pre-miRNA Information | |
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pre-miRNA | hsa-mir-6079 |
Genomic Coordinates | chr1: 43838622 - 43838683 |
Description | Homo sapiens miR-6079 stem-loop |
Comment | None |
RNA Secondary Structure |
Mature miRNA Information | ||||||||||||||||
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Mature miRNA | hsa-miR-6079 | |||||||||||||||
Sequence | 36| UUGGAAGCUUGGACCAACUAGCUG |59 | |||||||||||||||
Evidence | Experimental | |||||||||||||||
Experiments | SOLiD | |||||||||||||||
SNPs in miRNA |
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Putative Targets |
Gene Information | |||||||||||||||||||||
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Gene Symbol | B2M | ||||||||||||||||||||
Synonyms | IMD43 | ||||||||||||||||||||
Description | beta-2-microglobulin | ||||||||||||||||||||
Transcript | NM_004048 | ||||||||||||||||||||
Expression | |||||||||||||||||||||
Putative miRNA Targets on B2M | |||||||||||||||||||||
3'UTR of B2M (miRNA target sites are highlighted) |
>B2M|NM_004048|3'UTR 1 GCAGCATCATGGAGGTTTGAAGATGCCGCATTTGGATTGGATGAATTCCAAATTCTGCTTGCTTGCTTTTTAATATTGAT 81 ATGCTTATACACTTACACTTTATGCACAAAATGTAGGGTTATAATAATGTTAACATGGACATGATCTTCTTTATAATTCT 161 ACTTTGAGTGCTGTCTCCATGTTTGATGTATCTGAGCAGGTTGCTCCACAGGTAGCTCTAGGAGGGCTGGCAACTTAGAG 241 GTGGGGAGCAGAGAATTCTCTTATCCAACATCAACATCTTGGTCAGATTTGAACTCTTCAATCTCTTGCACTCAAAGCTT 321 GTTAAGATAGTTAAGCGTGCATAAGTTAACTTCCAATTTACATACTCTGCTTAGAATTTGGGGGAAAATTTAGAAATATA 401 ATTGACAGGATTATTGGAAATTTGTTATAATGAATGAAACATTTTGTCATATAAGATTCATATTTACTTCTTATACATTT 481 GATAAAGTAAGGCATGGTTGTGGTTAATCTGGTTTATTTTTGTTCCACAAGTTAAATAAATCATAAAACTTGATGTGTTA 561 TCTCTTA 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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DRVs in gene 3'UTRs | |||||||||||||||||||||
SNPs in gene 3'UTRs |
Experimental Support 1 for Functional miRNA-Target Interaction | |
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miRNA:Target | ---- |
Validation Method |
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Conditions | HEK293 |
Location of target site | 3'UTR |
Tools used in this research | TargetScan , miRTarCLIP , Piranha |
Original Description (Extracted from the article) |
...
PAR-CLIP data was present in GSM545212. RNA binding protein: AGO1. Condition:Control
PAR-CLIP data was present in GSM545214. RNA binding protein: AGO3. Condition:Control
PAR-CLIP data was present in GSM545216. RNA binding protein: AGO2. Condition:miR-124 transfection
PAR-CLIP data was present in GSM545217. RNA binding protein: AGO2. Condition:miR-7 transfection
... - Hafner M; Landthaler M; Burger L; Khorshid et al., 2010, Cell. |
Article |
- Hafner M; Landthaler M; Burger L; Khorshid et al. - Cell, 2010
RNA transcripts are subject to posttranscriptional gene regulation involving hundreds of RNA-binding proteins (RBPs) and microRNA-containing ribonucleoprotein complexes (miRNPs) expressed in a cell-type dependent fashion. We developed a cell-based crosslinking approach to determine at high resolution and transcriptome-wide the binding sites of cellular RBPs and miRNPs. The crosslinked sites are revealed by thymidine to cytidine transitions in the cDNAs prepared from immunopurified RNPs of 4-thiouridine-treated cells. We determined the binding sites and regulatory consequences for several intensely studied RBPs and miRNPs, including PUM2, QKI, IGF2BP1-3, AGO/EIF2C1-4 and TNRC6A-C. Our study revealed that these factors bind thousands of sites containing defined sequence motifs and have distinct preferences for exonic versus intronic or coding versus untranslated transcript regions. The precise mapping of binding sites across the transcriptome will be critical to the interpretation of the rapidly emerging data on genetic variation between individuals and how these variations contribute to complex genetic diseases.
