错误信息提示:
错误号:12142

错误原因:Table 'hscellor_ncrdeathdb.ncrnadeathmiRNA2targetDB' doesn't exist

错误sql语句:
select * from ncrnadeathmiRNA2targetDB where mirnaSymbol like '%miR-181' and taxid like '10090'
——错误记录被保存!

ncRNADetailInformation
  • Detail Information
  • Functional analysis
miRNA namepre-miRNA familypre-miRNA Sequencemature-miRNAmature sequencepre-miRNA description
miR-181
MI0000697 MIPF0000007 GGUUGCUUCAGUGAACAUUCAACGCUGUCGGUGAGUUUGGAAUUCAAAUAAAAACCAUCGACCGUUGAUUGUACCCUAUAGCUAACC MIMAT0000210

mmu-miR-181a-5p 		AACAUUCAACGCUGUCGGUGAGU
MI0000697 MIPF0000007 GGUUGCUUCAGUGAACAUUCAACGCUGUCGGUGAGUUUGGAAUUCAAAUAAAAACCAUCGACCGUUGAUUGUACCCUAUAGCUAACC MIMAT0000660

mmu-miR-181a-1-3p 		ACCAUCGACCGUUGAUUGUACC
MI0000823 MIPF0000007 UUGAUGGCUGCACUCAACAUUCAUUGCUGUCGGUGGGUUUGAAUGUCAACCAACUCACUGAUCAAUGAAUGCAAACUGCGGGCCAAAAA MIMAT0000673

mmu-miR-181b-5p 		AACAUUCAUUGCUGUCGGUGGGU Mouse miR-181b was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and independently in mouse [2,3]. Themature sequence shown here represents the most commonly cloned form fromlarge-scale cloning studies .
MI0000724 MIPF0000007 GCCAAGGGUUUGGGGGAACAUUCAACCUGUCGGUGAGUUUGGGCAGCUCAGACAAACCAUCGACCGUUGAGUGGACCCCGAGGCCUGGA MIMAT0000674

mmu-miR-181c-5p 		AACAUUCAACCUGUCGGUGAGU Mouse miR-181c was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish and independently in mouse [2,3].
MI0005450 MIPF0000007 ACAAUUAACAUUCAUUGUUGUCGGUGGGUUGUGAGGAGGCAGCCAGACCCACCGGGGGAUGAAUGUCACUGU MIMAT0004324

mmu-miR-181d-5p 		AACAUUCAUUGUUGUCGGUGGGU The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000223 MIPF0000007 CCAUGGAACAUUCAACGCUGUCGGUGAGUUUGGGAUUCAAAAACAAAAAAACCACCGACCGUUGACUGUACCUUGG MIMAT0005443

mmu-miR-181a-2-3p 		ACCGACCGUUGACUGUACCUUG Mouse miR-181a (previously named miR-181 here and in ) was cloned fromvarious mouse tissues in . Expression has also been validated inzebrafish .
MI0000723 MIPF0000007 AGGUCACAAUCAACAUUCAUUGCUGUCGGUGGGUUGAACUGUGUAGAAAAGCUCACUGAACAAUGAAUGCAACUGUGGCC MIMAT0017067

mmu-miR-181b-1-3p 		CUCACUGAACAAUGAAUGC Mouse miR-181b was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and independently in mouse [2,3]. Themature sequence shown here represents the most commonly cloned form fromlarge-scale cloning studies .
MI0000724 MIPF0000007 GCCAAGGGUUUGGGGGAACAUUCAACCUGUCGGUGAGUUUGGGCAGCUCAGACAAACCAUCGACCGUUGAGUGGACCCCGAGGCCUGGA MIMAT0017068

mmu-miR-181c-3p 		ACCAUCGACCGUUGAGUGGACC Mouse miR-181c was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish and independently in mouse [2,3].
MI0000823 MIPF0000007 UUGAUGGCUGCACUCAACAUUCAUUGCUGUCGGUGGGUUUGAAUGUCAACCAACUCACUGAUCAAUGAAUGCAAACUGCGGGCCAAAAA MIMAT0017084

