Accession ID: MIRT000795 [miRNA, hsa-miR-195-5p :: MECP2, target gene]
pre-miRNA Information
pre-miRNA ID hsa-mir-195LinkOut: [miRBase ]
Description Homo sapiens miR-195 stem-loop
Comment This miRNA sequence is predicted based on homology to a verified miRNA from mouse .
2nd Structure of pre-miRNA
Disease
Mature miRNA Information
Mature miRNA hsa-miR-195-5p
Mature Sequence 15| UAGCAGCACAGAAAUAUUGGC |35
Evidence Experimental
Experiments Cloned
Putative hsa-miR-195-5p Targets LinkOut: [ TargetScanS 5.1 | MicroCosm | microRNA.org | miRecords | miRDB | miRo | miRNAMap 2.0 ]
Gene Information
Gene Symbol MECP2 LinkOut: [ Entrez Gene | BioGPS | Wikipedia | iHop ]
Synonyms AUTSX3, DKFZp686A24160, MRX16, MRX79, MRXS13, MRXSL, PPMX, RS, RTS, RTT
Description methyl CpG binding protein 2 (Rett syndrome)
Transcript NM_0049    LinkOut: [ RefSeq ]
Other Transcripts NM_0011107   
Expression LinkOut: [ BioGPS ]
Putative miRNA Targets on MECP2 LinkOut: [ TargetScan 5.1 | MicroCosm | miRNAMap 2.0 ]
3'UTR of MECP2
(miRNA target sites are highlighted)
>MECP2|NM_0049|3'UTR
   1 TGACTTTACACGGAGCGGATTGCAAAGCAAACCAACAAGAATAAAGGCAGCTGTTGTCTCTTCTCCTTATGGGTAGGGCT
  81 CTGACAAAGCTTCCCGATTAACTGAAATAAAAAATATTTTTTTTTCTTTCAGTAAACTTAGAGTTTCGTGGCTTCAGGGT
 161 GGGAGTAGTTGGAGCATTGGGGATGTTTTTCTTACCGACAAGCACAGTCAGGTTGAAGACCTAACCAGGGCCAGAAGTAG
 241 CTTTGCACTTTTCTAAACTAGGCTCCTTCAACAAGGCTTGCTGCAGATACTACTGACCAGACAAGCTGTTGACCAGGCAC
 321 CTCCCCTCCCGCCCAAACCTTTCCCCCATGTGGTCGTTAGAGACAGAGCGACAGAGCAGTTGAGAGGACACTCCCGTTTT
 401 CGGTGCCATCAGTGCCCCGTCTACAGCTCCCCCAGCTCCCCCCACCTCCCCCACTCCCAACCACGTTGGGACAGGGAGGT
 481 GTGAGGCAGGAGAGACAGTTGGATTCTTTAGAGAAGATGGATATGACCAGTGGCTATGGCCTGTGCGATCCCACCCGTGG
 561 TGGCTCAAGTCTGGCCCCACACCAGCCCCAATCCAAAACTGGCAAGGACGCTTCACAGGACAGGAAAGTGGCACCTGTCT
 641 GCTCCAGCTCTGGCATGGCTAGGAGGGGGGAGTCCCTTGAACTACTGGGTGTAGACTGGCCTGAACCACAGGAGAGGATG
 721 GCCCAGGGTGAGGTGGCATGGTCCATTCTCAAGGGACGTCCTCCAACGGGTGGCGCTAGAGGCCATGGAGGCAGTAGGAC
 801 AAGGTGCAGGCAGGCTGGCCTGGGGTCAGGCCGGGCAGAGCACAGCGGGGTGAGAGGGATTCCTAATCACTCAGAGCAGT
 881 CTGTGACTTAGTGGACAGGGGAGGGGGCAAAGGGGGAGGAGAAGAAAATGTTCTTCCAGTTACTTTCCAATTCTCCTTTA
