTAGCAATTCGAT
7761 TTTCACAAACATTTAGGAAGTGGTGTGTTGTTCTATGAAAATGACTTGCTTGCCAGCAGTTCAGGGAATACAGCCACCTT
7841 CATTTTTAAAGTTATTTTCCTTTACCCACATGTGTTTCTCTGAGTGTTGTACTTCTCATGTGAAAGGAGCCGTTAGTACA
7921 TAGTTTTCTAGCAAATTTAGAAACCCTCTAGTCTATTTCTCCCCTGACAAATTACCATTCCAAAATATCTGCCTTAAGGG
8001 AACCAAGTAGCCCAGTTATCAAGGGAACTTTAGACATTTGTGACTTTCCTTTCAGTTTGACTGTCAACTTTGTAACCACA
8081 AAGGTCACAAAAGATATACTGAGTAGGAGACCTTTATTCGACCTACCACTGGGAATAGTTACAATAACCGGCATATTCTT
8161 TTCTTTAAACAGTTGCAGCAATCAGTAAGATGTTATAGCCACTGGGATGTTACAGAATATGGGAACAGCAGGGCAGTGGT
8241 GGCACATGCCTTTAATCCCAGCACTTGGGAGGCAGAGGCAGGCAGATTTCTGAGTTCAAGGCCAGCCTGGTCTACAGAGT
8321 GAGTTCCAGGACAGCCAGGGCTACACAGAGAAACCCTGTCTCACCGCCCCCCAACCACCCCCCCCAAAAAAAACAAACAA
8401 CAACAAAAACCAAAAAACAGAATATGGGAACAAATGACAGAGTCATTCTCTGAGCCCCGGTGGTTAACAAGGGTAGGAGG
8481 CAGACTGCTGGAACAAGAGAGGGAAAGGTCACTTAATATTAGGATTCCACATTCTTATCTGCCAGTCTTCTAGGGTGGCT
8561 CAGAGTTTGAGGGCAGTTATTGATATACTTCAAACCTTAAAATGAGTTGGTGAAAATTAATATCTAATTTTCCTTTCAGA
8641 AATTATATAGTATAGCTTAGAGGATATCTGGCCTACATGGAAAGCCACGGTTAAGGGCATGACTCACTACCAGCAAAACC
8721 CTTCCCAGAAATAGACCATTCCAGGAACTCTACTTCCCATAGTAAATGTTCACTGATGAGCCCTTACTTGCAATACAGGA
8801 GTCAGAAATGAATTAAGCACAGTGCTGCCCTTCAGGGGGAGCCTTTTTAGTTGGGAAGAAAAGGCAGGTAACCACACATA
8881 GCCTGTGCTGAGTACCTACAGATGGTAAGCTCTCCGGGGTGGGAAAAGGGAAAATGGTCTCACACCAAAAATGTGCAAGG
8961 CAAGCTTCATGGGAACACAGCTAATATTGAAGGATGTACCAGTCCCTAAGGTGGAGAAAAGGGACATGTTTGATTAAGGA
9041 ATGGCCAGACCAGGGTGGAGATGCACACTTCAAGGAGGAGATTAACGTGGGATGAGGAAGGCTGAGATACCCAGTGAAGT
9121 GCTATCCAGTGTGGAGCAGTCTCAGATCTCATCTGAGTTCCTTGCTTTCTTACTCTGGACAGATGCCGGTGAAGCTCTTC
9201 TGCAGAGCACCTACCCCTACGACTTGGCTAGCCTCCTGGTACATAGCTAACAGGATAAAAATCACCCAAGATATCGAAGA
9281 CATGTTTGCAACTCCACAGCTAATCTTCAAACCTCAAGCTGGTCCTGCCAGGTTTTTAATTCTTCAGTCTTCTCTCCAGT
9361 GTATATAATCTATACATTTATAACTATAAATTATATAAAATCTAAGGAATTTATTATATCTCTTATTGGAGGCACTATTT
9441 TTCCATTCATCTTCAAGACACCTTTTTAAAATTACCCATTAGAATTAGATTACCCTGTGACTACTCTGGCTTGTACATCT
9521 TCACTTATTTCTCGTGATATTTGTGGATAGTAGATGGCTACATTCCTCCAGGATAAATAAAATGAGGAGAGGTAGAGACA
9601 AAGACTGTATCTCAGTTGAAGGGGAAAGATGCTAAGAAATAAAGATGCTGTGGGGACACAGACCAGGTTAGTGGACACTA
9681 AGAAAGGAACACTTGCTAGGAGGGGGTTTCTGGCTAAGATGGCATTATCTGAGACACTCTTGTTGATAGTTTGTCAGATA
9761 TGAAAAATACACTGATGGCTGTTGAAAGCCTTTTGGATTAATGGGACATAAGTAGCTTCAACAACAACATGGAAGAATAC
9841 AGAATACCACCATATGAAAGAAACACAGATTTCCAATAGTCTGGATCACAACTCATTGACCCAAAGCAAGAGCTCATATG
9921 ACTTGGAGGAGAAAGTCTAAGTACCTTAGTTTACACAGCTAAGACTATGGTTGGCTTTTTCACTTTCTAACACAAAGTCC
10001 TAAGAGGGAGCTGTAAACATTTCATTTTCTAAATGTGTCAAAATGGTGCTATTGATTCCTTAATACAAAGATAGAATTAT
10081 AATATTTTTAGGTGTGTTAAGCCCAGCTTGGCTATAAATGTAAATACATAAAATGTTTGCAAAGCCTTCAACAAAAACAT
10161 GTCCATTTGCTAACAGTTGAGGTACTGTGTTCTTCAGTGTGGGTGACTGACCTGAGTTTGCATTTTCTGTTAAAGGAACA
10241 GGACAGCCACTGGCTCTCTCTCAACTGCCAAAAATCTCCGACATTTGCAGCTCACTAAGTTCTCCTTGGATGCAGGTTGG
10321 ACAATCCAAGTCAAGGATTAAGTATGCTCATTTGGTGATAGTGGGGGTGTTGGCCAAGAACTTGGGGGATGTGTGCTGTG
