Aliases hsa_circ_0005785 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr12:110819556-110834257:-
CircRNA type . Gene ID ENSG00000196510.8;ENSG00000258210.1
Gene Name ANAPC7;RP11-478C19.2 Detection pipeline .
Sample Type 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 .
Pubmed 25234927
Aliases HSA_CIRCpedia_6625 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr12:110819556-110834257
CircRNA type . Gene ID NA
Gene Name NA Detection pipeline .
Sample Type Cortex;Parietal;Temporal;Heart;PA1;HeLa_S3;Liver_N14;Thyroid;GM12878;Occipital;Liver;Liver_N10;Lung;AG04450;K562;Cerebellum;Diencephalon;Liver_T7;Liver_T12;H9;Liver_N13;HUVEC;BJ;NHEK;Liver_T10;H1;A549;Hs68
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 .
Pubmed 30172046
Aliases hsa_circRNA_101141 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr12:110819556-110834257:-
CircRNA type exonic Gene ID ENSG00000196510.8;ENSG00000258210.1
Gene Name ANAPC7;RP11-478C19.2 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 .
Pubmed 27465405
Aliases hsa_circ_0005785 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr12:110819556-110834257:-
CircRNA type N/A Gene ID ENSG00000196510.8;ENSG00000258210.1
Gene Name ANAPC7;RP11-478C19.2 Detection pipeline N/A
Sample Type Pancreatic Ductal Adenocarcinoma
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 CTCGCACCTTGTCGCTTAGAT
Reverse Primer TCACAGCATTCCGATATTCCTT
Pubmed 27997903
Suggested primers
Product size Left primer Right primer Left GC Right GC Left TM Right TM Left pos Right pos Left size Right size
255 TGAATGGCCTTGGCTCCTAA CCCCACCTCAGAAGTACCAG 50 60 59.001 59.095 134 388 20 20
313 CCCATGTTCCTAAGTGCTGC CCACCTCAGAAGTACCAGCTT 55 52.381 58.902 59.374 74 386 20 21
242 CTAAATAGAGGGCCCGGGAG TCTCCCCACCTCAGAAGTAC 60 55 59.023 57.767 150 391 20 20
154 TTCCTAAGTGCTGCTCCCTT GCATCTACTCCACAAAGTCAGG 50 50 58.638 58.734 80 233 20 22
342 ATTGCTTCTTGGACTCTGCC AGTTATTCTCCCCACCTCAGA 50 47.619 58.168 57.508 56 397 20 21
295 CATGTTCCTAAGTGCTGCTCC AGCTTTTGGTGTATCATGCAGA 52.381 40.909 58.987 58.311 76 370 21 22
297 TATGGCCTCCCGAAAGTGG GGAATATCGGAATGCTGTGAGT 57.895 45.455 59.088 58.267 34 330 19 22
136 AATAGAGGGCCCGGGAGTAG GCAGAAGAAAGCGCTAAGTAAA 60 40.909 60.179 57.336 153 288 20 22
188 TGGCCTTGGCTCCTAAATAGA ATCGGAATGCTGTGAGTAAGT 47.619 42.857 58.512 57.105 138 325 21 21
155 CCTAAGTGCTGCTCCCTTAAG TCTGCATCTACTCCACAAAGTC 52.381 45.455 58.089 57.806 82 236 21 22
100 TTCAGCTGAATGGCCTTGG ACTCCACAAAGTCAGGTAATTGG 52.632 43.478 58.034 58.602 128 227 19 23
224 ACAAGGTGCGAGCCGTAT GGAAATTCTGCATCTACTCCACA 55.556 43.478 59.021 58.483 19 242 18 23
180 CCGTATGGCCTCCCGAAA AATTGGAGATACAGCTGTCACA 61.111 40.909 59.095 57.442 31 210 18 22
114 GCTGAATGGCCTTGGCTC ACTGGAAATTCTGCATCTACTCC 61.111 43.478 58.796 58.225 132 245 18 23
184 TCCCGAAAGTGGATTATTGCT CCACAAAGTCAGGTAATTGGAGA 42.857 43.478 57.355 58.348 41 224 21 23
255 TGAATGGCCTTGGCTCCTAA CCCCACCTCAGAAGTACCAG 50 60 59.001 59.095 134 388 20 20
313 CCCATGTTCCTAAGTGCTGC CCACCTCAGAAGTACCAGCTT 55 52.381 58.902 59.374 74 386 20 21
154 TTCCTAAGTGCTGCTCCCTT GCATCTACTCCACAAAGTCAGG 50 50 58.638 58.734 80 233 20 22
242 CTAAATAGAGGGCCCGGGAG TCTCCCCACCTCAGAAGTAC 60 55 59.023 57.767 150 391 20 20
342 ATTGCTTCTTGGACTCTGCC AGTTATTCTCCCCACCTCAGA 50 47.619 58.168 57.508 56 397 20 21
297 TATGGCCTCCCGAAAGTGG GGAATATCGGAATGCTGTGAGT 57.895 45.455 59.088 58.267 34 330 19 22
