Aliases hsa_circ_0008797 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr3:119582265-119624699:-
CircRNA type . Gene ID ENSG00000144837.8
Gene Name PLA1A Detection pipeline .
Sample Type Hs68_RNase; Hs68_control; Nhek; K562; 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 .
Aliases HSA_CIRCpedia_43090 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr3:119582265-119624699
CircRNA type . Gene ID NA
Gene Name NA Detection pipeline .
Sample Type Heart;K562;Liver_T14;Liver_T6;Parietal;Temporal;Liver_T15;H9;Liver_N7;PA1;Liver_N15;HepG2;Liver_T11;Liver_T12;Occipital;H1;Forebrain;Thyroid;Liver;Liver_T13;Liver_T8;Liver_N14;Liver_N3;Cerebellum;GM12878;BJ;Diencephalon;A549;Kidney;SH-SY5Y_D4_exp2;SH-SY5Y_D2_exp1;SH-SY5Y_D0_exp2;Liver_N12;NHEK;Stomach;AG04450;Liver_T3;Liver_N13;HeLa_S3;SH-SY5Y_D4_exp1;Cortex;Liver_N11;Lung;Liver_T10;Liver_T7;Hs68;Liver_T20;Liver_T22;Liver_N18;Liver_T21;Liver_T19;Liver_N20;Liver_N22;Liver_N19;Liver_T18;Liver_N17;Liver_T17;Liver_N21
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 circ_003599 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr3:119582265-119624699:-
CircRNA type n/a Gene ID ENSG00000144837.8
Gene Name PLA1A 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 .
Aliases hsa_circRNA_103444 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr3:119582265-119624699:-
CircRNA type exonic Gene ID ENSG00000144837.8
Gene Name PLA1A 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 .
Aliases hsa_circ_0008797 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr3:119582265-119624699:-
CircRNA type N/A Gene ID ENSG00000144837.8
Gene Name PLA1A Detection pipeline N/A
Sample Type Pulmonary tuberculosis
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 AGGGCAGGAGAATGTGACAA
Reverse Primer TCCCCTGGAAATATTGGTTG
Suggested primers
Product size Left primer Right primer Left GC Right GC Left TM Right TM Left pos Right pos Left size Right size
385 TGAAGAGTGCAGGTGTGTCT ATGTATGGTCTGCTGGCTGT 50 50 58.877 59.085 15 399 20 20
244 TTCCAGTGGTGTTAGTCGGG GGGGATAGTGGTGTGGATCA 55 55 59.317 58.493 97 340 20 20
196 ACGGCTACACAGTGCAATTG AGTGGTGTGGATCAGTTGGT 50 50 59.126 58.86 139 334 20 20
273 TTAGTCGGGCAGTTGGTGTA TGTGTTGGCTGAGCTGTTAC 50 50 58.66 58.407 108 380 20 20
307 CACAAGCTTCCAGTGGTGTT TATGGTCTGCTGGCTGTGTG 50 55 58.607 60.036 90 396 20 20
238 TGTTAGTCGGGCAGTTGGT CCAGGGGATAGTGGTGTGG 52.632 63.158 58.861 59.085 106 343 19 19
272 TCGGGCAGTTGGTGTATACT CTGTGTGTTGGCTGAGCTG 50 57.895 58.436 59.053 112 383 20 19
272 TGGTGTTAGTCGGGCAGTT GGCTGAGCTGTTACTAGGACA 52.632 52.381 58.861 59.175 103 374 19 21
196 AGACGGCTACACAGTGCAA TGGTGTGGATCAGTTGGTAGA 52.632 47.619 59.254 58.385 137 332 19 21
294 AGCTTCCAGTGGTGTTAGTC CTGGCTGTGTGTTGGCTG 50 61.111 57.159 58.963 94 387 20 18
214 CGGAAGACCTGCAGTACAAA GTCTGCTGGCTGTGTGTTG 50 57.895 57.836 59.349 179 392 20 19
255 GTGTATACTCCAGCAGACGG GTTGGCTGAGCTGTTACTAGG 55 52.381 57.506 58.378 123 377 20 21
282 TGGGTCCCGTAATTCATCAAA GGGATAGTGGTGTGGATCAGTT 42.857 50 57.277 59.494 58 339 21 22
385 TGAAGAGTGCAGGTGTGTCT ATGTATGGTCTGCTGGCTGT 50 50 58.877 59.085 15 399 20 20