LinkOut: [PMID: 20371350]
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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 | HEK293 |
Disease | 567.0 |
Location of target site | 3'UTR |
Tools used in this research | TargetScan , miRTarCLIP , Piranha |
Original Description (Extracted from the article) |
...
"PAR-CLIP data was present in GSM714645. RNA binding protein: AGO2. Condition:completeT1
... - Kishore S; Jaskiewicz L; Burger L; Hausser et al., 2011, Nature methods. |
Article |
- Kishore S; Jaskiewicz L; Burger L; Hausser et al. - Nature methods, 2011
Cross-linking and immunoprecipitation (CLIP) is increasingly used to map transcriptome-wide binding sites of RNA-binding proteins. We developed a method for CLIP data analysis, and applied it to compare CLIP with photoactivatable ribonucleoside-enhanced CLIP (PAR-CLIP) and to uncover how differences in cross-linking and ribonuclease digestion affect the identified sites. We found only small differences in accuracies of these methods in identifying binding sites of HuR, which binds low-complexity sequences, and Argonaute 2, which has a complex binding specificity. We found that cross-link-induced mutations led to single-nucleotide resolution for both PAR-CLIP and CLIP. Our results confirm the expectation from original CLIP publications that RNA-binding proteins do not protect their binding sites sufficiently under the denaturing conditions used during the CLIP procedure, and we show that extensive digestion with sequence-specific RNases strongly biases the recovered binding sites. This bias can be substantially reduced by milder nuclease digestion conditions.
LinkOut: [PMID: 21572407]
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Experimental Support 3 for Functional miRNA-Target Interaction | |
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miRNA:Target | ---- |
Validation Method |
|
Conditions | HEK293 |
Disease | 567.0 |
Location of target site | 3'UTR |
Tools used in this research | TargetScan , miRTarCLIP , Piranha |
Original Description (Extracted from the article) |
...
"PAR-CLIP data was present in GSM1065667. RNA binding protein: AGO1. Condition:4-thiouridine
"PAR-CLIP data was present in GSM1065668. RNA binding protein: AGO1. Condition:4-thiouridine
"PAR-CLIP data was present in GSM1065669. RNA binding protein: AGO1. Condition:4-thiouridine
... - Memczak S; Jens M; Elefsinioti A; Torti F; et al., 2013, Nature. |
Article |
- Memczak S; Jens M; Elefsinioti A; Torti F; et al. - Nature, 2013
Circular RNAs (circRNAs) in animals are an enigmatic class of RNA with unknown function. To explore circRNAs systematically, we sequenced and computationally analysed human, mouse and nematode RNA. We detected thousands of well-expressed, stable circRNAs, often showing tissue/developmental-stage-specific expression. Sequence analysis indicated important regulatory functions for circRNAs. We found that a human circRNA, antisense to the cerebellar degeneration-related protein 1 transcript (CDR1as), is densely bound by microRNA (miRNA) effector complexes and harbours 63 conserved binding sites for the ancient miRNA miR-7. Further analyses indicated that CDR1as functions to bind miR-7 in neuronal tissues. Human CDR1as expression in zebrafish impaired midbrain development, similar to knocking down miR-7, suggesting that CDR1as is a miRNA antagonist with a miRNA-binding capacity ten times higher than any other known transcript. Together, our data provide evidence that circRNAs form a large class of post-transcriptional regulators. Numerous circRNAs form by head-to-tail splicing of exons, suggesting previously unrecognized regulatory potential of coding sequences.
LinkOut: [PMID: 23446348]
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Experimental Support 4 for Functional miRNA-Target Interaction | |
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miRNA:Target | ---- |
Validation Method |
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Conditions | TZM-bl |
Location of target site | 3'UTR |
Tools used in this research | TargetScan , miRTarCLIP , Piranha |
Original Description (Extracted from the article) |
...