mmu-miR-181b-2-3p 		CUCACUGAUCAAUGAAUGCAAA Mouse miR-181b was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and independently in mouse [2,3]. Themature sequence shown here represents the most commonly cloned form fromlarge-scale cloning studies .
MI0005450 MIPF0000007 ACAAUUAACAUUCAUUGUUGUCGGUGGGUUGUGAGGAGGCAGCCAGACCCACCGGGGGAUGAAUGUCACUGU MIMAT0017264

mmu-miR-181d-3p 		CCCACCGGGGGAUGAAUGUCA The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000697 MIPF0000007 GGUUGCUUCAGUGAACAUUCAACGCUGUCGGUGAGUUUGGAAUUCAAAUAAAAACCAUCGACCGUUGAUUGUACCCUAUAGCUAACC MIMAT0000210

mmu-miR-181a-5p 		AACAUUCAACGCUGUCGGUGAGU
MI0000697 MIPF0000007 GGUUGCUUCAGUGAACAUUCAACGCUGUCGGUGAGUUUGGAAUUCAAAUAAAAACCAUCGACCGUUGAUUGUACCCUAUAGCUAACC MIMAT0000660

mmu-miR-181a-1-3p 		ACCAUCGACCGUUGAUUGUACC
MI0000823 MIPF0000007 UUGAUGGCUGCACUCAACAUUCAUUGCUGUCGGUGGGUUUGAAUGUCAACCAACUCACUGAUCAAUGAAUGCAAACUGCGGGCCAAAAA MIMAT0000673

mmu-miR-181b-5p 		AACAUUCAUUGCUGUCGGUGGGU Mouse miR-181b was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and independently in mouse [2,3]. Themature sequence shown here represents the most commonly cloned form fromlarge-scale cloning studies .
MI0000724 MIPF0000007 GCCAAGGGUUUGGGGGAACAUUCAACCUGUCGGUGAGUUUGGGCAGCUCAGACAAACCAUCGACCGUUGAGUGGACCCCGAGGCCUGGA MIMAT0000674

mmu-miR-181c-5p 		AACAUUCAACCUGUCGGUGAGU Mouse miR-181c was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish and independently in mouse [2,3].
MI0005450 MIPF0000007 ACAAUUAACAUUCAUUGUUGUCGGUGGGUUGUGAGGAGGCAGCCAGACCCACCGGGGGAUGAAUGUCACUGU MIMAT0004324

mmu-miR-181d-5p 		AACAUUCAUUGUUGUCGGUGGGU The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000223 MIPF0000007 CCAUGGAACAUUCAACGCUGUCGGUGAGUUUGGGAUUCAAAAACAAAAAAACCACCGACCGUUGACUGUACCUUGG MIMAT0005443

mmu-miR-181a-2-3p 		ACCGACCGUUGACUGUACCUUG Mouse miR-181a (previously named miR-181 here and in ) was cloned fromvarious mouse tissues in . Expression has also been validated inzebrafish .
MI0000723 MIPF0000007 AGGUCACAAUCAACAUUCAUUGCUGUCGGUGGGUUGAACUGUGUAGAAAAGCUCACUGAACAAUGAAUGCAACUGUGGCC MIMAT0017067

mmu-miR-181b-1-3p 		CUCACUGAACAAUGAAUGC Mouse miR-181b was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and independently in mouse [2,3]. Themature sequence shown here represents the most commonly cloned form fromlarge-scale cloning studies .
MI0000724 MIPF0000007 GCCAAGGGUUUGGGGGAACAUUCAACCUGUCGGUGAGUUUGGGCAGCUCAGACAAACCAUCGACCGUUGAGUGGACCCCGAGGCCUGGA MIMAT0017068

