Aliases hsa_circ_0006127 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr16:30740286-30740893:+
CircRNA type . Gene ID ENSG00000281991.1
Gene Name TMEM265 Detection pipeline .
Sample Type Hs68_RNase; Hs68_control; Nhek; K562; Huvec; Hsmm; Hmec; Hepg2; Helas3; H1hesc; Gm12878; Bj; Ag04450; A549; Nhlf; 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_17450 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr16:30740286-30740893
CircRNA type . Gene ID NA
Gene Name NA Detection pipeline .
Sample Type Liver_T10;Thyroid;Liver_N11;H9;AG04450;BJ;Forebrain;Cerebellum;SH-SY5Y_D2_exp1;HUVEC;Liver_T12;SH-SY5Y_D8_exp2;HeLa_S3;SH-SY5Y_D4_exp1;Liver_N6;SH-SY5Y_D0_exp2;Temporal;HepG2;Liver_N10;Liver_T6;Liver_T7;Liver_N12;Liver_N3;Parietal;PA1;Liver_N14;Liver_N7;Occipital;Liver_N15;Liver_N8;K562;Liver_T15;Stomach;SK_N_SH;Liver;Cortex;GM12878;Heart;Lung;Liver_T3;Liver_T13;SH-SY5Y_D0_exp1;Diencephalon;Liver_T14;Liver_T11;Kidney;NHEK;H1;A549;Liver_N13;Liver_T8;Hs68;Liver_T20;Liver_T19;Liver_N19;Liver_T22;Liver_T21;Liver_N22;Liver_N18;Liver_T17;Liver_N17;Liver_N21;Liver_T18;Liver_N20
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 circ_000373 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr16:30740286-30740893:+
CircRNA type n/a Gene ID ENSG00000281991.1
Gene Name TMEM265 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 .
Pubmed 25624062
Aliases hsa_circRNA_101800 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr16:30740286-30740893:+
CircRNA type exonic Gene ID ENSG00000281991.1
Gene Name TMEM265 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_0006127 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr16:30740286-30740893:+
CircRNA type N/A Gene ID ENSG00000281991.1
Gene Name TMEM265 Detection pipeline N/A
Sample Type Gastric 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 CCTTTGCACCGTATTGTGTG
Reverse Primer GGCAGGGTACAGAAATCCAG
Pubmed 28974900
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 ATCAACTTCAACACGCTGCA TTGGGGCAGGGTACAGAAAT 45 50 58.692 58.919 150 331 20 20
218 TCCAGGAGATGCAGCAGAAG CCCCATGAGCCTCACTAAGT 55 55 59.46 58.792 61 278 20 20
209 CCCAAGGTGCAGGAGAAGT GGGCAGGGTACAGAAATCCA 57.895 55 59.236 59.376 120 328 19 20
103 AACTTCAACACGCTGCAGAC AAAATCCGTTCCAGGCGTTC 50 50 59.342 59.121 153 255 20 20
158 GGAGATCAACTTCAACACGCT TCAGTCCCATACACAGGTGC 47.619 55 58.582 59.387 146 303 21 20
142 CAACACGCTGCAGACCAAG TCCCATACACAGGTGCCAG 57.895 57.895 59.719 59.01 158 299 19 19
177 CCCCAAAAGACTATCCAGGAGA GCTTCCGCTTTTCCTCCAG 50 57.895 58.885 58.825 48 224 22 19
198 CAGGAGAAGTGCCAGCTG GCAGGGTACAGAAATCCAGGA 61.111 52.381 57.702 59.44 129 326 18 21
115 ACGCTGCAGACCAAGCTG CCATGAGCCTCACTAAGTTGG 61.111 52.381 60.668 58.363 162 276 18 21
157 CAGACCAAGCTGCGCCTC AGGGTACAGAAATCCAGGACTT 66.667 45.455 61.124 58.468 168 324 18 22
135 CGCCCAAGGTGCAGGAGA ATCCGTTCCAGGCGTTCAGA 66.667 55 62.021 61.541 118 252 18 20
116 CACAAGCCGCCCAAGGTG CCGCTTCCGCTTTTCCTC 66.667 61.111 61.673 58.821 111 226 18 18
205 CGTCCTTTGCACCGTATTGT TTGGGGCAGGGTACAGAAAT 50 50 58.847 58.919 127 331 20 20
253 CTTTGTCATGCCTCCTGTGG AAAATCCGTTCCAGGCGTTC 55 50 58.829 59.121 3 255 20 20
