| miRNA | gene name | experiments | ||||||
|---|---|---|---|---|---|---|---|---|
| hsa-miR-532-5p | RUNX3 |
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| hsa-miR-532-5p | ETFBKMT |
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| hsa-miR-532-5p | ZFHX3 |
|
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| hsa-miR-532-5p | CPNE1 |
|
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| hsa-miR-532-5p | FAM102B |
|
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| hsa-miR-532-5p | YARS |
|
||||||
| hsa-miR-532-5p | POLR2D |
|
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| hsa-miR-532-5p | NCBP2 |
|
||||||
| hsa-miR-532-5p | CASP16P |
|
||||||
| hsa-miR-532-5p | LRPPRC |
|
||||||
| hsa-miR-532-5p | RBPJ |
|
||||||
| hsa-miR-532-5p | EPGN |
|
||||||
| hsa-miR-532-5p | DENND1B |
|
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| hsa-miR-532-5p | VHL |
|
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| hsa-miR-532-5p | MON1B |
|
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| hsa-miR-532-5p | NOM1 |
|
||||||
| hsa-miR-532-5p | NPFFR1 |
|
||||||
| hsa-miR-532-5p | CCR2 |
|
||||||
| hsa-miR-532-5p | IYD |
|
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| hsa-miR-532-5p | TAB1 |
|
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| hsa-miR-532-5p | CCSER2 |
|
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| hsa-miR-532-5p | C18orf32 |
|
||||||
| hsa-miR-532-5p | TMEM192 |
|
||||||
| hsa-miR-532-5p | MAN2A1 |
|
||||||
| hsa-miR-532-5p | TTC33 |
|
||||||
| hsa-miR-532-5p | IGFBP5 |
|
||||||
| hsa-miR-532-5p | UBE3C |
|
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| hsa-miR-532-5p | ZNF662 |
|
||||||
| hsa-miR-532-5p | RNF41 |
|
||||||
| hsa-miR-532-5p | SPINT3 |
|
||||||
| hsa-miR-532-5p | THSD7A |
|
||||||
| hsa-miR-532-5p | HSPA14 |
|
||||||
| hsa-miR-532-5p | MRNIP |
|
||||||
| hsa-miR-532-5p | ZNF417 |
|
||||||
| hsa-miR-532-5p | KLRD1 |
|
||||||
| hsa-miR-532-5p | RCAN3 |
|
||||||
| hsa-miR-532-5p | FAM234B |
|
||||||
| hsa-miR-532-5p | GSTO2 |
|
||||||
| hsa-miR-532-5p | GJD3 |
|
||||||
| hsa-miR-532-5p | STXBP2 |
|
||||||
| hsa-miR-532-5p | TBC1D22A |
|
||||||
| hsa-miR-532-5p | TRIOBP |
|
||||||
| hsa-miR-532-5p | SPIN4 |
|
||||||
| hsa-miR-532-5p | CD55 |
|
||||||
| hsa-miR-532-5p | PIGG |
|
||||||
| hsa-miR-532-5p | RAB3C |
|
||||||
| hsa-miR-532-5p | BEST3 |
|
||||||
| hsa-miR-532-5p | UCHL3 |
|
||||||
| hsa-miR-532-5p | VTI1A |
|
||||||
| hsa-miR-532-5p | ACADSB |
|
||||||
| hsa-miR-532-5p | TENM4 |
|
| authors | journal | year | Pubmed link | title | |
|---|---|---|---|---|---|
| 1 | Kitago et al. | Clin. Cancer Res. | 2009 | 19336521 | Regulation of RUNX3 tumor suppressor gene expression in cutaneous melanoma. |
| 2 | Helwak et al. | Cell | 2013 | 23622248 | Mapping the human miRNA interactome by CLASH reveals frequent noncanonical binding. |
| 3 | 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. |
| 4 | Whisnant et al. | MBio | 2013 | 23592263 | In-depth analysis of the interaction of HIV-1 with cellular microRNA biogenesis and effector mechanisms. |
| 5 | Kishore et al. | Nat. Methods | 2011 | 21572407 | A quantitative analysis of CLIP methods for identifying binding sites of RNA-binding proteins. |
| 6 | 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. |
| 7 | Memczak et al. | Nature | 2013 | 23446348 | Circular RNAs are a large class of animal RNAs with regulatory potency. |
| 8 | Hafner et al. | Cell | 2010 | 20371350 | Transcriptome-wide identification of RNA-binding protein and microRNA target sites by PAR-CLIP. |
| 9 | Skalsky et al. | PLoS Pathog. | 2012 | 22291592 | The viral and cellular microRNA targetome in lymphoblastoid cell lines. |
| 10 | Karginov et al. | Genes Dev. | 2013 | 23824327 | Remodeling of Ago2-mRNA interactions upon cellular stress reflects miRNA complementarity and correlates with altered translation rates. |
| 11 | Chi et al. | Nature | 2009 | 19536157 | Argonaute HITS-CLIP decodes microRNA-mRNA interaction maps. |
| 12 | Xue et al. | Cell | 2013 | 23313552 | Direct conversion of fibroblasts to neurons by reprogramming PTB-regulated microRNA circuits. |