10401 AGCAAAACCAGTGCTGCCAGACTAAACTTTAGTGAGGTCCAGTGTAACTGAGTTCACCCAGACTGTCAGAACATGCCAAA
10481 GGAAGCTACCCAGTACCTTGCAACTGGTCAACCTGTGAAAGAATCTGCATGTACAATGTGACAATAAATCATCTAAGAGC
10561 CCACCA
Target sites Provided by authors   Predicted by miRanda    DRVs    SNPs    DRVs & SNPs
miRNA-target interactions
(Predicted by miRanda)
ID Duplex structure Position Score MFE
1
miRNA  3' agUGGUUUUGUACCUUCGUGAAu 5'
            | ::||| |||  ||||||| 
Target 5' tgAGTGAAA-ATG--AGCACTTt 3'
1323 - 1342 156.00 -9.30
2
miRNA  3' agUGGUUUUGUACCUUCGUGAAu 5'
            :::|:|  :||  ||||||| 
Target 5' ctGTTAGA--GTGTCAGCACTTc 3'
1527 - 1547 149.00 -11.40
3
miRNA  3' agUGGUU---UUGUACCUUCGUGAAu 5'
            :|:|:   |:| | | ||||||| 
Target 5' atGCTAGTCTAGCCTAG-AGCACTTt 3'
3594 - 3618 148.00 -11.50
Experimental Support 1 for Functional miRNA-Target Interaction
miRNA:Target ----
Validation Method
     
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 GSM622573. RNA binding protein: AGO2. Condition:KO1 ...

- 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]
73 mmu-miR-302a-3p Target Genes:
Functional analysis:
ID Target Description Validation methods
Strong evidence Less strong evidence
MIRT054363 Lats2 large tumor suppressor 2 4 1
MIRT054577 Ccnd1 cyclin D1 4 1
MIRT578213 Myl6b myosin, light polypeptide 6B 1 1
MIRT579773 Zfp568 zinc finger protein 568 1 1
MIRT579903 Zbtb41 zinc finger and BTB domain containing 41 1 1
MIRT582206 Nfatc3 nuclear factor of activated T cells, cytoplasmic, calcineurin dependent 3 1 1
MIRT589603 Luc7l2 LUC7-like 2 (S. cerevisiae) 1 4
MIRT592531 Mup7 major urinary protein 7 1 1
MIRT592581 Mup13 major urinary protein 13 1 1
MIRT595334 Galnt4 UDP-N-acetyl-alpha-D-galactosamine:polypeptide N-acetylgalactosaminyltransferase 4 1 1
MIRT596464 Fam168b family with sequence similarity 168, member B 1 1
MIRT596522 Zfp882 zinc finger protein 882 1 1
MIRT596544 Zfp866 zinc finger protein 866 1 1
MIRT596766 Usp45 ubiquitin specific petidase 45 1 1
MIRT596795 Ubxn2a UBX domain protein 2A 1 1
MIRT596925 Tprkb Tp53rk binding protein 1 1
MIRT597148 Stxbp4 syntaxin binding protein 4 1 1
MIRT597693 Ppp2r3d protein phosphatase 2 (formerly 2A), regulatory subunit B'', delta 1 1
MIRT598003 Npy1r neuropeptide Y receptor Y1 1 1
MIRT598028 Nol10 nucleolar protein 10 1 1
MIRT598114 Ncl nucleolin 1 1
MIRT598150 Mtif2 mitochondrial translational initiation factor 2 1 1
MIRT598303 Mc1r melanocortin 1 receptor 1 1
MIRT598345 Mau2 MAU2 sister chromatid cohesion factor 1 1
MIRT598390 Magt1 magnesium transporter 1 1 1
MIRT598435 Lpl lipoprotein lipase 1 1
MIRT598657 Hpgds hematopoietic prostaglandin D synthase 1 1
MIRT598871 Glyctk glycerate kinase 1 1
MIRT598885 Glrx2 glutaredoxin 2 (thioltransferase) 1 1
MIRT599161 Diap2 diaphanous related formin 2 1 1