 961 GGGACAGCTTAGAATTATTTGCACTATTGAGTCTTCATGTTCCCACTTCAAAACAAACAGATGCTCTGAGAGCAAACTGG
1041 CTTGAATTGGTGACATTTAGTCCCTCAAGCCACCAGATGTGACAGTGTTGAGAACTACCTGGATTTGTATATATACCTGC
1121 GCTTGTTTTAAAGTGGGCTCAGCACATAGGGTTCCCACGAAGCTCCGAAACTCTAAGTGTTTGCTGCAATTTTATAAGGA
1201 CTTCCTGATTGGTTTCTCTTCTCCCCTTCCATTTCTGCCTTTTGTTCATTTCATCCTTTCACTTCTTTCCCTTCCTCCGT
1281 CCTCCTCCTTCCTAGTTCATCCCTTCTCTTCCAGGCAGCCGCGGTGCCCAACCACACTTGTCGGCTCCAGTCCCCAGAAC
1361 TCTGCCTGCCCTTTGTCCTCCTGCTGCCAGTACCAGCCCCACCCTGTTTTGAGCCCTGAGGAGGCCTTGGGCTCTGCTGA
1441 GTCCGACCTGGCCTGTCTGTGAAGAGCAAGAGAGCAGCAAGGTCTTGCTCTCCTAGGTAGCCCCCTCTTCCCTGGTAAGA
1521 AAAAGCAAAAGGCATTTCCCACCCTGAACAACGAGCCTTTTCACCCTTCTACTCTAGAGAAGTGGACTGGAGGAGCTGGG
1601 CCCGATTTGGTAGTTGAGGAAAGCACAGAGGCCTCCTGTGGCCTGCCAGTCATCGAGTGGCCCAACAGGGGCTCCATGCC
1681 AGCCGACCTTGACCTCACTCAGAAGTCCAGAGTCTAGCGTAGTGCAGCAGGGCAGTAGCGGTACCAATGCAGAACTCCCA
1761 AGACCCGAGCTGGGACCAGTACCTGGGTCCCCAGCCCTTCCTCTGCTCCCCCTTTTCCCTCGGAGTTCTTCTTGAATGGC
1841 AATGTTTTGCTTTTGCTCGATGCAGACAGGGGGCCAGAACACCACACATTTCACTGTCTGTCTGGTCCATAGCTGTGGTG
1921 TAGGGGCTTAGAGGCATGGGCTTGCTGTGGGTTTTTAATTGATCAGTTTTCATGTGGGATCCCATCTTTTTAACCTCTGT
2001 TCAGGAAGTCCTTATCTAGCTGCATATCTTCATCATATTGGTATATCCTTTTCTGTGTTTACAGAGATGTCTCTTATATC
2081 TAAATCTGTCCAACTGAGAAGTACCTTATCAAAGTAGCAAATGAGACAGCAGTCTTATGCTTCCAGAAACACCCACAGGC
2161 ATGTCCCATGTGAGCTGCTGCCATGAACTGTCAAGTGTGTGTTGTCTTGTGTATTTCAGTTATTGTCCCTGGCTTCCTTA
2241 CTATGGTGTAATCATGAAGGAGTGAAACATCATAGAAACTGTCTAGCACTTCCTTGCCAGTCTTTAGTGATCAGGAACCA
2321 TAGTTGACAGTTCCAATCAGTAGCTTAAGAAAAAACCGTGTTTGTCTCTTCTGGAATGGTTAGAAGTGAGGGAGTTTGCC
2401 CCGTTCTGTTTGTAGAGTCTCATAGTTGGACTTTCTAGCATATATGTGTCCATTTCCTTATGCTGTAAAAGCAAGTCCTG
2481 CAACCAAACTCCCATCAGCCCAATCCCTGATCCCTGATCCCTTCCACCTGCTCTGCTGATGACCCCCCCAGCTTCACTTC
2561 TGACTCTTCCCCAGGAAGGGAAGGGGGGTCAGAAGAGAGGGTGAGTCCTCCAGAACTCTTCCTCCAAGGACAGAAGGCTC
2641 CTGCCCCCATAGTGGCCTCGAACTCCTGGCACTACCAAAGGACACTTATCCACGAGAGCGCAGCATCCGACCAGGTTGTC
2721 ACTGAGAAGATGTTTATTTTGGTCAGTTGGGTTTTTATGTATTATACTTAGTCAAATGTAATGTGGCTTCTGGAATCATT
2801 GTCCAGAGCTGCTTCCCCGTCACCTGGGCGTCATCTGGTCCTGGTAAGAGGAGTGCGTGGCCCACCAGGCCCCCCTGTCA
2881 CCCATGACAGTTCATTCAGGGCCGATGGGGCAGTCGTGGTTGGGAACACAGCATTTCAAGCGTCACTTTATTTCATTCGG