PAR-CLIP data was present in GSM1462573. RNA binding protein: AGO2. Condition:TZM-bl BaL
PAR-CLIP data was present in GSM1462574. RNA binding protein: AGO2. Condition:TZM-bl ami BaL
... - Whisnant AW; Bogerd HP; Flores O; Ho P; et al., 2013, mBio. |
Article |
- Whisnant AW; Bogerd HP; Flores O; Ho P; et al. - mBio, 2013
UNLABELLED: The question of how HIV-1 interfaces with cellular microRNA (miRNA) biogenesis and effector mechanisms has been highly controversial. Here, we first used deep sequencing of small RNAs present in two different infected cell lines (TZM-bl and C8166) and two types of primary human cells (CD4(+) peripheral blood mononuclear cells [PBMCs] and macrophages) to unequivocally demonstrate that HIV-1 does not encode any viral miRNAs. Perhaps surprisingly, we also observed that infection of T cells by HIV-1 has only a modest effect on the expression of cellular miRNAs at early times after infection. Comprehensive analysis of miRNA binding to the HIV-1 genome using the photoactivatable ribonucleoside-induced cross-linking and immunoprecipitation (PAR-CLIP) technique revealed several binding sites for cellular miRNAs, a subset of which were shown to be capable of mediating miRNA-mediated repression of gene expression. However, the main finding from this analysis is that HIV-1 transcripts are largely refractory to miRNA binding, most probably due to extensive viral RNA secondary structure. Together, these data demonstrate that HIV-1 neither encodes viral miRNAs nor strongly influences cellular miRNA expression, at least early after infection, and imply that HIV-1 transcripts have evolved to avoid inhibition by preexisting cellular miRNAs by adopting extensive RNA secondary structures that occlude most potential miRNA binding sites. IMPORTANCE: MicroRNAs (miRNAs) are a ubiquitous class of small regulatory RNAs that serve as posttranscriptional regulators of gene expression. Previous work has suggested that HIV-1 might subvert the function of the cellular miRNA machinery by expressing viral miRNAs or by dramatically altering the level of cellular miRNA expression. Using very sensitive approaches, we now demonstrate that neither of these ideas is in fact correct. Moreover, HIV-1 transcripts appear to largely avoid regulation by cellular miRNAs by adopting an extensive RNA secondary structure that occludes the ability of cellular miRNAs to interact with viral mRNAs. Together, these data suggest that HIV-1, rather than seeking to control miRNA function in infected cells, has instead evolved a mechanism to become largely invisible to cellular miRNA effector mechanisms.
LinkOut: [PMID: 23592263]
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Experimental Support 5 for Functional miRNA-Target Interaction | |
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miRNA:Target | ---- |
Validation Method |
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Conditions | Prostate Tissue |
Location of target site | 3'UTR |
Tools used in this research | TargetScan , miRTarCLIP , Piranha |
Original Description (Extracted from the article) |
...
PAR-CLIP data was present in SRX1760638. RNA binding protein: AGO2. Condition:AGO-CLIP-PC3-miR148
... - Hamilton MP; Rajapakshe KI; Bader DA; Cerne et al., 2016, Neoplasia (New York, N.Y.). |
Article |
- Hamilton MP; Rajapakshe KI; Bader DA; Cerne et al. - Neoplasia (New York, N.Y.), 2016
MicroRNA (miRNA) deregulation in prostate cancer (PCa) contributes to PCa initiation and metastatic progression. To comprehensively define the cancer-associated changes in miRNA targeting and function in commonly studied models of PCa, we performed photoactivatable ribonucleoside-enhanced cross-linking immunoprecipitation of the Argonaute protein in a panel of PCa cell lines modeling different stages of PCa progression. Using this comprehensive catalogue of miRNA targets, we analyzed miRNA targeting on known drivers of PCa and examined tissue-specific and stage-specific pathway targeting by miRNAs. We found that androgen receptor is the most frequently targeted PCa oncogene and that miR-148a targets the largest number of known PCa drivers. Globally, tissue-specific and stage-specific changes in miRNA targeting are driven by homeostatic response to active oncogenic pathways. Our findings indicate that, even in advanced PCa, the miRNA pool adapts to regulate continuing alterations in the cancer genome to balance oncogenic molecular changes. These findings are important because they are the first to globally characterize miRNA changes in PCa and demonstrate how the miRNA target spectrum responds to staged tumorigenesis.