MIRT599255 Tmem245 transmembrane protein 245 1 1
MIRT599414 Chek2 checkpoint kinase 2 1 1
MIRT599539 Car5b carbonic anhydrase 5b, mitochondrial 1 1
MIRT599747 Anapc16 anaphase promoting complex subunit 16 1 1
MIRT599850 Adarb1 adenosine deaminase, RNA-specific, B1 1 1
MIRT599896 Acat1 acetyl-Coenzyme A acetyltransferase 1 1 1
MIRT599919 A830018L16Rik RIKEN cDNA A830018L16 gene 1 1
MIRT600228 Trim56 tripartite motif-containing 56 1 1
MIRT600269 Tns4 tensin 4 1 1
MIRT600435 Samd8 sterile alpha motif domain containing 8 1 1
MIRT600863 Gad2 glutamic acid decarboxylase 2 1 1
MIRT600876 Gabpb2 GA repeat binding protein, beta 2 1 1
MIRT600951 Elf1 E74-like factor 1 1 1
MIRT601038 Cntn2 contactin 2 1 1
MIRT601252 Abl2 v-abl Abelson murine leukemia viral oncogene 2 (arg, Abelson-related gene) 1 1
MIRT601369 Ybey ybeY metallopeptidase 1 1
MIRT601493 Tmlhe trimethyllysine hydroxylase, epsilon 1 1
MIRT601936 Ogdh oxoglutarate (alpha-ketoglutarate) dehydrogenase (lipoamide) 1 1
MIRT601974 Nav1 neuron navigator 1 1 1
MIRT602014 Mpp7 membrane protein, palmitoylated 7 (MAGUK p55 subfamily member 7) 1 1
MIRT602186 Hyal1 hyaluronoglucosaminidase 1 1 1
MIRT602216 Hecw1 HECT, C2 and WW domain containing E3 ubiquitin protein ligase 1 1 1
MIRT602228 H2-T3 histocompatibility 2, T region locus 3 1 1
MIRT602245 Grm1 glutamate receptor, metabotropic 1 1 1
MIRT602367 Fbxl3 F-box and leucine-rich repeat protein 3 1 1
MIRT602425 Ercc4 excision repair cross-complementing rodent repair deficiency, complementation group 4 1 1
MIRT602490 Dkc1 dyskeratosis congenita 1, dyskerin 1 1
MIRT602596 Chrnb4 cholinergic receptor, nicotinic, beta polypeptide 4 1 1
MIRT602684 Camk4 calcium/calmodulin-dependent protein kinase IV 1 1
MIRT602761 Asxl2 additional sex combs like 2 (Drosophila) 1 1
MIRT603033 Chic1 cysteine-rich hydrophobic domain 1 1 1
MIRT603526 Pwwp2a PWWP domain containing 2A 1 1
MIRT603813 Kif5b kinesin family member 5B 1 1
MIRT603883 Il10rb interleukin 10 receptor, beta 1 1
MIRT604185 Cxcl11 chemokine (C-X-C motif) ligand 11 1 1
MIRT605161 C030039L03Rik zinc finger protein 607B 1 1
MIRT605480 Slc6a2 solute carrier family 6 (neurotransmitter transporter, noradrenalin), member 2 1 1
MIRT605613 Mpv17 MpV17 mitochondrial inner membrane protein 1 1
MIRT605789 Ddx11 DEAD/H (Asp-Glu-Ala-Asp/His) box helicase 11 1 1
MIRT605806 Emc8 ER membrane protein complex subunit 8 1 1
MIRT605843 Cd300a CD300A molecule 1 1
MIRT731069 Nr2f2 nuclear receptor subfamily 2, group F, member 2 3 1
MIRT734874 FOXO1 forkhead box O1 3 0
miRNA-Drug Associations
miRNA Small Melocule FDA CID Detection Method Condition PMID Year Expression Pattern of miRNA
miR-302a Catechin approved 9064 Microarray apoE−/− mice 22253797 2012 up-regulated
miR-302a Glucose NULL 5793 Microarray endothelial cells 24394957 2014 up-regulated

Error report submission