Aliases HSA_CIRCpedia_27144 Scientific name Homo sapiens (hg38)
Organism Human Genome Locus chr1:107324281-107324922
CircRNA type . Gene ID NA
Gene Name NA Detection pipeline .
Sample Type Cortex;Occipital;Temporal;Cerebellum;Diencephalon;Hs68;Forebrain;Liver_T15;Liver_T8;Liver_T13;Liver_T21
Method for Estimation RNaseR;Ribo-;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 chr1|107324281-107324922 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr1:107324281-107324922:n/a
CircRNA type circRNA Gene ID NA
Gene Name NA Detection pipeline CIRCexplorer2
Sample Type PDLSC osteogenis
Method for Estimation .
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Pubmed 29197342
Aliases circ_007858 Scientific name Homo sapiens (hg38)
Organism Human Genome Locus chr1:107324281-107324922:+
CircRNA type . Gene ID ENSG00000162631.18;NM_001312688
Gene Name NTNG1;NTNG1 Detection pipeline .
Sample Type SRR1363096
Method for Estimation .
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Pubmed .
Aliases circ_007120 Scientific name Homo sapiens (hg38)
Organism Human Genome Locus chr1:107324281-107324922:+
CircRNA type . Gene ID ENSG00000162631.18;NM_001312688
Gene Name NTNG1;NTNG1 Detection pipeline .
Sample Type SRR1363098
Method for Estimation .
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Pubmed .
Aliases circ_008258 Scientific name Homo sapiens (hg38)
Organism Human Genome Locus chr1:107324281-107324922:+
CircRNA type . Gene ID ENSG00000162631.18;NM_001312688
Gene Name NTNG1;NTNG1 Detection pipeline .
Sample Type SRR1363099
Method for Estimation .
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Pubmed .
Aliases circ_007403 Scientific name Homo sapiens (hg38)
Organism Human Genome Locus chr1:107324281-107324922:+
CircRNA type . Gene ID ENSG00000162631.18;NM_001312688
Gene Name NTNG1;NTNG1 Detection pipeline .
Sample Type SRR1363100
Method for Estimation .
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Pubmed .
Aliases circ_007003 Scientific name Homo sapiens (hg38)
Organism Human Genome Locus chr1:107324281-107324922:+
CircRNA type . Gene ID ENSG00000162631.18;NM_001312688
Gene Name NTNG1;NTNG1 Detection pipeline .
Sample Type SRR2131537
Method for Estimation .
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Pubmed .
Aliases circ_006435 Scientific name Homo sapiens (hg38)
Organism Human Genome Locus chr1:107324281-107324922:+
CircRNA type . Gene ID ENSG00000162631.18;NM_001312688
Gene Name NTNG1;NTNG1 Detection pipeline .
Sample Type SRR2131540
Method for Estimation .
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Pubmed .
Aliases circ_006710 Scientific name Homo sapiens (hg38)
Organism Human Genome Locus chr1:107324281-107324922:+
CircRNA type . Gene ID ENSG00000162631.18;NM_001312688
Gene Name NTNG1;NTNG1 Detection pipeline .
Sample Type SRR2131542
Method for Estimation .
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Pubmed .
Aliases circ_005277 Scientific name Homo sapiens (hg38)
Organism Human Genome Locus chr1:107324281-107324922:+
CircRNA type . Gene ID ENSG00000162631.18;NM_001312688
Gene Name NTNG1;NTNG1 Detection pipeline .
Sample Type SRR2131545
Method for Estimation .
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Pubmed .
Aliases circ_003915 Scientific name Homo sapiens (hg38)
Organism Human Genome Locus chr1:107324281-107324922:+
CircRNA type . Gene ID ENSG00000162631.18;NM_001312688
Gene Name NTNG1;NTNG1 Detection pipeline .
Sample Type SRR3084937
Method for Estimation .
Circular RNA status Experimented PCR Details Link to the detailed experimental procedure
Primers (Experimented)
Primers (Validated)
Forward Primer .
Reverse Primer .
Pubmed .