2961 GCCCCACCTGCAGCTCCCTCAAAGAGGCAGTTGCCCAGCCTCTTTCCCTTCCAGTTTATTCCAGAGCTGCCAGTGGGGCC
3041 TGAGGCTCCTTAGGGTTTTCTCTCTATTTCCCCCTTTCTTCCTCATTCCCTCGTCTTTCCCAAAGGCATCACGAGTCAGT
3121 CGCCTTTCAGCAGGCAGCCTTGGCGGTTTATCGCCCTGGCAGGCAGGGGCCCTGCAGCTCTCATGCTGCCCCTGCCTTGG
3201 GGTCAGGTTGACAGGAGGTTGGAGGGAAAGCCTTAAGCTGCAGGATTCTCACCAGCTGTGTCCGGCCCAGTTTTGGGGTG
3281 TGACCTCAATTTCAATTTTGTCTGTACTTGAACATTATGAAGATGGGGGCCTCTTTCAGTGAATTTGTGAACAGCAGAAT
3361 TGACCGACAGCTTTCCAGTACCCATGGGGCTAGGTCATTAAGGCCACATCCACAGTCTCCCCCACCCTTGTTCCAGTTGT
3441 TAGTTACTACCTCCTCTCCTGACAATACTGTATGTCGTCGAGCTCCCCCCAGGTCTACCCCTCCCGGCCCTGCCTGCTGG
3521 TGGGCTTGTCATAGCCAGTGGGATTGCCGGTCTTGACAGCTCAGTGAGCTGGAGATACTTGGTCACAGCCAGGCGCTAGC
3601 ACAGCTCCCTTCTGTTGATGCTGTATTCCCATATCAAAAGACACAGGGGACACCCAGAAACGCCACATCCCCCAATCCAT
3681 CAGTGCCAAACTAGCCAACGGCCCCAGCTTCTCAGCTCGCTGGATGGCGGAAGCTGCTACTCGTGAGCGCCAGTGCGGGT
3761 GCAGACAATCTTCTGTTGGGTGGCATCATTCCAGGCCCGAAGCATGAACAGTGCACCTGGGACAGGGAGCAGCCCCAAAT
3841 TGTCACCTGCTTCTCTGCCCAGCTTTTCATTGCTGTGACAGTGATGGCGAAAGAGGGTAATAACCAGACACAAACTGCCA
3921 AGTTGGGTGGAGAAAGGAGTTTCTTTAGCTGACAGAATCTCTGAATTTTAAATCACTTAGTAAGCGGCTCAAGCCCAGGA
4001 GGGAGCAGAGGGATACGAGCGGAGTCCCCTGCGCGGGACCATCTGGAATTGGTTTAGCCCAAGTGGAGCCTGACAGCCAG
4081 AACTCTGTGTCCCCCGTCTAACCACAGCTCCTTTTCCAGAGCATTCCAGTCAGGCTCTCTGGGCTGACTGGGCCAGGGGA
4161 GGTTACAGGTACCAGTTCTTTAAGAAGATCTTTGGGCATATACATTTTTAGCCTGTGTCATTGCCCCAAATGGATTCCTG
4241 TTTCAAGTTCACACCTGCAGATTCTAGGACCTGTGTCCTAGACTTCAGGGAGTCAGCTGTTTCTAGAGTTCCTACCATGG
4321 AGTGGGTCTGGAGGACCTGCCCGGTGGGGGGGCAGAGCCCTGCTCCCTCCGGGTCTTCCTACTCTTCTCTCTGCTCTGAC
4401 GGGATTTGTTGATTCTCTCCATTTTGGTGTCTTTCTCTTTTAGATATTGTATCAATCTTTAGAAAAGGCATAGTCTACTT
4481 GTTATAAATCGTTAGGATACTGCCTCCCCCAGGGTCTAAAATTACATATTAGAGGGGAAAAGCTGAACACTGAAGTCAGT
4561 TCTCAACAATTTAGAAGGAAAACCTAGAAAACATTTGGCAGAAAATTACATTTCGATGTTTTTGAATGAATACGAGCAAG
4641 CTTTTACAACAGTGCTGATCTAAAAATACTTAGCACTTGGCCTGAGATGCCTGGTGAGCATTACAGGCAAGGGGAATCTG
4721 GAGGTAGCCGACCTGAGGACATGGCTTCTGAACCTGTCTTTTGGGAGTGGTATGGAAGGTGGAGCGTTCACCAGTGACCT
4801 GGAAGGCCCAGCACCACCCTCCTTCCCACTCTTCTCATCTTGACAGAGCCTGCCCCAGCGCTGACGTGTCAGGAAAACAC
4881 CCAGGGAACTAGGAAGGCACTTCTGCCTGAGGGGCAGCCTGCCTTGCCCACTCCTGCTCTGCTCGCCTCGGATCAGCTGA
