Aliases hsa_circ_0000523 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr14:21971315-21972024:-
CircRNA type . Gene ID ENSG00000165819.7
Gene Name METTL3 Detection pipeline .
Sample Type cd_19; cd_34; Hs68_RNase; Hs68_control; Nhek; K562; Huvec; Hsmm; Hepg2; Helas3; H1hesc; Gm12878; Bj; Ag04450; A549; Sknshra; Mcf7
Method for Estimation RNA-Seq with Rnase R resistance
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Aliases HSA_CIRCpedia_11697 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr14:21971315-21972024
CircRNA type . Gene ID NA
Gene Name NA Detection pipeline .
Sample Type Liver_N3;Parietal;Liver_T7;Liver_T8;SH-SY5Y_D0_exp1;SH-SY5Y_D8_exp2;Liver_N12;Cerebellum;GM12878;Kidney;K562;H9;SH-SY5Y_D4_exp1;Liver_T11;HUVEC;Liver_T12;Lung;Liver_T15;PA1;H1;Liver_N14;AG04450;A549;Liver_N11;Liver_N8;Temporal;Stomach;Liver_N7;Heart;HepG2;BJ;Diencephalon;Liver_N6;SH-SY5Y_D2_exp1;Liver_N13;Liver_N15;HeLa_S3;NHEK;Cortex;Forebrain;Thyroid;Liver_T13;Occipital;Liver;SH-SY5Y_D0_exp2;Liver_N10;SH-SY5Y_D4_exp2;Liver_T3;Liver_T14;Liver_T10;Hs68;Liver_T20;Liver_T22;Liver_T18;Liver_N17;Liver_N19;Liver_N21;Liver_N18;Liver_N20;Liver_T21;Liver_T17;Liver_T19;Liver_N22
Method for Estimation Ribo-;poly(A)-;RNaseR
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Aliases circ_006229 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr14:21971315-21972024:-
CircRNA type n/a Gene ID ENSG00000165819.7
Gene Name METTL3 Detection pipeline Find_circ
Sample Type colorectal cancer
Method for Estimation .
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Aliases chr14:21971315-21972024 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr14:21971315-21972024:n/a
CircRNA type n/a Gene ID ENSG00000165819.7
Gene Name METTL3 Detection pipeline UROBORUS
Sample Type gliomas
Method for Estimation .
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Aliases hsa_circRNA_101316 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr14:21971315-21972024:-
CircRNA type exonic Gene ID ENSG00000165819.7
Gene Name METTL3 Detection pipeline n/a
Sample Type Esophageal cancer
Method for Estimation .
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Aliases circ6229/hsa_circ_0000523 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr14:21971315-21972024:-
CircRNA type N/A Gene ID ENSG00000165819.7
Gene Name METTL3 Detection pipeline N/A
Sample Type Colorectal cancer
Method for Estimation Microarray and Quantitative PCR
Circular RNA status Validated PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer CGGAAGGTTGGAGACAATGC
Reverse Primer GTCCACTAAGGAACAACAGAGCAA
Suggested primers
Product size Left primer Right primer Left GC Right GC Left TM Right TM Left pos Right pos Left size Right size
182 TGAGGCAGCATGTTTCCTTG CACCTCTCTGATCTGGCCTT 50 55 58.75 58.798 66 247 20 20
286 TGGTTCCGATGCTGAAGAGT GGAATCCAGAGGCAGCATTG 50 55 59.023 58.97 108 393 20 20
165 TTTCTTGGCTGGCTCCTTTG ACACCACCTCTCTGATCTGG 50 55 58.669 58.434 87 251 20 20
129 CTCCTTTGCTGGTTCCGATG AACATTGCCCACTGATGCTG 55 50 58.91 59.107 99 227 20 20
150 TGATTTCTTGGCTGGCTCCT GGCCTTAACATTGCCCACTG 50 55 59.299 59.468 84 233 20 20