Aliases circRNA NTNG1 Scientific name Homo sapiens (hg19)
Organism Human Genome Locus chr1:107324281-107324922:+
CircRNA type N/A Gene ID ENSG00000162631.18;NM_001312688
Gene Name NTNG1;NTNG1 Detection pipeline N/A
Sample Type PDLSC osteogenis
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 AGACATAAAGGTGCGAGGAAGG
Reverse Primer TTGCACATGTAGGGATTGCC
Pubmed 29197342
Suggested primers
Product size Left primer Right primer Left GC Right GC Left TM Right TM Left pos Right pos Left size Right size
114 GCTGTTAAGACCAGCCGTTG TTGCACATGTAGGGATTGCC 55 50 59.483 58.527 108 221 20 20
103 GATGAGCTACACTTGGCACG GGGTACTCGCATCACACTCA 55 55 58.998 59.469 142 244 20 20
164 ATAAAGGTGCGAGGAAGGGG TGGAGAGGCTTGGGATACTC 55 55 59.453 58.205 184 347 20 20
100 ACACTTGGCACGCTACTTTT CTCAGGGGTACTCGCATCAC 45 60 58.324 59.897 150 249 20 20
109 AGCTACACTTGGCACGCTA GCCAGCTCAGGGGTACTC 52.632 66.667 59.028 59.096 146 254 19 18
131 TCAGACATAAAGGTGCGAGGA CAAAATGTGGAGGGATGTCTTC 47.619 45.455 58.824 57.291 178 308 21 22
126 TTGGCACGCTACTTTTACGC ATCAAACATCAGCTCAGGGG 50 50 59.486 57.568 154 279 20 20
103 GATGAGCTACACTTGGCACG GGGTACTCGCATCACACTCA 55 55 58.998 59.469 142 244 20 20
114 GCTGTTAAGACCAGCCGTTG TTGCACATGTAGGGATTGCC 55 50 59.483 58.527 108 221 20 20
100 ACACTTGGCACGCTACTTTT CTCAGGGGTACTCGCATCAC 45 60 58.324 59.897 150 249 20 20
164 ATAAAGGTGCGAGGAAGGGG TGGAGAGGCTTGGGATACTC 55 55 59.453 58.205 184 347 20 20
126 TTGGCACGCTACTTTTACGC ATCAAACATCAGCTCAGGGG 50 50 59.486 57.568 154 279 20 20
109 AGCTACACTTGGCACGCTA GCCAGCTCAGGGGTACTC 52.632 66.667 59.028 59.096 146 254 19 18
131 TCAGACATAAAGGTGCGAGGA CAAAATGTGGAGGGATGTCTTC 47.619 45.455 58.824 57.291 178 308 21 22
103 GATGAGCTACACTTGGCACG GGGTACTCGCATCACACTCA 55 55 58.998 59.469 142 244 20 20
114 GCTGTTAAGACCAGCCGTTG TTGCACATGTAGGGATTGCC 55 50 59.483 58.527 108 221 20 20
164 ATAAAGGTGCGAGGAAGGGG TGGAGAGGCTTGGGATACTC 55 55 59.453 58.205 184 347 20 20
100 ACACTTGGCACGCTACTTTT CTCAGGGGTACTCGCATCAC 45 60 58.324 59.897 150 249 20 20
126 TTGGCACGCTACTTTTACGC ATCAAACATCAGCTCAGGGG 50 50 59.486 57.568 154 279 20 20
109 AGCTACACTTGGCACGCTA GCCAGCTCAGGGGTACTC 52.632 66.667 59.028 59.096 146 254 19 18
131 TCAGACATAAAGGTGCGAGGA CAAAATGTGGAGGGATGTCTTC 47.619 45.455 58.824 57.291 178 308 21 22
103 GATGAGCTACACTTGGCACG GGGTACTCGCATCACACTCA 55 55 58.998 59.469 142 244 20 20
114 GCTGTTAAGACCAGCCGTTG TTGCACATGTAGGGATTGCC 55 50 59.483 58.527 108 221 20 20
164 ATAAAGGTGCGAGGAAGGGG TGGAGAGGCTTGGGATACTC 55 55 59.453 58.205 184 347 20 20