LinkOut: [PMID: 27292025]
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CLIP-seq Support 1 for dataset GSM545212 | |
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Method / RBP | PAR-CLIP / AGO1 |
Cell line / Condition | HEK293 / Control |
Location of target site | ENST00000558401.1 | 3UTR | UUAACUUCCAAUUUACAUACUCUGCUUAG |
Tools used in this analysis | TargetScan, miRTarCLIP, and Piranha |
Article / Accession Series | PMID: 20371350 / GSE21578 |
CLIP-seq Viewer | Link |
CLIP-seq Support 2 for dataset GSM545214 | |
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Method / RBP | PAR-CLIP / AGO3 |
Cell line / Condition | HEK293 / Control |
Location of target site | ENST00000558401.1 | 3UTR | UUAACUUCCAAUUUACAUACUCUGCUUA |
Tools used in this analysis | TargetScan, miRTarCLIP, and Piranha |
Article / Accession Series | PMID: 20371350 / GSE21578 |
CLIP-seq Viewer | Link |
CLIP-seq Support 3 for dataset GSM545216 | |
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Method / RBP | PAR-CLIP / AGO2 |
Cell line / Condition | HEK293 / miR-124 transfection |
Location of target site | ENST00000558401.1 | 3UTR | AGUUAACUUCCAAUUUACAUACUCUGCUUA |
Tools used in this analysis | TargetScan, miRTarCLIP, and Piranha |
Article / Accession Series | PMID: 20371350 / GSE21578 |
CLIP-seq Viewer | Link |
CLIP-seq Support 4 for dataset GSM545217 | |
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Method / RBP | PAR-CLIP / AGO2 |
Cell line / Condition | HEK293 / miR-7 transfection |
Location of target site | ENST00000558401.1 | 3UTR | UUAACUUCCAAUUUACAUACUCUGCUU |
Tools used in this analysis | TargetScan, miRTarCLIP, and Piranha |
Article / Accession Series | PMID: 20371350 / GSE21578 |
CLIP-seq Viewer | Link |
CLIP-seq Support 5 for dataset GSM714645 | |
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Method / RBP | PAR-CLIP / AGO2 |
Cell line / Condition | HEK293 / completeT1, repB |
Location of target site | ENST00000558401.1 | 3UTR | UUAACUUCCAAUUUACAUACUCUG |
Tools used in this analysis | TargetScan, miRTarCLIP, and Piranha |
Article / Accession Series | PMID: 21572407 / GSE28865 |
CLIP-seq Viewer | Link |
CLIP-seq Support 6 for dataset GSM1065667 | |
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Method / RBP | PAR-CLIP / AGO1 |
Cell line / Condition | HEK293 / 4-thiouridine, ML_MM_6 |
Location of target site | ENST00000558401.1 | 3UTR | UUAACUUCCAAUUUACAUACUCUGCUUAG |
Tools used in this analysis | TargetScan, miRTarCLIP, and Piranha |
Article / Accession Series | PMID: 23446348 / GSE43573 |
CLIP-seq Viewer | Link |
CLIP-seq Support 7 for dataset GSM1065668 | |
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Method / RBP | PAR-CLIP / AGO1 |
Cell line / Condition | HEK293 / 4-thiouridine, ML_MM_7 |
Location of target site | ENST00000558401.1 | 3UTR | AACUUCCAAUUUACAUACUCUGC |
Tools used in this analysis | TargetScan, miRTarCLIP, and Piranha |
Article / Accession Series | PMID: 23446348 / GSE43573 |
CLIP-seq Viewer | Link |
CLIP-seq Support 8 for dataset GSM1065669 | |
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Method / RBP | PAR-CLIP / AGO1 |
Cell line / Condition | HEK293 / 4-thiouridine, ML_MM_8 |
Location of target site | ENST00000558401.1 | 3UTR | UUAACUUCCAAUUUACAUACUCUGCUUAG |