157 TCCTTGATTTCTTGGCTGGC TCTGGCCTTAACATTGCCCA 50 50 58.451 59.592 80 236 20 20
155 CTTTGCTGGTTCCGATGCTG TTGCTACACCACCTCTCTGA 55 50 59.83 57.99 102 256 20 20
156 GCTGGTTCCGATGCTGAAG AGAAGTTGCTACACCACCTCT 57.895 47.619 58.907 58.67 106 261 19 21
206 AGTCGAGTCCTGTTCTGCAC TCTCCAACCTTCCGTAGTGAC 55 52.381 59.684 59.109 168 373 20 21
116 CTGGCTCCTTTGCTGGTTC CTGTGTCCATCGGCAGAAG 57.895 57.895 58.739 58.24 95 210 19 19
106 GCTACTGTAGTCGAGTCCTGT GAGAAGAAGTTGCTACACCACC 52.381 50 58.642 58.932 160 265 21 22
286 TGGTTCCGATGCTGAAGAGT GGAATCCAGAGGCAGCATTG 50 55 59.023 58.97 108 393 20 20
182 TGAGGCAGCATGTTTCCTTG CACCTCTCTGATCTGGCCTT 50 55 58.75 58.798 66 247 20 20
150 TGATTTCTTGGCTGGCTCCT GGCCTTAACATTGCCCACTG 50 55 59.299 59.468 84 233 20 20
129 CTCCTTTGCTGGTTCCGATG AACATTGCCCACTGATGCTG 55 50 58.91 59.107 99 227 20 20
165 TTTCTTGGCTGGCTCCTTTG ACACCACCTCTCTGATCTGG 50 55 58.669 58.434 87 251 20 20
157 TCCTTGATTTCTTGGCTGGC TCTGGCCTTAACATTGCCCA 50 50 58.451 59.592 80 236 20 20
155 CTTTGCTGGTTCCGATGCTG TTGCTACACCACCTCTCTGA 55 50 59.83 57.99 102 256 20 20
156 GCTGGTTCCGATGCTGAAG AGAAGTTGCTACACCACCTCT 57.895 47.619 58.907 58.67 106 261 19 21
206 AGTCGAGTCCTGTTCTGCAC TCTCCAACCTTCCGTAGTGAC 55 52.381 59.684 59.109 168 373 20 21
116 CTGGCTCCTTTGCTGGTTC CTGTGTCCATCGGCAGAAG 57.895 57.895 58.739 58.24 95 210 19 19
106 GCTACTGTAGTCGAGTCCTGT GAGAAGAAGTTGCTACACCACC 52.381 50 58.642 58.932 160 265 21 22
286 TGGTTCCGATGCTGAAGAGT GGAATCCAGAGGCAGCATTG 50 55 59.023 58.97 108 393 20 20
129 CTCCTTTGCTGGTTCCGATG AACATTGCCCACTGATGCTG 55 50 58.91 59.107 99 227 20 20
182 TGAGGCAGCATGTTTCCTTG CACCTCTCTGATCTGGCCTT 50 55 58.75 58.798 66 247 20 20
150 TGATTTCTTGGCTGGCTCCT GGCCTTAACATTGCCCACTG 50 55 59.299 59.468 84 233 20 20
165 TTTCTTGGCTGGCTCCTTTG ACACCACCTCTCTGATCTGG 50 55 58.669 58.434 87 251 20 20
157 TCCTTGATTTCTTGGCTGGC TCTGGCCTTAACATTGCCCA 50 50 58.451 59.592 80 236 20 20
206 AGTCGAGTCCTGTTCTGCAC TCTCCAACCTTCCGTAGTGAC 55 52.381 59.684 59.109 168 373 20 21
155 CTTTGCTGGTTCCGATGCTG TTGCTACACCACCTCTCTGA 55 50 59.83 57.99 102 256 20 20
156 GCTGGTTCCGATGCTGAAG AGAAGTTGCTACACCACCTCT 57.895 47.619 58.907 58.67 106 261 19 21
116 CTGGCTCCTTTGCTGGTTC CTGTGTCCATCGGCAGAAG 57.895 57.895 58.739 58.24 95 210 19 19
106 GCTACTGTAGTCGAGTCCTGT GAGAAGAAGTTGCTACACCACC 52.381 50 58.642 58.932 160 265 21 22
286 TGGTTCCGATGCTGAAGAGT GGAATCCAGAGGCAGCATTG 50 55 59.023 58.97 108 393 20 20
129 CTCCTTTGCTGGTTCCGATG AACATTGCCCACTGATGCTG 55 50 58.91 59.107 99 227 20 20
182 TGAGGCAGCATGTTTCCTTG CACCTCTCTGATCTGGCCTT 50 55 58.75 58.798 66 247 20 20
165 TTTCTTGGCTGGCTCCTTTG ACACCACCTCTCTGATCTGG 50 55 58.669 58.434 87 251 20 20
157 TCCTTGATTTCTTGGCTGGC TCTGGCCTTAACATTGCCCA 50 50 58.451 59.592 80 236 20 20
150 TGATTTCTTGGCTGGCTCCT GGCCTTAACATTGCCCACTG 50 55 59.299 59.468 84 233 20 20
206 AGTCGAGTCCTGTTCTGCAC TCTCCAACCTTCCGTAGTGAC 55 52.381 59.684 59.109 168 373 20 21
155 CTTTGCTGGTTCCGATGCTG TTGCTACACCACCTCTCTGA 55 50 59.83 57.99 102 256 20 20
116 CTGGCTCCTTTGCTGGTTC CTGTGTCCATCGGCAGAAG 57.895 57.895 58.739 58.24 95 210 19 19
156 GCTGGTTCCGATGCTGAAG AGAAGTTGCTACACCACCTCT 57.895 47.619 58.907 58.67 106 261 19 21
106 GCTACTGTAGTCGAGTCCTGT GAGAAGAAGTTGCTACACCACC 52.381 50 58.642 58.932 160 265 21 22