Aliases hsa_circ_0005267 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr14:76633005-76647192:+
CircRNA type . Gene ID ENSG00000242952.1
Gene Name RPSAP3 Detection pipeline .
Sample Type Hs68_RNase; Hs68_control; K562; Hepg2; Helas3; 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 .
Aliases HSA_CIRCpedia_13159 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr14:76633005-76647192
CircRNA type . Gene ID NA
Gene Name NA Detection pipeline .
Sample Type Liver_N13;Liver_N15;HepG2;Liver_T15;Liver_T3;Liver_T13;Liver_T7;Thyroid;Liver_N14;Parietal;Liver_N12;Stomach;BJ;Cortex;Liver_T14;Liver_N11;Temporal;NHEK;H9;Liver_T10;Diencephalon;Liver_N8;PA1;Liver_T6;Cerebellum;Lung;Liver;Liver_T8;AG04450;Occipital;Liver_N6;Liver_T12;HeLa_S3;Heart;Liver_N3;Forebrain;Liver_N7;K562;Kidney;Liver_T11;A549;GM12878;Hs68;Liver_T21;Liver_N20;Liver_N21;Liver_T19;Liver_N17;Liver_N18;Liver_T17;Liver_T22
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 hsa_circ_0005267 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr14:76633005-76647192:+
CircRNA type N/A Gene ID ENSG00000242952.1
Gene Name RPSAP3 Detection pipeline N/A
Sample Type Primary Great Saphenous Vein Varicosities
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 AACAGGAAGGAAAGAAAGGATGG
Reverse Primer CACTTGGGCAGAAGATTAGGGA
Suggested primers
Product size Left primer Right primer Left GC Right GC Left TM Right TM Left pos Right pos Left size Right size
103 CAATCCCCTGTCTCCCCTTT ACACACACTGCTGGTTTCAC 55 50 58.997 58.905 116 218 20 20
120 TGCAGTTCAATCCCCTGTCT CACTGCTGCTACACACACTG 50 55 58.933 59.136 109 228 20 20
103 TCCCCTGTCTCCCCTTTACT GCTACACACACTGCTGGTTT 55 50 59.202 58.691 119 221 20 20
128 CCTGGATGTTCTTGCCGATG TACCTTGTCGCCCTTCATCA 55 50 58.98 58.728 140 267 20 20
121 TCTCCCCTTTACTCCCTGGA TGGTAAAGAGCCCAGTGTCA 55 50 58.901 58.57 126 246 20 20
128 TTCCTGCAGTTCAATCCCCT GTGTCACTGCTGCTACACAC 50 55 58.924 59.138 105 232 20 20
104 AGTTCAATCCCCTGTCTCCC CACACTGCTGGTTTCACTGG 55 55 58.71 59.335 112 215 20 20
142 CCTGTCTCCCCTTTACTCCC TTGTCGCCCTTCATCATTGG 60 50 58.795 58.537 122 263 20 20
206 GGTCCGTTTCATGTAAGCCT CATTACCTTGTCGCCCTTCA 50 50 57.891 57.892 65 270 20 20
165 ACTCCCTGGATGTTCTTGCC ACGGAACCAAGGTCCCAAA 55 52.632 59.67 59.076 136 300 20 19
154 CCCCTTTACTCCCTGGATGT AGCTGGGATCGACATTACCT 55 50 58.404 58.205 129 282 20 20
132 CCCTTTACTCCCTGGATGTTCT GTCGCCCTTCATCATTGGTAA 50 47.619 59.153 58.361 130 261 22 21
103 CAATCCCCTGTCTCCCCTTT ACACACACTGCTGGTTTCAC 55 50 58.997 58.905 116 218 20 20
128 TTCCTGCAGTTCAATCCCCT GTGTCACTGCTGCTACACAC 50 55 58.924 59.138 105 232 20 20
120 TGCAGTTCAATCCCCTGTCT CACTGCTGCTACACACACTG 50 55 58.933 59.136 109 228 20 20
128 CCTGGATGTTCTTGCCGATG TACCTTGTCGCCCTTCATCA 55 50 58.98 58.728 140 267 20 20
103 TCCCCTGTCTCCCCTTTACT GCTACACACACTGCTGGTTT 55 50 59.202 58.691 119 221 20 20
121 TCTCCCCTTTACTCCCTGGA TGGTAAAGAGCCCAGTGTCA 55 50 58.901 58.57 126 246 20 20
104 AGTTCAATCCCCTGTCTCCC CACACTGCTGGTTTCACTGG 55 55 58.71 59.335 112 215 20 20
142 CCTGTCTCCCCTTTACTCCC TTGTCGCCCTTCATCATTGG 60 50 58.795 58.537 122 263 20 20
154 CCCCTTTACTCCCTGGATGT AGCTGGGATCGACATTACCT 55 50 58.404 58.205 129 282 20 20
132 CCCTTTACTCCCTGGATGTTCT GTCGCCCTTCATCATTGGTAA 50 47.619 59.153 58.361 130 261 22 21
206 GGTCCGTTTCATGTAAGCCT CATTACCTTGTCGCCCTTCA 50 50 57.891 57.892 65 270 20 20
165 ACTCCCTGGATGTTCTTGCC ACGGAACCAAGGTCCCAAA 55 52.632 59.67 59.076 136 300 20 19