Aliases hsa_circ_0005603 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr17:11958205-12016677:+
CircRNA type . Gene ID ENSG00000154957.13
Gene Name ZNF18 Detection pipeline .
Sample Type Hs68_RNase; Hs68_control; Nhek; H1hesc; Gm12878; Bj; Ag04450; A549; Sknshra
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_19260 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr17:11958205-12016677
CircRNA type . Gene ID NA
Gene Name NA Detection pipeline .
Sample Type Liver_N15;Liver_T7;Liver_N13;Liver_N12;Liver_N10;Liver_T8;Diencephalon;Liver_T12;H9;GM12878;Liver_T3;A549;Liver_T11;NHEK;Liver_N14;H1;HeLa_S3;Occipital;Lung;Thyroid;Parietal;PA1;Liver_N6;Liver_N3;Cerebellum;Liver_N11;Forebrain;BJ;Liver_T10;Temporal;Liver;SH-SY5Y_D4_exp2;Stomach;Heart;AG04450;Liver_T14;Liver_N8;Liver_T13;Cortex;Liver_T6;Liver_N7;SH-SY5Y_D2_exp1;SH-SY5Y_D4_exp1;Hs68;Liver_N22;Liver_N20;Liver_N18;Liver_N19;Liver_T18;Liver_T17;Liver_N21;Liver_N17;Liver_T22;Liver_T21
Method for Estimation Ribo-;RNaseR;poly(A)-
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_101983 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr17:11958205-12016677:+
CircRNA type exonic Gene ID ENSG00000154957.13
Gene Name ZNF18 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_0005603 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr17:11958205-12016677:+
CircRNA type N/A Gene ID ENSG00000154957.13
Gene Name ZNF18 Detection pipeline N/A
Sample Type Gliomas
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 ATCAGTGGACAGCTTGTGGA
Reverse Primer TCCTGATGACTCAATGCTGTG
Pubmed 28236760
Suggested primers
Product size Left primer Right primer Left GC Right GC Left TM Right TM Left pos Right pos Left size Right size
104 TCTGTGACTTCGGCATCAGT TCAACTTCAGTGCTTTGCGT 50 45 59.031 58.621 120 223 20 20
137 AGACAAGAGATGCTGGCTGT TGTGTGGGTTTTGAACTCCTG 50 47.619 59.017 58.626 165 301 20 21
102 TAAGCTCTGTGACTTCGGCA CAGTGCTTTGCGTTTACTGC 50 50 59.034 58.601 115 216 20 20
141 ATCAGTGGACAGCTTGTGGA TGGGATTCAGAGTAAACCTTGC 50 45.455 58.941 58.314 134 274 20 22
100 GTGACTTCGGCATCAGTGGA CAACTTCAGTGCTTTGCGTTTA 55 40.909 60.037 58.31 123 222 20 22
111 CCAAGACAAGAGATGCTGGC GGATTCAGAGTAAACCTTGCTGT 55 43.478 58.907 58.672 162 272 20 23
105 ATGGCAGTAAACGCAAAGCA GTGGGTTTTGAACTCCTGTAGG 45 50 59.042 58.853 194 298 20 22
106 ACTTCGGCATCAGTGGACAG TGCAAAATTCAACTTCAGTGCT 55 36.364 60.037 57.61 126 231 20 22
118 GTGGACAGCTTGTGGACTCT TGCTGTAGATTTGAAAGGTGGA 55 40.909 59.605 57.634 138 255 20 22
119 GGCATCAGTGGACAGCTTG AGATTTGAAAGGTGGATTTGCAA 57.895 34.783 58.822 57.45 131 249 19 23
117 CAGCTTGTGGACTCTATTGCC ACCTTGCTGTAGATTTGAAAGGT 52.381 39.13 58.987 58.27 143 259 21 23
111 TTGCCAAGACAAGAGATGCT TTCAGAGTAAACCTTGCTGTAGA 45 39.13 57.426 57.198 159 269 20 23
111 CAAGAGATGCTGGCTGTAGG GGATTGGGATTCAGAGTAAACCT 55 43.478 58.049 57.883 168 278 20 23
135 ACCTTCCAATATTCTTCTGGACA TGCTTTGCGTTTACTGCCAT 39.13 45 57.221 59.042 79 213 23 20
102 TAAGCTCTGTGACTTCGGCA CAGTGCTTTGCGTTTACTGC 50 50 59.034 58.601 115 216 20 20
104 TCTGTGACTTCGGCATCAGT TCAACTTCAGTGCTTTGCGT 50 45 59.031 58.621 120 223 20 20
137 AGACAAGAGATGCTGGCTGT TGTGTGGGTTTTGAACTCCTG 50 47.619 59.017 58.626 165 301 20 21
105 ATGGCAGTAAACGCAAAGCA GTGGGTTTTGAACTCCTGTAGG 45 50 59.042 58.853 194 298 20 22