Tools used in this analysis | TargetScan, miRTarCLIP, and Piranha |
Article / Accession Series | PMID: 23446348 / GSE43573 |
CLIP-seq Viewer | Link |
CLIP-seq Support 9 for dataset GSM1462573 | |
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Method / RBP | PAR-CLIP / AGO2 |
Cell line / Condition | TZM-bl / TZM-bl BaL |
Location of target site | ENST00000558401.1 | 3UTR | UUAACUUCCAAUUUACAUACUCUGCUUAG |
Tools used in this analysis | TargetScan, miRTarCLIP, and Piranha |
Article / Accession Series | PMID: 23592263 / GSE59944 |
CLIP-seq Viewer | Link |
CLIP-seq Support 10 for dataset GSM1462574 | |
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Method / RBP | PAR-CLIP / AGO2 |
Cell line / Condition | TZM-bl / TZM-bl ami BaL |
Location of target site | ENST00000558401.1 | 3UTR | UUAACUUCCAAUUUACAUACUCUGCUUAG |
Tools used in this analysis | TargetScan, miRTarCLIP, and Piranha |
Article / Accession Series | PMID: 23592263 / GSE59944 |
CLIP-seq Viewer | Link |
MiRNA-Target Expression Profile | |||||||
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MiRNA-Target Expression Profile (TCGA) | |||||||
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115 hsa-miR-6079 Target Genes:
Functional analysis:
ID | Target | Description | Validation methods | |||||||||
Strong evidence | Less strong evidence | |||||||||||
MIRT072278 | B2M | beta-2-microglobulin | 2 | 8 | ||||||||
MIRT110063 | OGT | O-linked N-acetylglucosamine (GlcNAc) transferase | 2 | 6 | ||||||||
MIRT127777 | ENTPD1 | ectonucleoside triphosphate diphosphohydrolase 1 | 2 | 2 | ||||||||
MIRT167795 | SGK1 | serum/glucocorticoid regulated kinase 1 | 2 | 2 | ||||||||
MIRT189974 | AGO4 | argonaute 4, RISC catalytic component | 2 | 2 | ||||||||
MIRT219056 | TAF8 | TATA-box binding protein associated factor 8 | 2 | 4 | ||||||||
MIRT289800 | FOXK2 | forkhead box K2 | 2 | 4 | ||||||||
MIRT305203 | ATP1B3 | ATPase Na+/K+ transporting subunit beta 3 | 2 | 2 | ||||||||
MIRT306711 | TFRC | transferrin receptor | 2 | 2 | ||||||||
MIRT326668 | ZNF275 | zinc finger protein 275 | 2 | 4 | ||||||||
MIRT326882 | TXLNG | taxilin gamma | 2 | 2 | ||||||||
MIRT370828 | LPP | LIM domain containing preferred translocation partner in lipoma | 2 | 2 | ||||||||
MIRT372943 | CCDC6 | coiled-coil domain containing 6 | 2 | 2 | ||||||||
MIRT409793 | FOXO3 | forkhead box O3 | 2 | 2 | ||||||||
MIRT442693 | ZNF646 | zinc finger protein 646 | 2 | 4 | ||||||||
MIRT445981 | HEY2 | hes related family bHLH transcription factor with YRPW motif 2 | 2 | 2 | ||||||||
MIRT454360 | ASAH2 | N-acylsphingosine amidohydrolase 2 | 2 | 2 | ||||||||
MIRT455243 | DDX39B | DExD-box helicase 39B | 2 | 10 | ||||||||
MIRT459159 | HSPA6 | heat shock protein family A (Hsp70) member 6 | 2 | 21 | ||||||||
MIRT463809 | XPO4 | exportin 4 | 2 | 2 | ||||||||
MIRT464702 | UBE2V1 | ubiquitin conjugating enzyme E2 V1 | 2 | 2 | ||||||||
MIRT465965 | TMEM189-UBE2V1 | TMEM189-UBE2V1 readthrough | 2 | 2 | ||||||||
MIRT466049 | TMEM189 | transmembrane protein 189 | 2 | 2 | ||||||||
MIRT473879 | M6PR | mannose-6-phosphate receptor, cation dependent | 2 | 6 | ||||||||
MIRT477242 | ERGIC2 | ERGIC and golgi 2 | 2 | 2 | ||||||||
MIRT479947 | CBX4 | chromobox 4 | 2 | 6 | ||||||||