100 ACACTTGGCACGCTACTTTT CTCAGGGGTACTCGCATCAC 45 60 58.324 59.897 150 249 20 20
109 AGCTACACTTGGCACGCTA GCCAGCTCAGGGGTACTC 52.632 66.667 59.028 59.096 146 254 19 18
126 TTGGCACGCTACTTTTACGC ATCAAACATCAGCTCAGGGG 50 50 59.486 57.568 154 279 20 20
131 TCAGACATAAAGGTGCGAGGA CAAAATGTGGAGGGATGTCTTC 47.619 45.455 58.824 57.291 178 308 21 22
103 GATGAGCTACACTTGGCACG GGGTACTCGCATCACACTCA 55 55 58.998 59.469 142 244 20 20
114 GCTGTTAAGACCAGCCGTTG TTGCACATGTAGGGATTGCC 55 50 59.483 58.527 108 221 20 20
100 ACACTTGGCACGCTACTTTT CTCAGGGGTACTCGCATCAC 45 60 58.324 59.897 150 249 20 20
126 TTGGCACGCTACTTTTACGC ATCAAACATCAGCTCAGGGG 50 50 59.486 57.568 154 279 20 20
109 AGCTACACTTGGCACGCTA GCCAGCTCAGGGGTACTC 52.632 66.667 59.028 59.096 146 254 19 18
164 ATAAAGGTGCGAGGAAGGGG TGGAGAGGCTTGGGATACTC 55 55 59.453 58.205 184 347 20 20
131 TCAGACATAAAGGTGCGAGGA CAAAATGTGGAGGGATGTCTTC 47.619 45.455 58.824 57.291 178 308 21 22
164 ATAAAGGTGCGAGGAAGGGG TGGAGAGGCTTGGGATACTC 55 55 59.453 58.205 184 347 20 20
103 GATGAGCTACACTTGGCACG GGGTACTCGCATCACACTCA 55 55 58.998 59.469 142 244 20 20
114 GCTGTTAAGACCAGCCGTTG TTGCACATGTAGGGATTGCC 55 50 59.483 58.527 108 221 20 20
109 AGCTACACTTGGCACGCTA GCCAGCTCAGGGGTACTC 52.632 66.667 59.028 59.096 146 254 19 18
100 ACACTTGGCACGCTACTTTT CTCAGGGGTACTCGCATCAC 45 60 58.324 59.897 150 249 20 20
126 TTGGCACGCTACTTTTACGC ATCAAACATCAGCTCAGGGG 50 50 59.486 57.568 154 279 20 20
131 TCAGACATAAAGGTGCGAGGA CAAAATGTGGAGGGATGTCTTC 47.619 45.455 58.824 57.291 178 308 21 22
103 GATGAGCTACACTTGGCACG GGGTACTCGCATCACACTCA 55 55 58.998 59.469 142 244 20 20
114 GCTGTTAAGACCAGCCGTTG TTGCACATGTAGGGATTGCC 55 50 59.483 58.527 108 221 20 20
164 ATAAAGGTGCGAGGAAGGGG TGGAGAGGCTTGGGATACTC 55 55 59.453 58.205 184 347 20 20
100 ACACTTGGCACGCTACTTTT CTCAGGGGTACTCGCATCAC 45 60 58.324 59.897 150 249 20 20
109 AGCTACACTTGGCACGCTA GCCAGCTCAGGGGTACTC 52.632 66.667 59.028 59.096 146 254 19 18
131 TCAGACATAAAGGTGCGAGGA CAAAATGTGGAGGGATGTCTTC 47.619 45.455 58.824 57.291 178 308 21 22
126 TTGGCACGCTACTTTTACGC ATCAAACATCAGCTCAGGGG 50 50 59.486 57.568 154 279 20 20
103 GATGAGCTACACTTGGCACG GGGTACTCGCATCACACTCA 55 55 58.998 59.469 142 244 20 20
114 GCTGTTAAGACCAGCCGTTG TTGCACATGTAGGGATTGCC 55 50 59.483 58.527 108 221 20 20
164 ATAAAGGTGCGAGGAAGGGG TGGAGAGGCTTGGGATACTC 55 55 59.453 58.205 184 347 20 20
100 ACACTTGGCACGCTACTTTT CTCAGGGGTACTCGCATCAC 45 60 58.324 59.897 150 249 20 20
126 TTGGCACGCTACTTTTACGC ATCAAACATCAGCTCAGGGG 50 50 59.486 57.568 154 279 20 20
131 TCAGACATAAAGGTGCGAGGA CAAAATGTGGAGGGATGTCTTC 47.619 45.455 58.824 57.291 178 308 21 22