141 ATCAGTGGACAGCTTGTGGA TGGGATTCAGAGTAAACCTTGC 50 45.455 58.941 58.314 134 274 20 22
111 CCAAGACAAGAGATGCTGGC GGATTCAGAGTAAACCTTGCTGT 55 43.478 58.907 58.672 162 272 20 23
100 GTGACTTCGGCATCAGTGGA CAACTTCAGTGCTTTGCGTTTA 55 40.909 60.037 58.31 123 222 20 22
106 ACTTCGGCATCAGTGGACAG TGCAAAATTCAACTTCAGTGCT 55 36.364 60.037 57.61 126 231 20 22
118 GTGGACAGCTTGTGGACTCT TGCTGTAGATTTGAAAGGTGGA 55 40.909 59.605 57.634 138 255 20 22
117 CAGCTTGTGGACTCTATTGCC ACCTTGCTGTAGATTTGAAAGGT 52.381 39.13 58.987 58.27 143 259 21 23
135 ACCTTCCAATATTCTTCTGGACA TGCTTTGCGTTTACTGCCAT 39.13 45 57.221 59.042 79 213 23 20
111 CAAGAGATGCTGGCTGTAGG GGATTGGGATTCAGAGTAAACCT 55 43.478 58.049 57.883 168 278 20 23
119 GGCATCAGTGGACAGCTTG AGATTTGAAAGGTGGATTTGCAA 57.895 34.783 58.822 57.45 131 249 19 23
111 TTGCCAAGACAAGAGATGCT TTCAGAGTAAACCTTGCTGTAGA 45 39.13 57.426 57.198 159 269 20 23
104 TCTGTGACTTCGGCATCAGT TCAACTTCAGTGCTTTGCGT 50 45 59.031 58.621 120 223 20 20
102 TAAGCTCTGTGACTTCGGCA CAGTGCTTTGCGTTTACTGC 50 50 59.034 58.601 115 216 20 20
141 ATCAGTGGACAGCTTGTGGA TGGGATTCAGAGTAAACCTTGC 50 45.455 58.941 58.314 134 274 20 22
137 AGACAAGAGATGCTGGCTGT TGTGTGGGTTTTGAACTCCTG 50 47.619 59.017 58.626 165 301 20 21
105 ATGGCAGTAAACGCAAAGCA GTGGGTTTTGAACTCCTGTAGG 45 50 59.042 58.853 194 298 20 22
111 CCAAGACAAGAGATGCTGGC GGATTCAGAGTAAACCTTGCTGT 55 43.478 58.907 58.672 162 272 20 23
118 GTGGACAGCTTGTGGACTCT TGCTGTAGATTTGAAAGGTGGA 55 40.909 59.605 57.634 138 255 20 22
106 ACTTCGGCATCAGTGGACAG TGCAAAATTCAACTTCAGTGCT 55 36.364 60.037 57.61 126 231 20 22
100 GTGACTTCGGCATCAGTGGA CAACTTCAGTGCTTTGCGTTTA 55 40.909 60.037 58.31 123 222 20 22
117 CAGCTTGTGGACTCTATTGCC ACCTTGCTGTAGATTTGAAAGGT 52.381 39.13 58.987 58.27 143 259 21 23
111 CAAGAGATGCTGGCTGTAGG GGATTGGGATTCAGAGTAAACCT 55 43.478 58.049 57.883 168 278 20 23
135 ACCTTCCAATATTCTTCTGGACA TGCTTTGCGTTTACTGCCAT 39.13 45 57.221 59.042 79 213 23 20
119 GGCATCAGTGGACAGCTTG AGATTTGAAAGGTGGATTTGCAA 57.895 34.783 58.822 57.45 131 249 19 23
111 TTGCCAAGACAAGAGATGCT TTCAGAGTAAACCTTGCTGTAGA 45 39.13 57.426 57.198 159 269 20 23
104 TCTGTGACTTCGGCATCAGT TCAACTTCAGTGCTTTGCGT 50 45 59.031 58.621 120 223 20 20
102 TAAGCTCTGTGACTTCGGCA CAGTGCTTTGCGTTTACTGC 50 50 59.034 58.601 115 216 20 20
137 AGACAAGAGATGCTGGCTGT TGTGTGGGTTTTGAACTCCTG 50 47.619 59.017 58.626 165 301 20 21
105 ATGGCAGTAAACGCAAAGCA GTGGGTTTTGAACTCCTGTAGG 45 50 59.042 58.853 194 298 20 22
141 ATCAGTGGACAGCTTGTGGA TGGGATTCAGAGTAAACCTTGC 50 45.455 58.941 58.314 134 274 20 22
111 CCAAGACAAGAGATGCTGGC GGATTCAGAGTAAACCTTGCTGT 55 43.478 58.907 58.672 162 272 20 23
100 GTGACTTCGGCATCAGTGGA CAACTTCAGTGCTTTGCGTTTA 55 40.909 60.037 58.31 123 222 20 22
117 CAGCTTGTGGACTCTATTGCC ACCTTGCTGTAGATTTGAAAGGT 52.381 39.13 58.987 58.27 143 259 21 23
106 ACTTCGGCATCAGTGGACAG TGCAAAATTCAACTTCAGTGCT 55 36.364 60.037 57.61 126 231 20 22
118 GTGGACAGCTTGTGGACTCT TGCTGTAGATTTGAAAGGTGGA 55 40.909 59.605 57.634 138 255 20 22
135 ACCTTCCAATATTCTTCTGGACA TGCTTTGCGTTTACTGCCAT 39.13 45 57.221 59.042 79 213 23 20
119 GGCATCAGTGGACAGCTTG AGATTTGAAAGGTGGATTTGCAA 57.895 34.783 58.822 57.45 131 249 19 23
111 CAAGAGATGCTGGCTGTAGG GGATTGGGATTCAGAGTAAACCT 55 43.478 58.049 57.883 168 278 20 23
111 TTGCCAAGACAAGAGATGCT TTCAGAGTAAACCTTGCTGTAGA 45 39.13 57.426 57.198 159 269 20 23