MIRT480173 | CALM3 | calmodulin 3 | 2 | 10 | ||||||||
MIRT480242 | C8orf58 | chromosome 8 open reading frame 58 | 2 | 2 | ||||||||
MIRT485275 | PLAGL2 | PLAG1 like zinc finger 2 | 2 | 2 | ||||||||
MIRT491868 | YWHAZ | tyrosine 3-monooxygenase/tryptophan 5-monooxygenase activation protein zeta | 2 | 2 | ||||||||
MIRT492764 | PDGFB | platelet derived growth factor subunit B | 2 | 2 | ||||||||
MIRT493779 | GCK | glucokinase | 2 | 2 | ||||||||
MIRT499219 | VAV3 | vav guanine nucleotide exchange factor 3 | 2 | 6 | ||||||||
MIRT502201 | HSPB8 | heat shock protein family B (small) member 8 | 2 | 2 | ||||||||
MIRT504139 | MCTS1 | MCTS1, re-initiation and release factor | 2 | 6 | ||||||||
MIRT507972 | BCL2L13 | BCL2 like 13 | 2 | 4 | ||||||||
MIRT511614 | HIST1H3J | histone cluster 1 H3 family member j | 2 | 4 | ||||||||
MIRT511741 | HIST1H2BB | histone cluster 1 H2B family member b | 2 | 6 | ||||||||
MIRT517453 | PEX26 | peroxisomal biogenesis factor 26 | 2 | 4 | ||||||||
MIRT520219 | VGLL4 | vestigial like family member 4 | 2 | 2 | ||||||||
MIRT524336 | CRIM1 | cysteine rich transmembrane BMP regulator 1 | 2 | 6 | ||||||||
MIRT524391 | COX6B1 | cytochrome c oxidase subunit 6B1 | 2 | 4 | ||||||||
MIRT525958 | ZNF585B | zinc finger protein 585B | 2 | 2 | ||||||||
MIRT526569 | ZNF853 | zinc finger protein 853 | 2 | 2 | ||||||||
MIRT528608 | EPHX4 | epoxide hydrolase 4 | 2 | 2 | ||||||||
MIRT529453 | MKKS | McKusick-Kaufman syndrome | 2 | 2 | ||||||||
MIRT534108 | SOGA3 | SOGA family member 3 | 2 | 2 | ||||||||
MIRT543042 | BAZ2A | bromodomain adjacent to zinc finger domain 2A | 2 | 2 | ||||||||
MIRT547197 | PARP1 | poly(ADP-ribose) polymerase 1 | 2 | 2 | ||||||||
MIRT548141 | FYCO1 | FYVE and coiled-coil domain containing 1 | 2 | 2 | ||||||||
MIRT553196 | UBE2A | ubiquitin conjugating enzyme E2 A | 2 | 2 | ||||||||
MIRT553392 | TRIM2 | tripartite motif containing 2 | 2 | 4 | ||||||||
MIRT555247 | PREPL | prolyl endopeptidase-like | 2 | 2 | ||||||||
MIRT559847 | GSKIP | GSK3B interacting protein | 2 | 2 | ||||||||
MIRT559868 | ATXN3 | ataxin 3 | 2 | 2 | ||||||||
MIRT559877 | PODXL | podocalyxin like | 2 | 2 | ||||||||
MIRT560211 | SLC7A1 | solute carrier family 7 member 1 | 2 | 2 | ||||||||
MIRT560319 | DCAF17 | DDB1 and CUL4 associated factor 17 | 2 | 2 | ||||||||
MIRT560462 | SMIM9 | small integral membrane protein 9 | 2 | 2 | ||||||||
MIRT560565 | ZNF460 | zinc finger protein 460 | 2 | 2 | ||||||||
MIRT560607 | TRIM38 | tripartite motif containing 38 | 2 | 2 | ||||||||
MIRT560614 | ANKRD36 | ankyrin repeat domain 36 | 2 | 2 | ||||||||
MIRT560657 | ZNF678 | zinc finger protein 678 | 2 | 2 | ||||||||
MIRT561016 | LIN7C | lin-7 homolog C, crumbs cell polarity complex component | 2 | 2 | ||||||||
MIRT561368 | UBXN2B | UBX domain protein 2B | 2 | 2 | ||||||||
MIRT561720 | PPP2CA | protein phosphatase 2 catalytic subunit alpha | 2 | 2 | ||||||||
MIRT561960 | LSM12 | LSM12 homolog | 2 | 2 | ||||||||
MIRT562244 | GRWD1 | glutamate rich WD repeat containing 1 | 2 | 2 | ||||||||
MIRT562314 | G3BP1 | G3BP stress granule assembly factor 1 | 2 | 2 | ||||||||
MIRT562462 | CORO1C | coronin 1C | 2 | 2 | ||||||||
MIRT562475 | CHORDC1 | cysteine and histidine rich domain containing 1 | 2 | 2 | ||||||||