mmu-miR-181c-3p 		ACCAUCGACCGUUGAGUGGACC Mouse miR-181c was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish and independently in mouse [2,3].
MI0000823 MIPF0000007 UUGAUGGCUGCACUCAACAUUCAUUGCUGUCGGUGGGUUUGAAUGUCAACCAACUCACUGAUCAAUGAAUGCAAACUGCGGGCCAAAAA MIMAT0017084

mmu-miR-181b-2-3p 		CUCACUGAUCAAUGAAUGCAAA Mouse miR-181b was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and independently in mouse [2,3]. Themature sequence shown here represents the most commonly cloned form fromlarge-scale cloning studies .
MI0005450 MIPF0000007 ACAAUUAACAUUCAUUGUUGUCGGUGGGUUGUGAGGAGGCAGCCAGACCCACCGGGGGAUGAAUGUCACUGU MIMAT0017264

mmu-miR-181d-3p 		CCCACCGGGGGAUGAAUGUCA The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
link to database TargetScanS 6.2 | MicroCosm | microRNA.org | miRNAMap 2.0
Interacted genes from RAID,miRTarBase
Tgfbi,Rgs4,Usp33,Cadm2,Ube2r2,Prdm4,Zfp512,Tnks,Smad5,Kcns2,Sec11a,Nfia,Morc2a,Naa16,Tmcc1
more » Tgfbi,Rgs4,Usp33,Cadm2,Ube2r2,Prdm4,Zfp512,Tnks,Smad5,Kcns2,Sec11a,Nfia,Morc2a,Naa16,Tmcc1,Crtc1,Aff4,Foxk1,Tmem87b,Ppp3r1,Rhbdf2,Pfkfb3,Zbtb41,Egr1,Dctn4,Fkbp1a,Azin1,Zfp449,Scamp1,Btbd3,A230051G13Rik,Sc5d,Sept3,Acss1,Timp3,Gls,Ppap2b,Grin3a,Lrp11,Samd10,2410042D21Rik,Mboat2,Ank1,Nt5e,Rgs7bp,Zfyve20,Pdrg1,Tor1aip2,Rab27b,Jag1,Ksr1,Snx25,N4bp2,Phactr2,Zic1,Pdia3,Invs,Ank3,Trp53inp2,Ermp1,Apba1,A330008L17Rik,Ogt,Ccdc58,Adam22,Elovl2,Pard6g,Ddit4,Bhlhe40,Ttc3,Pdhb,Nktr,Ndrg1,Scn4b,Zfp568,Oxr1,D0H4S114,Ttc14,Ndrg2,Sfrp1,Fbxw11,Sema4c,Trak1,Aqp4,Trpm3,Slc1a2,Lrrn3,Reep1,Gnaq,Celf2,Stxbp6,Mtap1a,Ctdsp1,Sf3b1,Prpf8,Hk2,Amot,Sec31a,Acvr1b,4933426M11Rik,Plcl2,Epc2,Sypl,Gabra4,Fam115a,Mboat7,Olfm1,Mfap3,Tcra,Epc1,Cd244,Bai3,Bach1,Slc17a5,1200016B10Rik,Wdr41,Slc35d3,Chd7,Tsc22d2,Crebzf,Rsbn1,Tmem167,Nup98,Kcnj10,3110001I22Rik,Tob2,Map2k1,B4galt4,Ctbp1,Agps,Entpd6,Hmgxb4,Zzef1,Fam123b,D630045J12Rik,Psap,Kcna2,Tmem170,Ccnj,Chd9,Golga1,Afap1,Cenpb,Trim2