109 AGCTACACTTGGCACGCTA GCCAGCTCAGGGGTACTC 52.632 66.667 59.028 59.096 146 254 19 18
114 GCTGTTAAGACCAGCCGTTG TTGCACATGTAGGGATTGCC 55 50 59.483 58.527 108 221 20 20
103 GATGAGCTACACTTGGCACG GGGTACTCGCATCACACTCA 55 55 58.998 59.469 142 244 20 20
164 ATAAAGGTGCGAGGAAGGGG TGGAGAGGCTTGGGATACTC 55 55 59.453 58.205 184 347 20 20
109 AGCTACACTTGGCACGCTA GCCAGCTCAGGGGTACTC 52.632 66.667 59.028 59.096 146 254 19 18
131 TCAGACATAAAGGTGCGAGGA CAAAATGTGGAGGGATGTCTTC 47.619 45.455 58.824 57.291 178 308 21 22
100 ACACTTGGCACGCTACTTTT CTCAGGGGTACTCGCATCAC 45 60 58.324 59.897 150 249 20 20
126 TTGGCACGCTACTTTTACGC ATCAAACATCAGCTCAGGGG 50 50 59.486 57.568 154 279 20 20
103 GATGAGCTACACTTGGCACG GGGTACTCGCATCACACTCA 55 55 58.998 59.469 142 244 20 20
164 ATAAAGGTGCGAGGAAGGGG TGGAGAGGCTTGGGATACTC 55 55 59.453 58.205 184 347 20 20
114 GCTGTTAAGACCAGCCGTTG TTGCACATGTAGGGATTGCC 55 50 59.483 58.527 108 221 20 20
126 TTGGCACGCTACTTTTACGC ATCAAACATCAGCTCAGGGG 50 50 59.486 57.568 154 279 20 20
100 ACACTTGGCACGCTACTTTT CTCAGGGGTACTCGCATCAC 45 60 58.324 59.897 150 249 20 20
109 AGCTACACTTGGCACGCTA GCCAGCTCAGGGGTACTC 52.632 66.667 59.028 59.096 146 254 19 18
131 TCAGACATAAAGGTGCGAGGA CAAAATGTGGAGGGATGTCTTC 47.619 45.455 58.824 57.291 178 308 21 22
103 GATGAGCTACACTTGGCACG GGGTACTCGCATCACACTCA 55 55 58.998 59.469 142 244 20 20
100 ACACTTGGCACGCTACTTTT CTCAGGGGTACTCGCATCAC 45 60 58.324 59.897 150 249 20 20
109 AGCTACACTTGGCACGCTA GCCAGCTCAGGGGTACTC 52.632 66.667 59.028 59.096 146 254 19 18
114 GCTGTTAAGACCAGCCGTTG TTGCACATGTAGGGATTGCC 55 50 59.483 58.527 108 221 20 20
131 TCAGACATAAAGGTGCGAGGA CAAAATGTGGAGGGATGTCTTC 47.619 45.455 58.824 57.291 178 308 21 22
164 ATAAAGGTGCGAGGAAGGGG TGGAGAGGCTTGGGATACTC 55 55 59.453 58.205 184 347 20 20
126 TTGGCACGCTACTTTTACGC ATCAAACATCAGCTCAGGGG 50 50 59.486 57.568 154 279 20 20
210 ctgaggtgacaatgggcaac CCCCTTCCTGCTTTTCCAAC 55 55 59.116 59.031 29 238 20 20
195 agGATGCCAGACAAGTGCTA CACTCTTCCCCTTCCTGCTT 50 55 58.721 59.305 51 245 20 20
186 GCCAGACAAGTGCTAGTAACC CTTCCCCTTCCTGCTTTTCC 52.381 55 58.652 58.45 56 241 21 20
176 ACCTAGGTGTGGAGAAACAGA ACCCACTATTCACTCTTCCCC 47.619 52.381 58.028 58.803 80 255 21 21
100 TAAGCTGGAGTGAGGTACGT TTCAAGTCACACCCACTATTCAC 50 43.478 57.789 58.614 166 265 20 23
185 GATGCCAGACAAGTGCTAGTA CCCTTCCTGCTTTTCCAACTTA 47.619 45.455 57.473 58.504 53 237 21 22
217 caacccagGATGCCAGAC AGTCACACCCACTATTCACTCT 61.111 45.455 57.674 58.489 45 261 18 22
138 AGCACATCTCTTCTCTAACTGGA ACTATTCACTCTTCCCCTTCCT 43.478 45.455 58.652 57.918 114 251 23 22