4961 GCCTTCTGAGCTGGCCTCTCACTGCCTCCCCAAGGCCCCCTGCCTGCCCTGTCAGGAGGCAGAAGGAAGCAGGTGTGAGG
5041 GCAGTGCAAGGAGGGAGCACAACCCCCAGCTCCCGCTCCGGGCTCCGACTTGTGCACAGGCAGAGCCCAGACCCTGGAGG
5121 AAATCCTACCTTTGAATTCAAGAACATTTGGGGAATTTGGAAATCTCTTTGCCCCCAAACCCCCATTCTGTCCTACCTTT
5201 AATCAGGTCCTGCTCAGCAGTGAGAGCAGATGAGGTGAAAAGGCCAAGAGGTTTGGCTCCTGCCCACTGATAGCCCCTCT
5281 CCCCGCAGTGTTTGTGTGTCAAGTGGCAAAGCTGTTCTTCCTGGTGACCCTGATTATATCCAGTAACACATAGACTGTGC
5361 GCATAGGCCTGCTTTGTCTCCTCTATCCTGGGCTTTTGTTTTGCTTTTTAGTTTTGCTTTTAGTTTTTCTGTCCCTTTTA
5441 TTTAACGCACCGACTAGACACACAAAGCAGTTGAATTTTTATATATATATCTGTATATTGCACAATTATAAACTCATTTT
5521 GCTTGTGGCTCCACACACACAAAAAAAGACCTGTTAAAATTATACCTGTTGCTTAATTACAATATTTCTGATAACCATAG
5601 CATAGGACAAGGGAAAATAAAAAAAGAAAAAAAAGAAAAAAAAACGACAAATCTGTCTGCTGGTCACTTCTTCTGTCCAA
5681 GCAGATTCGTGGTCTTTTCCTCGCTTCTTTCAAGGGCTTTCCTGTGCCAGGTGAAGGAGGCTCCAGGCAGCACCCAGGTT
5761 TTGCACTCTTGTTTCTCCCGTGCTTGTGAAAGAGGTCCCAAGGTTCTGGGTGCAGGAGCGCTCCCTTGACCTGCTGAAGT
5841 CCGGAACGTAGTCGGCACAGCCTGGTCGCCTTCCACCTCTGGGAGCTGGAGTCCACTGGGGTGGCCTGACTCCCCCAGTC
5921 CCCTTCCCGTGACCTGGTCAGGGTGAGCCCATGTGGAGTCAGCCTCGCAGGCCTCCCTGCCAGTAGGGTCCGAGTGTGTT
6001 TCATCCTTCCCACTCTGTCGAGCCTGGGGGCTGGAGCGGAGACGGGAGGCCTGGCCTGTCTCGGAACCTGTGAGCTGCAC
6081 CAGGTAGAACGCCAGGGACCCCAGAATCATGTGCGTCAGTCCAAGGGGTCCCCTCCAGGAGTAGTGAAGACTCCAGAAAT
6161 GTCCCTTTCTTCTCCCCCATCCTACGAGTAATTGCATTTGCTTTTGTAATTCTTAATGAGCAATATCTGCTAGAGAGTTT
6241 AGCTGTAACAGTTCTTTTTGATCATCTTTTTTTAATAATTAGAAACACCAAAAAAATCCAGAAACTTGTTCTTCCAAAGC
6321 AGAGAGCATTATAATCACCAGGGCCAAAAGCTTCCCTCCCTGCTGTCATTGCTTCTTCTGAGGCCTGAATCCAAAAGAAA
6401 AACAGCCATAGGCCCTTTCAGTGGCCGGGCTACCCGTGAGCCCTTCGGAGGACCAGGGCTGGGGCAGCCTCTGGGCCCAC
6481 ATCCGGGGCCAGCTCCGGCGTGTGTTCAGTGTTAGCAGTGGGTCATGATGCTCTTTCCCACCCAGCCTGGGATAGGGGCA
6561 GAGGAGGCGAGGAGGCCGTTGCCGCTGATGTTTGGCCGTGAACAGGTGGGTGTCTGCGTGCGTCCACGTGCGTGTTTTCT
6641 GACTGACATGAAATCGACGCCCGAGTTAGCCTCACCCGGTGACCTCTAGCCCTGCCCGGATGGAGCGGGGCCCACCCGGT
6721 TCAGTGTTTCTGGGGAGCTGGACAGTGGAGTGCAAAAGGCTTGCAGAACTTGAAGCCTGCTCCTTCCCTTGCTACCACGG
6801 CCTCCTTTCCGTTTGATTTGTCACTGCTTCAATCAATAACAGCCGCTCCAGAGTCAGTAGTCAATGAATATATGACCAAA
6881 TATCACCAGGACTGTTACTCAATGTGTGCCGAGCCCTTGCCCATGCTGGGCTCCCGTGTATCTGGACACTGTAACGTGTG