,Blcap,D730040F13Rik,Map3k10,Mxi1,Magel2,Dclk1,Gch1,Robo2,Prpf39,Acsl4,Tmem14a,Srgap1,Osbp2,Mllt6,Spag9,Wdr13,Pitpnc1,Dicer1,Prosapip1,Atp9b,Lrig2,Atl1,Ppp2r2c,Opcml,Zfp62,Zmat3,Csda,Kifc2,Dip2c,C030019I05Rik,Tmem130,Cds2,Nat8l,Slc38a2,Taok1,Ak4,Sc4mol,Lmo3,Usp45,Pisd,Sfrs18,Inpp5a,Sep15,Tbl1xr1,Camta1,Csnk1g1,L1cam,Arf2,Khnyn,Paqr8,Sfr1,Gigyf2,Kif5c,Mpp1,AK010878,Zyg11b,Nr6a1,Gca,Ddx46,Nipa2,Klf2,Tmem168,Intu,Slc9a6,Enpp4,Usp2,9830001H06Rik,Ulk3,Ankrd43,Scai,Gpm6b,Parm1,Celf1,Atp6v1a,Celf5,Col4a1,Ttyh1,Flt1,Erg,Cadm1,Ubash3b,Pdxp,Macf1,Spire1,Pcyox1,Grm5,Sema4f,Dnahc5,Fbxl3,Prox1,Cbx7,Antxr1,Arhgef17,Errfi1,Bptf,Ywhag,Dync1li2,Sulf2,Eme2,Slc24a2,Fcho2,4933411K20Rik,Map3k7,Nr2c2,Tnfaip8l3,Rassf2,Nfat5,Syt2,Twsg1,Cpeb4,Sos1,Eya3,Map3k1,Apba2,Tnpo1,Manea,Nell2,Atp2b2,Casp3,Lpgat1,Astn1,Spin1,Scd1,Kcnk10,Qk,Vezt,Atp5g1,Kbtbd11,Hlf,Crk,Id2,Snx30,Plod3,Gosr1,Ednrb,Luzp2,Dcaf5,Adamts5,Mcart1,Plekha1,Mycn,Arrdc3,Cd69,Cacna1e,Prrg1,Foxp1,Aggf1,Agfg1,Tcf4,Rtn4,E2f3,Lpp,Sfmbt1,Prkci,Sept6,Prrg3,Trim9,Tbpl1,Sprn,Slc22a23,Vamp3,Faim2,Slc4a10,Fbxo11,Fam160a1,Glcci1,Otud7b,Ctsb,Ablim2,Patz1,Adhfe1,Tgfbr3,Pafah1b1,Nid1,Ttyh3,Zfp60,Mcl1,Ptpn11,Fam171a1,Ptpn5,Lrp8,D4Wsu53e,Rdx,Itga4,Dnaja4,Creb1,Angptl2,Ahi1,AI597479,Tsn,Tox,Sdf2l1,Hook3,Tnfaip1,Elavl4,Rnf19a,Pcnx,Pld5,Fam168a,Prrc2c,Fign,Uba2,Ppp1r9a,Fbxl20,Aldh3a2,Otud4,Yod1,Syncrip,Slc23a2,Gpr17,Car2,Tom1l1,Mpp5,Bcl2,Esyt2,Rpap2,Nptn,Ric3,Stk32a,Klf3,Adam11,Arhgap20,Sv2b,Flnb,Pi4k2a,Cab39,Tub,Zdhhc7,Prkcb,Ppfia2,Mfhas1,Oat,Lgi2,Ppp1cb,Mecp2,Gprin3,Mll1,Sash1,Arl8b,St8sia4,Btaf1,S1pr1,Ubtf,Zfp937,Akap17b,Cdan1,Rsrc2,Gabra1,Aicda,Kif1c,Sirpa,Tanc2,Ammecr1,Gria3,Eif2ak2,Hoxa11,Zfp655,Tmeff1,Epha4,Runx1,Myo5a,Fndc3b,Med8,Gnao1,4933434E20Rik,Sema5a,Dlgap2,Fads1,Mll3,Ube2n,Elf2,Pcdh7,Arrdc4,Gja1,Ssr3,Gpm6a,Srgap2,Gpr146,Sema3c,Ptch1,Slc7a11,Tlk1,Cald1,Bicd1,Adam9,Bend6,Rad54l2,Ppip5k2,Fam40b,Eml6,Acvr2a,Rorb,Man2a1,Lasp1,6330527O06Rik,Aplp2,Higd1a,Nsmaf,Ids,Adcy1,Atpaf1,Megf9,Hoxa,Dcx,Ntrk2,Zdhhc17,Gata6,Ptprd,Pkia,Slc50a1,Tnfrsf19,Inpp5e,Wdr37,Lemd3,Elovl5,Dnajc27,Tbr1,Arhgap31,Tpm1,Rod1