182 CAATTGGCCTCTGAGCTCTG CCCCATGAGCCTCACTAAGT 55 55 58.619 58.792 97 278 20 20
139 TATGATTGCGGACTCCCTGG GGGCAGGGTACAGAAATCCA 55 55 59.241 59.376 190 328 20 20
155 GTAACATGCGCACCCAGTTC TCAGTCCCATACACAGGTGC 55 55 59.832 59.387 149 303 20 20
113 CAGTATGATTGCGGACTCCC TCCCATACACAGGTGCCAG 55 57.895 58.129 59.01 187 299 20 19
101 GCTCGTCCTTTGCACCGTAT GCTTCCGCTTTTCCTCCAG 55 57.895 60.74 58.825 124 224 20 19
180 GTGTAACATGCGCACCCAG GCAGGGTACAGAAATCCAGGA 57.895 52.381 59.498 59.44 147 326 19 21
110 TCCCTGACTTAAGACTCATCCAG CCATGAGCCTCACTAAGTTGG 47.826 52.381 58.973 58.363 167 276 23 21
202 GGCTCGTCCTTTGCACCG AGGGTACAGAAATCCAGGACTT 66.667 45.455 61.423 58.468 123 324 18 22
154 CCACGTCAGGCAGCCTTC CCGCTTCCGCTTTTCCTC 66.667 61.111 60.744 58.821 73 226 18 18
182 ATGCGCACCCAGTTCCCT CAGGTTGGGGCAGGGTAC 61.111 66.667 61.651 59.645 154 335 18 18
116 AGTTCCCTGACTTAAGACTCATC GCCCCATGAGCCTCACTA 43.478 61.111 57.331 58.353 164 279 23 18
205 CGTCCTTTGCACCGTATTGT TTGGGGCAGGGTACAGAAAT 50 50 58.847 58.919 127 331 20 20
182 CAATTGGCCTCTGAGCTCTG CCCCATGAGCCTCACTAAGT 55 55 58.619 58.792 97 278 20 20
253 CTTTGTCATGCCTCCTGTGG AAAATCCGTTCCAGGCGTTC 55 50 58.829 59.121 3 255 20 20
139 TATGATTGCGGACTCCCTGG GGGCAGGGTACAGAAATCCA 55 55 59.241 59.376 190 328 20 20
155 GTAACATGCGCACCCAGTTC TCAGTCCCATACACAGGTGC 55 55 59.832 59.387 149 303 20 20
101 GCTCGTCCTTTGCACCGTAT GCTTCCGCTTTTCCTCCAG 55 57.895 60.74 58.825 124 224 20 19
113 CAGTATGATTGCGGACTCCC TCCCATACACAGGTGCCAG 55 57.895 58.129 59.01 187 299 20 19
180 GTGTAACATGCGCACCCAG GCAGGGTACAGAAATCCAGGA 57.895 52.381 59.498 59.44 147 326 19 21
154 CCACGTCAGGCAGCCTTC CCGCTTCCGCTTTTCCTC 66.667 61.111 60.744 58.821 73 226 18 18
110 TCCCTGACTTAAGACTCATCCAG CCATGAGCCTCACTAAGTTGG 47.826 52.381 58.973 58.363 167 276 23 21
202 GGCTCGTCCTTTGCACCG AGGGTACAGAAATCCAGGACTT 66.667 45.455 61.423 58.468 123 324 18 22
182 ATGCGCACCCAGTTCCCT CAGGTTGGGGCAGGGTAC 61.111 66.667 61.651 59.645 154 335 18 18
116 AGTTCCCTGACTTAAGACTCATC GCCCCATGAGCCTCACTA 43.478 61.111 57.331 58.353 164 279 23 18
205 CGTCCTTTGCACCGTATTGT TTGGGGCAGGGTACAGAAAT 50 50 58.847 58.919 127 331 20 20
139 TATGATTGCGGACTCCCTGG GGGCAGGGTACAGAAATCCA 55 55 59.241 59.376 190 328 20 20
253 CTTTGTCATGCCTCCTGTGG AAAATCCGTTCCAGGCGTTC 55 50 58.829 59.121 3 255 20 20
182 CAATTGGCCTCTGAGCTCTG CCCCATGAGCCTCACTAAGT 55 55 58.619 58.792 97 278 20 20
155 GTAACATGCGCACCCAGTTC TCAGTCCCATACACAGGTGC 55 55 59.832 59.387 149 303 20 20
113 CAGTATGATTGCGGACTCCC TCCCATACACAGGTGCCAG 55 57.895 58.129 59.01 187 299 20 19
101 GCTCGTCCTTTGCACCGTAT GCTTCCGCTTTTCCTCCAG 55 57.895 60.74 58.825 124 224 20 19
154 CCACGTCAGGCAGCCTTC CCGCTTCCGCTTTTCCTC 66.667 61.111 60.744 58.821 73 226 18 18
182 ATGCGCACCCAGTTCCCT CAGGTTGGGGCAGGGTAC 61.111 66.667 61.651 59.645 154 335 18 18
202 GGCTCGTCCTTTGCACCG AGGGTACAGAAATCCAGGACTT 66.667 45.455 61.423 58.468 123 324 18 22
116 AGTTCCCTGACTTAAGACTCATC GCCCCATGAGCCTCACTA 43.478 61.111 57.331 58.353 164 279 23 18
110 TCCCTGACTTAAGACTCATCCAG CCATGAGCCTCACTAAGTTGG 47.826 52.381 58.973 58.363 167 276 23 21
180 GTGTAACATGCGCACCCAG GCAGGGTACAGAAATCCAGGA 57.895 52.381 59.498 59.44 147 326 19 21