6961 CTGTGTTTGCTCCCCTTCCCCTTCCTTCTTTGCCCTTTACTTGTCTTTCTGGGGTTTTTCTGTTTGGGTTTGGTTTGGTT
7041 TTTATTTCTCCTTTTGTGTTCCAAACATGAGGTTCTCTCTACTGGTCCTCTTAACTGTGGTGTTGAGGCTTATATTTGTG
7121 TAATTTTTGGTGGGTGAAAGGAATTTTGCTAAGTAAATCTCTTCTGTGTTTGAACTGAAGTCTGTATTGTAACTATGTTT
7201 AAAGTAATTGTTCCAGAGACAAATATTTCTAGACACTTTTTCTTTACAAACAAAAGCATTCGGAGGGAGGGGGATGGTGA
7281 CTGAGATGAGAGGGGAGAGCTGAACAGATGACCCCTGCCCAGATCAGCCAGAAGCCACCCAAAGCAGTGGAGCCCAGGAG
7361 TCCCACTCCAAGCCAGCAAGCCGAATAGCTGATGTGTTGCCACTTTCCAAGTCACTGCAAAACCAGGTTTTGTTCCGCCC
7441 AGTGGATTCTTGTTTTGCTTCCCCTCCCCCCGAGATTATTACCACCATCCCGTGCTTTTAAGGAAAGGCAAGATTGATGT
7521 TTCCTTGAGGGGAGCCAGGAGGGGATGTGTGTGTGCAGAGCTGAAGAGCTGGGGAGAATGGGGCTGGGCCCACCCAAGCA
7601 GGAGGCTGGGACGCTCTGCTGTGGGCACAGGTCAGGCTAATGTTGGCAGATGCAGCTCTTCCTGGACAGGCCAGGTGGTG
7681 GGCATTCTCTCTCCAAGGTGTGCCCCGTGGGCATTACTGTTTAAGACACTTCCGTCACATCCCACCCCATCCTCCAGGGC
7761 TCAACACTGTGACATCTCTATTCCCCACCCTCCCCTTCCCAGGGCAATAAAATGACCATGGAGGGGGCTTGCACTCTCTT
7841 GGCTGTCACCCGATCGCCAGCAAAACTTAGATGTGAGAAAACCCCTTCCCATTCCATGGCGAAAACATCTCCTTAGAAAA
7921 GCCATTACCCTCATTAGGCATGGTTTTGGGCTCCCAAAACACCTGACAGCCCCTCCCTCCTCTGAGAGGCGGAGAGTGCT
8001 GACTGTAGTGACCATTGCATGCCGGGTGCAGCATCTGGAAGAGCTAGGCAGGGTGTCTGCCCCCTCCTGAGTTGAAGTCA
8081 TGCTCCCCTGTGCCAGCCCAGAGGCCGAGAGCTATGGACAGCATTGCCAGTAACACAGGCCACCCTGTGCAGAAGGGAGC
8161 TGGCTCCAGCCTGGAAACCTGTCTGAGGTTGGGAGAGGTGCACTTGGGGCACAGGGAGAGGCCGGGACACACTTAGCTGG
8241 AGATGTCTCTAAAAGCCCTGTATCGTATTCACCTTCAGTTTTTGTGTTTTGGGACAATTACTTTAGAAAATAAGTAGGTC
8321 GTTTTAAAAACAAAAATTATTGATTGCTTTTTTGTAGTGTTCAGAAAAAAGGTTCTTTGTGTATAGCCAAATGACTGAAA
8401 GCACTGATATATTTAAAAACAAAAGGCAATTTATTAAGGAAATTTGTACCATTTCAGTAAACCTGTCTGAATGTACCTGT
8481 ATACGTTTCAAAAACACCCCCCCCCCACTGAATCCCTGTAACCTATTTATTATATAAAGAGTTTGCCTTATAAATTT
Target sites Provided by authors  Predicted by miRanda
miRNA-target interactions (Predicted by miRanda)
IDDuplex structurePositionScoreMFE
1
miRNA  3' cgGUUAUAA-AGACACGACGAu 5'
            :|| ||| |   ||:|||| 
Target 5' gtTAAAATTATACCTGTTGCTt 3'
5553 - 5574 135.00 -7.00
2
miRNA  3' cgGUUAUAAAGACACGACGau 5'
            ||| |   || ||||||  
Target 5' ttCAACAAGGCT-TGCTGCag 3'
267 - 286 130.00 -8.60
3
miRNA  3' cgguuAUAAAGACACGACGau 5'
