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hsa-miR-3688-3p (MIMAT0018116) (105 targets) in miRTarBase

miRNA gene name experiments
hsa-miR-3688-3p CD2AP
PAR-CLIP [1]
hsa-miR-3688-3p PLEKHF2
PAR-CLIP [2] [3]
hsa-miR-3688-3p CARM1
PAR-CLIP [4]
hsa-miR-3688-3p MSMO1
PAR-CLIP [4]
hsa-miR-3688-3p FAM160B1
PAR-CLIP [5] [6] [4]
hsa-miR-3688-3p H3F3A
PAR-CLIP [6]
hsa-miR-3688-3p RNF138
PAR-CLIP [2]
hsa-miR-3688-3p HSPA4L
PAR-CLIP [3] [2]
hsa-miR-3688-3p TULP4
PAR-CLIP [5]
hsa-miR-3688-3p KPNA6
PAR-CLIP [6]
hsa-miR-3688-3p SLC7A1
PAR-CLIP [5]
hsa-miR-3688-3p TNRC6B
HITS-CLIP [7] [8]
hsa-miR-3688-3p PRDM6
PAR-CLIP [6]
hsa-miR-3688-3p SYNCRIP
PAR-CLIP [5] [6] [2] [4]
hsa-miR-3688-3p SPCS3
PAR-CLIP [2]
hsa-miR-3688-3p SRP9
PAR-CLIP [5]
hsa-miR-3688-3p HMGN2
PAR-CLIP [5]
hsa-miR-3688-3p MAP1B
PAR-CLIP [9]
hsa-miR-3688-3p ZNF623
PAR-CLIP [9]
hsa-miR-3688-3p FOPNL
PAR-CLIP [4]
hsa-miR-3688-3p FAM136A
PAR-CLIP [4]
hsa-miR-3688-3p ZNF12
PAR-CLIP [4]
hsa-miR-3688-3p PSMA7
PAR-CLIP [4]
hsa-miR-3688-3p ZNF460
HITS-CLIP [2]
PAR-CLIP [2] [4] [3] [5] [6]
hsa-miR-3688-3p NDUFS1
PAR-CLIP [4]
hsa-miR-3688-3p USP46
PAR-CLIP [4]
hsa-miR-3688-3p TAGLN2
PAR-CLIP [4]
hsa-miR-3688-3p STC2
PAR-CLIP [4]
hsa-miR-3688-3p SLC38A1
PAR-CLIP [4]
hsa-miR-3688-3p SERP1
PAR-CLIP [4] [2]
hsa-miR-3688-3p RCC2
HITS-CLIP [10]
PAR-CLIP [4]
hsa-miR-3688-3p PSPC1
PAR-CLIP [4] [3]
hsa-miR-3688-3p PRDX5
PAR-CLIP [4]
hsa-miR-3688-3p PDIA5
PAR-CLIP [4]
hsa-miR-3688-3p NUAK2
PAR-CLIP [4]
hsa-miR-3688-3p MAP2K4
PAR-CLIP [4]
hsa-miR-3688-3p LMBR1L
PAR-CLIP [4]
hsa-miR-3688-3p JOSD1
PAR-CLIP [4]
hsa-miR-3688-3p CTNND1
PAR-CLIP [4]
hsa-miR-3688-3p CDC25B
PAR-CLIP [4]
hsa-miR-3688-3p ARL5B
PAR-CLIP [5] [6] [2] [4] [3]
hsa-miR-3688-3p AK2
PAR-CLIP [4]
hsa-miR-3688-3p NDUFB5
PAR-CLIP [4]
hsa-miR-3688-3p MSI2
PAR-CLIP [1] [4]
hsa-miR-3688-3p ROCK1
PAR-CLIP [11]
hsa-miR-3688-3p SLC29A2
PAR-CLIP [3]
hsa-miR-3688-3p SUMO1
PAR-CLIP [3]
hsa-miR-3688-3p RMND5A
PAR-CLIP [3]
hsa-miR-3688-3p EEF2
PAR-CLIP [5] [6] [3]
hsa-miR-3688-3p TUBA1B
PAR-CLIP [5]
hsa-miR-3688-3p G3BP2
PAR-CLIP [5]
hsa-miR-3688-3p CBX6
PAR-CLIP [6] [2] [5]
hsa-miR-3688-3p PMAIP1
PAR-CLIP [5] [6] [2]
hsa-miR-3688-3p HOXA10
PAR-CLIP [5] [6] [2]
hsa-miR-3688-3p MBTD1
HITS-CLIP [2]
PAR-CLIP [5] [6] [2]
hsa-miR-3688-3p FRK
PAR-CLIP [1]
hsa-miR-3688-3p JRKL
PAR-CLIP [1]
hsa-miR-3688-3p DCAKD
PAR-CLIP [1]
hsa-miR-3688-3p MCMDC2
PAR-CLIP [1]
hsa-miR-3688-3p ARL10
PAR-CLIP [1]
hsa-miR-3688-3p APP
PAR-CLIP [2]
hsa-miR-3688-3p CYB5B
PAR-CLIP [2]
hsa-miR-3688-3p GTF2B
PAR-CLIP [2]
hsa-miR-3688-3p ANXA5
PAR-CLIP [2]
hsa-miR-3688-3p CCDC6
PAR-CLIP [2]
hsa-miR-3688-3p BOLA3
PAR-CLIP [2]
hsa-miR-3688-3p TNFAIP3
PAR-CLIP [2]
hsa-miR-3688-3p PGAM4
PAR-CLIP [6] [2]
hsa-miR-3688-3p FBXO28
PAR-CLIP [6] [2]
hsa-miR-3688-3p CREBL2
PAR-CLIP [2]
hsa-miR-3688-3p TM2D2
PAR-CLIP [6]
hsa-miR-3688-3p ERCC8
PAR-CLIP [6]
hsa-miR-3688-3p CLEC2D
PAR-CLIP [6]
hsa-miR-3688-3p ZBED3
PAR-CLIP [6]
hsa-miR-3688-3p TNFRSF21
PAR-CLIP [6]
hsa-miR-3688-3p SLC6A8
PAR-CLIP [6]
hsa-miR-3688-3p PANK3
PAR-CLIP [6]
hsa-miR-3688-3p MKL2
PAR-CLIP [6]
hsa-miR-3688-3p LRP12
PAR-CLIP [6]
hsa-miR-3688-3p ATXN1
PAR-CLIP [6]
hsa-miR-3688-3p ATG2A
PAR-CLIP [6]
hsa-miR-3688-3p YWHAQ
PAR-CLIP [6]
hsa-miR-3688-3p C9orf78
PAR-CLIP [6]
hsa-miR-3688-3p FAM69C
HITS-CLIP [12]
hsa-miR-3688-3p NACC1
HITS-CLIP [8]
hsa-miR-3688-3p SAMD5
HITS-CLIP [8]
hsa-miR-3688-3p ACTR2
HITS-CLIP [8]
hsa-miR-3688-3p ZNF705A
HITS-CLIP [8]
hsa-miR-3688-3p SMOC2
HITS-CLIP [8]
hsa-miR-3688-3p SKIL
HITS-CLIP [8]
hsa-miR-3688-3p RUNX1T1
HITS-CLIP [8]
hsa-miR-3688-3p CLDN1
HITS-CLIP [8]
hsa-miR-3688-3p PCDH7
HITS-CLIP [8]
hsa-miR-3688-3p BVES
HITS-CLIP [2] [13]
hsa-miR-3688-3p SLC16A6
HITS-CLIP [10]
hsa-miR-3688-3p REL
HITS-CLIP [10]
hsa-miR-3688-3p EOGT
HITS-CLIP [10]
hsa-miR-3688-3p ZNF28
HITS-CLIP [7]
hsa-miR-3688-3p PLEKHG4
HITS-CLIP [7]
hsa-miR-3688-3p SPRTN
HITS-CLIP [7]
hsa-miR-3688-3p ZBTB25
HITS-CLIP [7]
hsa-miR-3688-3p UCHL3
HITS-CLIP [7]
hsa-miR-3688-3p CLPTM1L
HITS-CLIP [7]
hsa-miR-3688-3p CX3CL1
HITS-CLIP [7]
hsa-miR-3688-3p ST6GALNAC5
HITS-CLIP [7]