196 ACGGCTACACAGTGCAATTG AGTGGTGTGGATCAGTTGGT 50 50 59.126 58.86 139 334 20 20
244 TTCCAGTGGTGTTAGTCGGG GGGGATAGTGGTGTGGATCA 55 55 59.317 58.493 97 340 20 20
273 TTAGTCGGGCAGTTGGTGTA TGTGTTGGCTGAGCTGTTAC 50 50 58.66 58.407 108 380 20 20
307 CACAAGCTTCCAGTGGTGTT TATGGTCTGCTGGCTGTGTG 50 55 58.607 60.036 90 396 20 20
272 TCGGGCAGTTGGTGTATACT CTGTGTGTTGGCTGAGCTG 50 57.895 58.436 59.053 112 383 20 19
238 TGTTAGTCGGGCAGTTGGT CCAGGGGATAGTGGTGTGG 52.632 63.158 58.861 59.085 106 343 19 19
272 TGGTGTTAGTCGGGCAGTT GGCTGAGCTGTTACTAGGACA 52.632 52.381 58.861 59.175 103 374 19 21
214 CGGAAGACCTGCAGTACAAA GTCTGCTGGCTGTGTGTTG 50 57.895 57.836 59.349 179 392 20 19
255 GTGTATACTCCAGCAGACGG GTTGGCTGAGCTGTTACTAGG 55 52.381 57.506 58.378 123 377 20 21
196 AGACGGCTACACAGTGCAA TGGTGTGGATCAGTTGGTAGA 52.632 47.619 59.254 58.385 137 332 19 21
282 TGGGTCCCGTAATTCATCAAA GGGATAGTGGTGTGGATCAGTT 42.857 50 57.277 59.494 58 339 21 22
294 AGCTTCCAGTGGTGTTAGTC CTGGCTGTGTGTTGGCTG 50 61.111 57.159 58.963 94 387 20 18
385 TGAAGAGTGCAGGTGTGTCT ATGTATGGTCTGCTGGCTGT 50 50 58.877 59.085 15 399 20 20
196 ACGGCTACACAGTGCAATTG AGTGGTGTGGATCAGTTGGT 50 50 59.126 58.86 139 334 20 20
307 CACAAGCTTCCAGTGGTGTT TATGGTCTGCTGGCTGTGTG 50 55 58.607 60.036 90 396 20 20
244 TTCCAGTGGTGTTAGTCGGG GGGGATAGTGGTGTGGATCA 55 55 59.317 58.493 97 340 20 20
272 TCGGGCAGTTGGTGTATACT CTGTGTGTTGGCTGAGCTG 50 57.895 58.436 59.053 112 383 20 19
273 TTAGTCGGGCAGTTGGTGTA TGTGTTGGCTGAGCTGTTAC 50 50 58.66 58.407 108 380 20 20
214 CGGAAGACCTGCAGTACAAA GTCTGCTGGCTGTGTGTTG 50 57.895 57.836 59.349 179 392 20 19
238 TGTTAGTCGGGCAGTTGGT CCAGGGGATAGTGGTGTGG 52.632 63.158 58.861 59.085 106 343 19 19
294 AGCTTCCAGTGGTGTTAGTC CTGGCTGTGTGTTGGCTG 50 61.111 57.159 58.963 94 387 20 18
196 AGACGGCTACACAGTGCAA TGGTGTGGATCAGTTGGTAGA 52.632 47.619 59.254 58.385 137 332 19 21
272 TGGTGTTAGTCGGGCAGTT GGCTGAGCTGTTACTAGGACA 52.632 52.381 58.861 59.175 103 374 19 21
255 GTGTATACTCCAGCAGACGG GTTGGCTGAGCTGTTACTAGG 55 52.381 57.506 58.378 123 377 20 21
282 TGGGTCCCGTAATTCATCAAA GGGATAGTGGTGTGGATCAGTT 42.857 50 57.277 59.494 58 339 21 22
385 TGAAGAGTGCAGGTGTGTCT ATGTATGGTCTGCTGGCTGT 50 50 58.877 59.085 15 399 20 20
196 ACGGCTACACAGTGCAATTG AGTGGTGTGGATCAGTTGGT 50 50 59.126 58.86 139 334 20 20
273 TTAGTCGGGCAGTTGGTGTA TGTGTTGGCTGAGCTGTTAC 50 50 58.66 58.407 108 380 20 20
244 TTCCAGTGGTGTTAGTCGGG GGGGATAGTGGTGTGGATCA 55 55 59.317 58.493 97 340 20 20
238 TGTTAGTCGGGCAGTTGGT CCAGGGGATAGTGGTGTGG 52.632 63.158 58.861 59.085 106 343 19 19
272 TCGGGCAGTTGGTGTATACT CTGTGTGTTGGCTGAGCTG 50 57.895 58.436 59.053 112 383 20 19
307 CACAAGCTTCCAGTGGTGTT TATGGTCTGCTGGCTGTGTG 50 55 58.607 60.036 90 396 20 20
272 TGGTGTTAGTCGGGCAGTT GGCTGAGCTGTTACTAGGACA 52.632 52.381 58.861 59.175 103 374 19 21
214 CGGAAGACCTGCAGTACAAA GTCTGCTGGCTGTGTGTTG 50 57.895 57.836 59.349 179 392 20 19
196 AGACGGCTACACAGTGCAA TGGTGTGGATCAGTTGGTAGA 52.632 47.619 59.254 58.385 137 332 19 21
294 AGCTTCCAGTGGTGTTAGTC CTGGCTGTGTGTTGGCTG 50 61.111 57.159 58.963 94 387 20 18
255 GTGTATACTCCAGCAGACGG GTTGGCTGAGCTGTTACTAGG 55 52.381 57.506 58.378 123 377 20 21
282 TGGGTCCCGTAATTCATCAAA GGGATAGTGGTGTGGATCAGTT 42.857 50 57.277 59.494 58 339 21 22