               ||  | | ||||||  
Target 5' aactcTAAGTGTTTGCTGCaa 3'
1169 - 1189 128.00 -7.90
Experimental Support 1 for Functional miRNA-Target Interaction
miRNA:Target hsa-miR-195-5p :: MECP2    [ Functional MTI ]
Validation Method Microarray , Northern blot , Other
Original Description (Extracted from the article) ... Using these algorithms, we listed cancer-related mRNA targets of miRNA (Table 4). Especially, searching a candidate gene for miR-18, we picked up two candidates; connective tissue growth factor (CTGF) and receptor activator nuclear factor kappa B ligand (RANKL). ...

- Murakami, Y. Yasuda, T. Saigo, K. Urashima, et al., 2006, Oncogene.

Article - Murakami, Y. Yasuda, T. Saigo, K. Urashima, et al.
- Oncogene, 2006
MicroRNAs (miRNAs) are a non-coding family of genes involved in post-transcriptional gene regulation. These transcripts are associated with cell proliferation, cell differentiation, cell death and carcinogenesis. We analysed the miRNA expression profiles in 25 pairs of hepatocellular carcinoma (HCC) and adjacent non-tumorous tissue (NT) and nine additional chronic hepatitis (CH) specimens using a human miRNA microarray. Targets and references samples were co-hybridized to a microarray containing whole human mature and precursor miRNA sequences. Whereas three miRNAs exhibited higher expression in the HCC samples than that in the NT samples, five miRNAs demonstrated lower expression in the HCC samples than in the NT samples (P<0.0001). Classification of samples as HCC or NT by using support vector machine algorithms based on these data provided an overall prediction accuracy of 97.8% (45/46). In addition, the expression levels of four miRNAs were inversely correlated with the degree of HCC differentiation (P<0.01). A comparison of CH and liver cirrhosis samples revealed significantly different pattern of miRNA expression (P<0.01). There were no differences, however, between hepatitis B-positive and hepatitis C-positive samples. This information may help clarify the molecular mechanisms involved in the progression of liver disease, potentially serving as a diagnostic tool of HCC.