References

authors journal year Pubmed link title
1 Lipchina et al. Genes Dev. 2011 22012620 Genome-wide identification of microRNA targets in human ES cells reveals a role for miR-302 in modulating BMP response.
2 Kishore et al. Nat. Methods 2011 21572407 A quantitative analysis of CLIP methods for identifying binding sites of RNA-binding proteins.
3 Farazi et al. Genome Biol. 2014 24398324 Identification of distinct miRNA target regulation between breast cancer molecular subtypes using AGO2-PAR-CLIP and patient datasets.
4 Whisnant et al. MBio 2013 23592263 In-depth analysis of the interaction of HIV-1 with cellular microRNA biogenesis and effector mechanisms.
5 Memczak et al. Nature 2013 23446348 Circular RNAs are a large class of animal RNAs with regulatory potency.
6 Hafner et al. Cell 2010 20371350 Transcriptome-wide identification of RNA-binding protein and microRNA target sites by PAR-CLIP.
7 Chi et al. Nature 2009 19536157 Argonaute HITS-CLIP decodes microRNA-mRNA interaction maps.
8 Karginov et al. Genes Dev. 2013 23824327 Remodeling of Ago2-mRNA interactions upon cellular stress reflects miRNA complementarity and correlates with altered translation rates.
9 Gottwein et al. Cell Host Microbe 2011 22100165 Viral microRNA targetome of KSHV-infected primary effusion lymphoma cell lines.
10 Xue et al. Cell 2013 23313552 Direct conversion of fibroblasts to neurons by reprogramming PTB-regulated microRNA circuits.
11 Majoros et al. Nat. Methods 2013 23708386 MicroRNA target site identification by integrating sequence and binding information.
12 Pillai et al. Breast Cancer Res. Treat. 2014 24906430 HITS-CLIP reveals key regulators of nuclear receptor signaling in breast cancer.
13 Kishore et al. Genome Biol. 2013 23706177 Insights into snoRNA biogenesis and processing from PAR-CLIP of snoRNA core proteins and small RNA sequencing.
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