Aliases hsa_circ_0000677 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr16:16101672-16162159:+
CircRNA type . Gene ID ENSG00000091262.15
Gene Name ABCC6 Detection pipeline .
Sample Type cd_19
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_16557 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr16:16101672-16162159
CircRNA type . Gene ID NA
Gene Name NA Detection pipeline .
Sample Type A549;Liver_N11;Liver_N20
Method for Estimation poly(A)-;Ribo-
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Pubmed 30172046
Aliases hsa_circ_0000677/hsa_circ_001569/circABCC Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr16:16101672-16162159:+
CircRNA type N/A Gene ID ENSG00000091262.15
Gene Name ABCC6 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 TCCCCTGAACATTCTCCCCAT
Reverse Primer GAAAGCACTTGGTGAAGTCGG
Pubmed 27058418
Suggested primers
Product size Left primer Right primer Left GC Right GC Left TM Right TM Left pos Right pos Left size Right size
142 CGTGTCTTTGGCCTTGTTCA GAGGACCGTGTTCTGAAAGC 50 55 58.979 58.851 124 265 20 20
156 TTCCCCTGAACATTCTCCCC AGTAGAAGGGGAAACAGGCC 55 55 59 59.007 156 311 20 20
123 GACAGCCTTCGTGTCTTTGG AAGTCGGGGTTGCTGGTATT 55 50 59.132 59.303 115 237 20 20
112 CCGGTTTCCCCTGAACATTC GACCGTGTTCTGAAAGCACT 55 50 58.826 58.417 151 262 20 20
218 GGCCTTGTTCAACATCCTCC TCTGAATGTAGCCTCGGTCA 55 50 58.823 58.153 133 350 20 20
122 TGACGAGAACAACATCCTGGA CATTCCAGTCCTGCACGATG 47.619 55 59.032 58.988 88 209 21 20
163 CTTCGTGTCTTTGGCCTTGT AAAACAAGGCACCCACACG 50 52.632 58.691 59.187 121 283 20 19
119 TCAACATCCTCCGGTTTCCC CGTGTTCTGAAAGCACTTGGT 55 47.619 59.673 59.329 141 259 20 21
109 CTTGTTCAACATCCTCCGGT CTTGGTGAAGTCGGGGTTG 50 57.895 57.815 58.371 136 244 20 19
172 TTCTCCCCATGGTCATCAGC CCTCGGTCATGTCGGGAG 55 66.667 59.452 59.192 168 339 20 18
140 GGTCATCAGCAGCATCGTG AGAGGAAGTAGAAGGGGAAACA 57.895 45.455 58.988 58.129 178 317 19 22
113 TGTCTTTGGCCTTGTTCAACA GAAGTCGGGGTTGCTGGT 42.857 61.111 58.549 59.57 126 238 21 18
142 CGTGTCTTTGGCCTTGTTCA GAGGACCGTGTTCTGAAAGC 50 55 58.979 58.851 124 265 20 20
156 TTCCCCTGAACATTCTCCCC AGTAGAAGGGGAAACAGGCC 55 55 59 59.007 156 311 20 20
123 GACAGCCTTCGTGTCTTTGG AAGTCGGGGTTGCTGGTATT 55 50 59.132 59.303 115 237 20 20
218 GGCCTTGTTCAACATCCTCC TCTGAATGTAGCCTCGGTCA 55 50 58.823 58.153 133 350 20 20
122 TGACGAGAACAACATCCTGGA CATTCCAGTCCTGCACGATG 47.619 55 59.032 58.988 88 209 21 20
112 CCGGTTTCCCCTGAACATTC GACCGTGTTCTGAAAGCACT 55 50 58.826 58.417 151 262 20 20
163 CTTCGTGTCTTTGGCCTTGT AAAACAAGGCACCCACACG 50 52.632 58.691 59.187 121 283 20 19
119 TCAACATCCTCCGGTTTCCC CGTGTTCTGAAAGCACTTGGT 55 47.619 59.673 59.329 141 259 20 21
172 TTCTCCCCATGGTCATCAGC CCTCGGTCATGTCGGGAG 55 66.667 59.452 59.192 168 339 20 18
140 GGTCATCAGCAGCATCGTG AGAGGAAGTAGAAGGGGAAACA 57.895 45.455 58.988 58.129 178 317 19 22
113 TGTCTTTGGCCTTGTTCAACA GAAGTCGGGGTTGCTGGT 42.857 61.111 58.549 59.57 126 238 21 18
109 CTTGTTCAACATCCTCCGGT CTTGGTGAAGTCGGGGTTG 50 57.895 57.815 58.371 136 244 20 19