KEGG pathways enriched for interacted genes
pathway namepathway descriptiontarget genes enrich in pathwayp-value
mmu04360 Axon guidance Srgap1,Epha4,Ablim2,Robo2,Srgap2,Sema5a,Sema4f,Sema3c,Sema4c,L1cam,Nfat5,Ppp3r1, 1.55E-4
mmu05220 Chronic myeloid leukemia Acvr1b,Ptpn11,E2f3,Sos1,Ctbp1,Map2k1,Crk,Runx1, 1.48E-2
mmu01040 Biosynthesis of unsaturated fatty acids Fads1,Yod1,Elovl5,Elovl2,Scd1, 2.86E-2
mmu04720 Long-term potentiation Prkcb,Adcy1,Grm5,Map2k1,Gnaq,Ppp1cb,Ppp3r1, 4.64E-2
mmu04010 MAPK signaling pathway Ptpn5,Cacna1e,Flnb,Crk,Casp3,Acvr1b,Prkcb,Ntrk2,Map3k7,Sos1,Map2k1,Taok1,Map3k1,Ppp3r1, 6.27E-2
Gene ontology terms enriched for interacted genes
GO termsGO terms descriptiontarget genes enrich in GO termp-value
GO:0048666 neuron development Ank3,Ptpn11,Rorb,Kif5c,Bcl2,Prkci,Sema5a,Sema4f,Creb1,Atl1,Dcx,Atp2b2,Epha4,Mecp2,Ntrk2,Tbr1,Grin3a,Robo2,Dclk1,Gnaq,Runx1,L1cam,Ppp1r9a, 1.88E-6
GO:0030182 neuron differentiation Ank3,Ptpn11,Rorb,Jag1,Creb1,S1pr1,Atp2b2,Epha4,Tbr1,Grin3a,Robo2,Gnaq,Runx1,Kif5c,Bcl2,Prkci,Sema5a,Sema4f,Atl1,Dcx,Mecp2,Ntrk2,Map2k1,Dclk1,L1cam,Ppp1r9a, 1.02E-5
GO:0000904 cell morphogenesis involved in differentiation Ank3,Antxr1,Ptpn11,Kif5c,Bcl2,Sema5a,Sema4f,Creb1,Atl1,Prox1,Dcx,Atp2b2,Epha4,Tbr1,Robo2,Dclk1,L1cam,Ppp3r1, 1.26E-5
GO:0051094 positive regulation of developmental process Hoxa11,Jag1,Bcl2,Aggf1,Tob2,Fndc3b,Id2,Gja1,Prox1,Mecp2,Smad5,Nptn,Gata6,Map2k1,Robo2,Epc1,Runx1,Amot, 1.42E-5
GO:0001568 blood vessel development Qk,Flt1,Dicer1,Sema5a,Ppap2b,Aggf1,S1pr1,Rtn4,Gja1,Prox1,Smad5,Ntrk2,Map3k7,Tgfbr3,Map2k1,Itga4,Sema3c,Chd7,Amot, 2.18E-5
KEGG pathways and Gene Ontology terms enriched for the interacted genes of ncRNA from RAID and miRTarBase.
disease namerelated genesp-value