MIRT563990 | SLFN11 | schlafen family member 11 | 2 | 2 | ||||||||
MIRT564163 | MARS2 | methionyl-tRNA synthetase 2, mitochondrial | 2 | 2 | ||||||||
MIRT564471 | ZNF391 | zinc finger protein 391 | 2 | 2 | ||||||||
MIRT568221 | C11orf24 | chromosome 11 open reading frame 24 | 2 | 2 | ||||||||
MIRT573927 | CNTNAP2 | contactin associated protein like 2 | 2 | 2 | ||||||||
MIRT575589 | Gnl1 | guanine nucleotide binding protein-like 1 | 2 | 3 | ||||||||
MIRT610354 | GNL1 | G protein nucleolar 1 (putative) | 2 | 3 | ||||||||
MIRT613921 | HIVEP3 | human immunodeficiency virus type I enhancer binding protein 3 | 2 | 2 | ||||||||
MIRT614753 | SLC6A6 | solute carrier family 6 member 6 | 2 | 2 | ||||||||
MIRT615708 | DCX | doublecortin | 2 | 2 | ||||||||
MIRT618145 | CHCHD5 | coiled-coil-helix-coiled-coil-helix domain containing 5 | 2 | 2 | ||||||||
MIRT620227 | PACS1 | phosphofurin acidic cluster sorting protein 1 | 2 | 2 | ||||||||
MIRT624344 | CHRM3 | cholinergic receptor muscarinic 3 | 2 | 2 | ||||||||
MIRT629556 | EMP2 | epithelial membrane protein 2 | 2 | 2 | ||||||||
MIRT629716 | COL12A1 | collagen type XII alpha 1 chain | 2 | 2 | ||||||||
MIRT629831 | CCL16 | C-C motif chemokine ligand 16 | 2 | 2 | ||||||||
MIRT633619 | R3HDM2 | R3H domain containing 2 | 2 | 2 | ||||||||
MIRT640738 | EPB41 | erythrocyte membrane protein band 4.1 | 2 | 2 | ||||||||
MIRT650406 | ZNF442 | zinc finger protein 442 | 2 | 2 | ||||||||
MIRT653196 | SPATA13 | spermatogenesis associated 13 | 2 | 2 | ||||||||
MIRT653219 | SOX17 | SRY-box 17 | 2 | 2 | ||||||||
MIRT653293 | SMUG1 | single-strand-selective monofunctional uracil-DNA glycosylase 1 | 2 | 2 | ||||||||
MIRT655574 | OTUD7B | OTU deubiquitinase 7B | 2 | 4 | ||||||||
MIRT661109 | FPR1 | formyl peptide receptor 1 | 2 | 2 | ||||||||
MIRT661510 | C8orf82 | chromosome 8 open reading frame 82 | 2 | 2 | ||||||||
MIRT665772 | TMEM236 | transmembrane protein 236 | 2 | 2 | ||||||||
MIRT667612 | LIMCH1 | LIM and calponin homology domains 1 | 2 | 2 | ||||||||
MIRT670700 | SLC16A13 | solute carrier family 16 member 13 | 2 | 2 | ||||||||
MIRT670809 | NICN1 | nicolin 1 | 2 | 2 | ||||||||
MIRT671038 | SS18 | SS18, nBAF chromatin remodeling complex subunit | 2 | 2 | ||||||||
MIRT671634 | FBXO36 | F-box protein 36 | 2 | 2 | ||||||||
MIRT672688 | DNAJC3 | DnaJ heat shock protein family (Hsp40) member C3 | 2 | 2 | ||||||||
MIRT674590 | NMNAT1 | nicotinamide nucleotide adenylyltransferase 1 | 2 | 2 | ||||||||
MIRT676820 | TNFSF15 | TNF superfamily member 15 | 2 | 2 | ||||||||
MIRT676983 | ZNF708 | zinc finger protein 708 | 2 | 2 | ||||||||
MIRT690168 | CARD8 | caspase recruitment domain family member 8 | 2 | 2 | ||||||||
MIRT691010 | CRTC3 | CREB regulated transcription coactivator 3 | 2 | 2 | ||||||||
MIRT691427 | PRICKLE4 | prickle planar cell polarity protein 4 | 2 | 2 | ||||||||
MIRT699838 | SCD | stearoyl-CoA desaturase | 2 | 2 | ||||||||
MIRT701354 | NR4A3 | nuclear receptor subfamily 4 group A member 3 | 2 | 2 | ||||||||
MIRT705947 | ACY1 | aminoacylase 1 | 2 | 2 | ||||||||
MIRT705987 | ABHD14A-ACY1 | ABHD14A-ACY1 readthrough | 2 | 2 | ||||||||
MIRT716296 | PAX1 | paired box 1 | 2 | 2 | ||||||||
MIRT718471 | TMEM151A | transmembrane protein 151A | 2 | 2 |