LinkOut: [PMID: 16331254]
MiRNA-Target Expression Profile:

 
MiRNA-Target Interaction Network:
Strong evidence (reporter assay, western blot, qRT-PCR or qPCR)
Other evidence
39 hsa-miR-195-5p Target Genes:
ID Target Description Validation methods
Strong evidence Less strong evidence
MIRT000222 WEE1 WEE1 homolog (S. pombe) 5 2
MIRT000223 E2F3 E2F transcription factor 3 4 2
MIRT000224 CDK6 cyclin-dependent kinase 6 4 1
MIRT000225 CCND1 cyclin D1 3 4
MIRT000785 BCL2L11 BCL2-like 11 (apoptosis facilitator) 2 1
MIRT000795 MECP2 methyl CpG binding protein 2 (Rett syndrome) 2 1
MIRT004273 VEGFA vascular endothelial growth factor A 2 1
MIRT004390 SKI v-ski sarcoma viral oncogene homolog (avian) 2 1
MIRT004669 CCL4 chemokine (C-C motif) ligand 4 3 1
MIRT004937 KRT7 keratin 7 2 1
MIRT005362 BCL2 B-cell CLL/lymphoma 2 4 1
MIRT006077 RAF1 v-raf-1 murine leukemia viral oncogene homolog 1 3 1
MIRT006080 RUNX2 runt-related transcription factor 2 3 1
MIRT006235 SLC2A3 solute carrier family 2 (facilitated glucose transporter), member 3 2 1
MIRT006245 TBCCD1 TBCC domain containing 1 2 1
MIRT006246 CCND3 cyclin D3 2 1
MIRT006252 CDK4 cyclin-dependent kinase 4 1 1
MIRT006995 CDC42 cell division cycle 42 (GTP binding protein, 25kDa) 1 1
MIRT007054 CAB39 calcium binding protein 39 2 1
MIRT007169 CHUK conserved helix-loop-helix ubiquitous kinase 1 1
MIRT007170 TAB3 TGF-beta activated kinase 1/MAP3K7 binding protein 3 1 1
MIRT007219 MBD1 methyl-CpG binding domain protein 1 1 1
MIRT007237 CCNE1 cyclin E1 1 1
MIRT007370 BCL2L2 BCL2-like 2 2 1
MIRT044858 JAK2 Janus kinase 2 1 1
MIRT044859 CAMKV CaM kinase-like vesicle-associated 1 1
MIRT044860 AGER advanced glycosylation end product-specific receptor 1 1
MIRT044861 LSM11 LSM11, U7 small nuclear RNA associated 1 1
MIRT044862 ABCB7 ATP-binding cassette, sub-family B (MDR/TAP), member 7 1 1
MIRT044863 ZNF280C zinc finger protein 280C 1 1
MIRT044864 SPTBN1 spectrin, beta, non-erythrocytic 1 1 1
MIRT044865 NOLC1 nucleolar and coiled-body phosphoprotein 1 1 1
MIRT044866 CAND1 cullin-associated and neddylation-dissociated 1 1 1
MIRT044867 COPB1 coatomer protein complex, subunit beta 1 1 1
MIRT044868 RPL10 ribosomal protein L10 1 1
MIRT044869 TMC6 transmembrane channel-like 6 1 1
MIRT044870 TPI1 triosephosphate isomerase 1 1 1
MIRT044871 SH3BGRL2 SH3 domain binding glutamic acid-rich protein like 2 1 1
MIRT044872 AGO1 eukaryotic translation initiation factor 2C, 1 1 1