295 CATGTTCCTAAGTGCTGCTCC AGCTTTTGGTGTATCATGCAGA 52.381 40.909 58.987 58.311 76 370 21 22
188 TGGCCTTGGCTCCTAAATAGA ATCGGAATGCTGTGAGTAAGT 47.619 42.857 58.512 57.105 138 325 21 21
100 TTCAGCTGAATGGCCTTGG ACTCCACAAAGTCAGGTAATTGG 52.632 43.478 58.034 58.602 128 227 19 23
136 AATAGAGGGCCCGGGAGTAG GCAGAAGAAAGCGCTAAGTAAA 60 40.909 60.179 57.336 153 288 20 22
224 ACAAGGTGCGAGCCGTAT GGAAATTCTGCATCTACTCCACA 55.556 43.478 59.021 58.483 19 242 18 23
155 CCTAAGTGCTGCTCCCTTAAG TCTGCATCTACTCCACAAAGTC 52.381 45.455 58.089 57.806 82 236 21 22
180 CCGTATGGCCTCCCGAAA AATTGGAGATACAGCTGTCACA 61.111 40.909 59.095 57.442 31 210 18 22
114 GCTGAATGGCCTTGGCTC ACTGGAAATTCTGCATCTACTCC 61.111 43.478 58.796 58.225 132 245 18 23
184 TCCCGAAAGTGGATTATTGCT CCACAAAGTCAGGTAATTGGAGA 42.857 43.478 57.355 58.348 41 224 21 23
255 TGAATGGCCTTGGCTCCTAA CCCCACCTCAGAAGTACCAG 50 60 59.001 59.095 134 388 20 20
242 CTAAATAGAGGGCCCGGGAG TCTCCCCACCTCAGAAGTAC 60 55 59.023 57.767 150 391 20 20
313 CCCATGTTCCTAAGTGCTGC CCACCTCAGAAGTACCAGCTT 55 52.381 58.902 59.374 74 386 20 21
154 TTCCTAAGTGCTGCTCCCTT GCATCTACTCCACAAAGTCAGG 50 50 58.638 58.734 80 233 20 22
295 CATGTTCCTAAGTGCTGCTCC AGCTTTTGGTGTATCATGCAGA 52.381 40.909 58.987 58.311 76 370 21 22
297 TATGGCCTCCCGAAAGTGG GGAATATCGGAATGCTGTGAGT 57.895 45.455 59.088 58.267 34 330 19 22
342 ATTGCTTCTTGGACTCTGCC AGTTATTCTCCCCACCTCAGA 50 47.619 58.168 57.508 56 397 20 21
188 TGGCCTTGGCTCCTAAATAGA ATCGGAATGCTGTGAGTAAGT 47.619 42.857 58.512 57.105 138 325 21 21
100 TTCAGCTGAATGGCCTTGG ACTCCACAAAGTCAGGTAATTGG 52.632 43.478 58.034 58.602 128 227 19 23
180 CCGTATGGCCTCCCGAAA AATTGGAGATACAGCTGTCACA 61.111 40.909 59.095 57.442 31 210 18 22
224 ACAAGGTGCGAGCCGTAT GGAAATTCTGCATCTACTCCACA 55.556 43.478 59.021 58.483 19 242 18 23
114 GCTGAATGGCCTTGGCTC ACTGGAAATTCTGCATCTACTCC 61.111 43.478 58.796 58.225 132 245 18 23
155 CCTAAGTGCTGCTCCCTTAAG TCTGCATCTACTCCACAAAGTC 52.381 45.455 58.089 57.806 82 236 21 22
136 AATAGAGGGCCCGGGAGTAG GCAGAAGAAAGCGCTAAGTAAA 60 40.909 60.179 57.336 153 288 20 22
184 TCCCGAAAGTGGATTATTGCT CCACAAAGTCAGGTAATTGGAGA 42.857 43.478 57.355 58.348 41 224 21 23
313 CCCATGTTCCTAAGTGCTGC CCACCTCAGAAGTACCAGCTT 55 52.381 58.902 59.374 74 386 20 21
255 TGAATGGCCTTGGCTCCTAA CCCCACCTCAGAAGTACCAG 50 60 59.001 59.095 134 388 20 20
154 TTCCTAAGTGCTGCTCCCTT GCATCTACTCCACAAAGTCAGG 50 50 58.638 58.734 80 233 20 22
342 ATTGCTTCTTGGACTCTGCC AGTTATTCTCCCCACCTCAGA 50 47.619 58.168 57.508 56 397 20 21
242 CTAAATAGAGGGCCCGGGAG TCTCCCCACCTCAGAAGTAC 60 55 59.023 57.767 150 391 20 20
295 CATGTTCCTAAGTGCTGCTCC AGCTTTTGGTGTATCATGCAGA 52.381 40.909 58.987 58.311 76 370 21 22
297 TATGGCCTCCCGAAAGTGG GGAATATCGGAATGCTGTGAGT 57.895 45.455 59.088 58.267 34 330 19 22
155 CCTAAGTGCTGCTCCCTTAAG TCTGCATCTACTCCACAAAGTC 52.381 45.455 58.089 57.806 82 236 21 22
224 ACAAGGTGCGAGCCGTAT GGAAATTCTGCATCTACTCCACA 55.556 43.478 59.021 58.483 19 242 18 23
100 TTCAGCTGAATGGCCTTGG ACTCCACAAAGTCAGGTAATTGG 52.632 43.478 58.034 58.602 128 227 19 23
180 CCGTATGGCCTCCCGAAA AATTGGAGATACAGCTGTCACA 61.111 40.909 59.095 57.442 31 210 18 22
114 GCTGAATGGCCTTGGCTC ACTGGAAATTCTGCATCTACTCC 61.111 43.478 58.796 58.225 132 245 18 23
188 TGGCCTTGGCTCCTAAATAGA ATCGGAATGCTGTGAGTAAGT 47.619 42.857 58.512 57.105 138 325 21 21
136 AATAGAGGGCCCGGGAGTAG GCAGAAGAAAGCGCTAAGTAAA 60 40.909 60.179 57.336 153 288 20 22
184 TCCCGAAAGTGGATTATTGCT CCACAAAGTCAGGTAATTGGAGA 42.857 43.478 57.355 58.348 41 224 21 23