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HERV15

Basic information Differential Expression Stage analysis Survival analysis Correlation analysis

DF ID DF0000161
TE superfamily ERV1
TE class LTR
Species Catarrhini
Length 8751
Kimura value 9.18
Tau index 0.8405
Description ERV1 endogenous retrovirus, HERV15 subfamily
Comment The associated Long Terminal Repeat is LTR15.
Sequence
TTTCTGGNGGCTCAGACCGGGATTGGAGACGACAGATTTACTGTCTCCTTTGCCTGCGGGACTAGAGCCCCGGGGCCGGGGGAGACCCGGCATCCAAGGCGCGCCACGGGGGAGCTTCACCCGGATGGAGACCGGCTCTCCCCGCATCCCGGCGCCCTGCCCGGCAGCGCAACGGAACCGGGGATGGGGCTGCAGGACGATACCAGCACTTCAGGAACCGCGGTAAGGAGNAAGGGCCCAAGGCAGGAAAGCCCGTCCCATAGGGACGAAGGGGAGCTTGATCACCTCCCGGGGACCGACCACTAATCCAACCCAGAGTGGCTGGGGGCGGCAGGAGTGGCCTGCCAATTTGGATGAACCTCGTGTCCCCACTAACAAGTGAAAGTGGTTCACTGGTGGAGAAAATGGGCCGATAGAGCGGCAAGTGCAGCAAGGNAGAGCTTGCTGGCAGGGTGGCAAGAGTGGCTTGCCACCCCAACTGGGAGTGTGTGGGTGCGTGTGAACCTACCCGGGACACGAGAGAGGCTCGTTTCGTCCGATGAGGAGTCCTGGGGTAGGAGTGGTGTGTGTATGTGTGTGAATGTGGGAGCCTAACTAGGCTCACCCGGGACACGAGAGAGGCTCGTTTCGTCCGATGAGGAGTCCTGGGGCAGGGAAGGTGTGTGAAAGAGACGGTCTCGGGAGAGGCCAATGCGGGGAGTGACGTGGGGAGGCACAGATCCCTTAGCGCGGGCTGTGTGCTCCGAGGCGAGTGCGGGGGAAATCAGACCTAGGACGCTGCATACGGCTGATAGGACCAGCTCCACGGCCGCAGCAGGCTGTGACAGGGGAAGGCACGTTCCTGGCTAAGCAGCGTCCGAAACTCCCGTAATAGGACCCGGTCTGGTGGACCCGAGAGTGAAAGTGAGAGTGAAAGTGCGCCGCAAGGGAGGAAATGGGAGGGAAAGCGTCGAAACCGACTCCTTTGGAGTGCATGATAAAGAATTTTAAAAAAGGATTTAGAGGTGATTATGGGATGAAACTGGATGCTCAAAAGTTAAGGACATACTGTGAANTAGANTGGCCCGCTTTCAATGTGGGGTGGCCCNCCGAAGGCACAATAGACAGGGAATTAATTGGCCGTGTGTTTAAGGTGGTCACTGGAGTCGGAGGACAACCAGGACACCCAGACCAGTTTCCCTATATNGACTCTTGGCTCAATGTGGCACAAACTCGCCCCAAGTGGCTACAGCCCTGCCTAGAGGGATATTGCAAGGCATTAGTGGCTCGGGCAGCCCAACCAAAGGAAGCAGAGGAACCTAAAGCCCCTAGCGTCTCCCAGGAAAAGGAATCCCCGAAGCCTCAGCCGAAACCAGTTCTTCAGGCCCCACCTGAGGAAAGGGAATGTCCGCCCCCATATATGTGCCAGTCTACCCGTCTTTGGCCAGAATAAGGCAGGAGGCAGAGTCAGGAGCATCCGGAGAGTCGGGCTCGGAGGAAAGTGAGGCTCAGTCTCCCCCGACCCCAGAGGAACAGAAGCCCCCGTTAGAAAAAAACAAGGAAGATGGACAGGGCGAGGCAGCTGGGCGCCTCCGCTCAGGCCGACCACGGGCTTTGCAGATGCCACTTCGAGAGACCAGGACACAAGTTTATGATGACCAGGGGCAGATACAAGGTGGCCCTAGGCTTTATGTTTATCAGCCTTTCTCCACTACTGATCTCTTAAATTGGAAACAGCACGCCCCCTCCTATACAGAAAAGCCTCAGGCTCTCATTGATTTGGTGAATTCTATTATTATGACACATAACCCGACCTGGCCGGATTGTCAACAACTTTTGCTAACTTTATTTAATACAGAGGAGCATAGGAGAGTTAATCAGGCAGCTCTCAGCTGGTTAGAAGGGGAAGCCCCAGAGGCCACCCCTAACCCACGCCAGTTCGCCGTGGAGCGATACCCAAATGAGGACCCTAACTGGGACCCAAATGAGGCAGGGGACATGGAACGGCTGCAGCTATATAGAAAGGCACTCCTGAACGGGATAAAAGCAGGAGGAAGGAAGGCAATGAATATGAGTAAAATATCAGAAGTGCGCCAAAAGCCTGACGAAAGCCCAAGTGCATTCTATGAAAGGCTTTGTGAGGCATATAGGCTGTACACTCCAATTATTCCAGAGGCTCCTGAAAACCAAAATATGATAAATATGACCTTTGTCAGGCAAGCTCAGGGAGACATAAGACGAAAGCTTCAGAAGCTGGAAGGCTTTGCAGGGAAAAATATTAGTGAACTCCTGGAAATAGCAAACAAAGTATACATAAACCGGGAAGAAGAGGCAGAGAGAAAGGAAGAAAGAAAAACCAGAAATAGAAACAAAGAGACGGCTCAATTTATAGCTGCTGCACTAGCAGAAAGTAACCCTGGATTTGCTAGAGGGCGTGGCCGAGGCAGAGGCCGAGGAAGAGGGCAGACAAGACCGGGAGANGAAAGCCGGTCCCGGTTGGACAGGAACCAATGTGCAAGGTGCAGGCAAATGGGCCACTGGAAAGATGAGTGCCCCGAAAAGGAAAAGGATGGAGATGATGGTCAATGGTCTAACACCCGAGTGCGGCGTTCGGTTGCTAGTCGTGGTGCTTCAAAGGCAGATCCTGATCTGATCGGCTTAGCGGGGGCCGAGAATTTTGAGGACTGAGACAGACCGGGCTCCATCTTTTTAGGCCCCGGGGAGCCTATGGTCTCTATGGAAGTAGGGGGCCGATTAATGGATTTTTTGGTCGATACTGGTGCTGATTTCTCTGTGGTAACTCACCCAATTAGCCCCCCCACAAAGAACTGTGCTACTATCGTAGGGGCTACTGGGGCCAAAGAAAAGAGACCTTTTTGCAAATCCAGGAGATGTGTTATTGGGGGACAAGAAGTGCAGCATGAGTTTCTATATATGCCAAATTGTCCAGTGCCCTTGTTGGGGAGAGACTTACTCCAGAAACTGCAGGCACAAATTTCCTTTACACCTAAAGGGAATATGACNCTGGAGTTTGGAAAGTCNAAGGCAATGGTATTGACTCTAACTGTCCCAAGGGCTGAGGAATGGCGGCTCTATGAACTGTGTGCCAGAAGGCCGCCGGAGCCGGACCTACACAATATGTGGGGAATGCTTTTCAAGGTACCAGGTGTATGGGCTGAGGACAACCCCCCTGGACTTGCTGCAAACAGACCCCCGGTGGTAGTAGAGCTTAACCCTCATGCTGCCCCGGTACGAGTCCGTCAATACCCACTACCCAGAGAGGCAATTGATGGCATAACAAAACATCTAAATCGGCTCTATGAACATGGGATTATAGTAAAATGCAAGTCCTCNTGGAATACTCCTCTGCTGCCCGTGCGCAAGCCAAATGGTGAATACAGGCCAGTGCAGGACCTCCGGGCGGTAAACAAGGCCACTGTCACTATCCATGCCATAGTACCCAACCCATACACAATGTTGGGACAGATTCCTGCTGANGCCACNTGGTTCACGTGTCTGGACTTAAAGGATGCCTTCTTTTGCTTGAGGCTTGCTCCCCAAAGTCAGCCTATATTTGCCTTCCAGTGGGGGCAATCGCAATATACCTGGACAAGGCTGCCGCAAGGGTTTAAGAATTCTCCCACTATCTTCGAGGAGGCTTTGGCTACCGACCTTGAGGCTTTTGCGCCACCTAGTGACAATTGTGTGCTATTACAATACATTGATGATTTGCTATTCGCTGCCCCCANGAGGGAGGAATGCCTCCAAGGAACAGAGAGGCTTCTTCACCTGCTGTGTGAAGCTGGTTACAAAGTGTCCAAGGACAAGGCAAAAGTCTGTTTTCGGGAGGTTGGATATCTAGGATTCATGGTATCCCAAGGCCAGCGCAGGCTTGGAAGTGCACGCAAGGAGGCTGTATGTGCATTGCCCACCCCAGTTACAAGGCGGCAGGTCAGGGAATTTCTAGGCGCGGCGGGATTCTGCCGAATCTGGATTCCAAACTTCTCCCTTATAGCAAGGCCCTTATATGAGGCTACCAAAGGAAAGGAAAGAGAGCCCCTCCTATGGGAAAAGGAACAGGAAAAGGCCTTCAAGGATATAAAGGAAGCTCTCATCCAGGCCCCGGCGCTAGGGTTGCCAGATGTAAAAAAGCCCTTCTTTTTGTATGTGGATGAACGAAAGGGAATGGCAGTCGGAGTCTTAACTCAGTTGTTGGGCTCTTGGCATCGGCCGGTAGCATACTTATCCAAAAGACTGGACTTGGTGGCCTTAGGTTGGCCCCACTGCCTCAGGGCGTTGGCAGCTACCGCAATCCTTATAGAAGATGCCAACAAGCTAGCCCTAGGTCAGAAGTTAATAGTTCGGGTGCCACACGCTGTAGTCACCTTAATGGAGCAAAGAGGACATCGTTGGCTGTCCAACTCTAGAATGCTAAAGTATCAAGGGCTTCTGTGTGAAAATCCCCAGATAACACTAGAGACTGTAAATACCTTGAACCCAGCTACCCTGCTGCCTGTGGAGGAACCCGATTGGAAGGACGGTGGGTTGCCTCACTGCTGGCAGGACCTTCCCCACTGTTGCATAAATACGGTGGACGAAGTGTTCTCGAGCCGGGAAGATCTCAGAGATACCCCCTTGGAGAGCCCAGATGTTGAATACTTCACTGATGGTAGCAGTTTCATAACAGATGGGGTGCGATATGCAGGGTATGCAGTAGTGACCCAACACTCGGTGGTCGAGGCTCAAGCCTTACCTTCTGGGACTTCCGCTCAGAAGGCTGAATTAATAGCATTAACCAGAGCACTGTTATTGGCCAAGGGGAAGAAAGTAAACATATATACTGACTCAAGATATGCTTTTGCAACCCTGCACGCCCATGGGGCAATATACAAAGAGAGAGGACTTTTGACTACTGAAGGAAAAGAAATAAAAAATAAAGAGGAAATTTTGCAATTATTAGAAGCCGTATGGGCTCCAGAGAAGGTGGCTGTCATTCATTGCAAAGGACACCAAATCGGGAAAAGCTATGAGGCGCAGGGCAACAGAAAGGCAGACCGAGAGGCTCGGCGGGCAGCAATGAGCAAGGCTTTACCTGAAGAAAGAACTCTAGCAATGCCTCTCCTTATAGAGCCCCCTTTGCCGGAGGTACCCAATTACTCTTCAAGTGAAAAAGCTTGGTTTGGTCAGGAAACAGGAAAATATATTAAAGGTGGATGGTGGCTGTTCTCTGACGGGAGGCTAGCCGTCCCAGAGACAATAGCCCCAAGGTTTGTGAAGCAGATCCATCAAGGAACACACATTGGAAGGACGGCCCTAGAGACTTTGATAGGTCGGCACTTCTATGTGCCACGGCTCTCTGCCATCACCCGTGCTGTTTGTGAACAATGTCTATCCTGTGCCCGGAATAATCCAAAACAAGGACCTACTCGACCCCCAGGAATTCAGGAAACGGGAGCTGTGCCTTGTGAGAACCTGCTTGTAGACTTTACCGAGTTGCCTCGAGCAGGAGGTTACCGGTATATGCTAGTGTTTGTTTGCACCTTCTCGGGGTGGGTTGAGGCCTTCCCCACCAGGACTGAAAAGGCACGAGAGGTGACAAAGGTGCTACTAAAAGACATCATACCAAGATTTGGGTTGCCTTTAACCCTAGGATCAGACAATGGTCCTGCATTTGTGGCAGAAGTAGTACAACAGCTGACTCAACTTTTAAAGATCAAATGGAAACTGCACACAGCCTACTGACCACAGAGTTCAGGGAAGGTGGAACGGATGAACCGGACACTCAAACAGCTACTAAAAAAGTTTTGCCAGGAAACTCACTTACGATGGGATCAGGTCTTGCCCATGGTCCTCCTCCAGGTCAGGTGTACACCTACAAAACAAACTGGGTATTCGCCCTATGAAATATTGTTCGGAAGGCCACCCCCAATCATTAATCAAATTAGAGGGGATTTAAAGGAGTTAGGAGAGCTAACCCTTAGAAGACAGATGCAGGCTTTAGGAGTGGCAATGCAGGAGGTGCANGGCTGGGTAAGAGAAAGGATACCTATAAGTCTAACAGACCCAGTGCATCCACATAAGCCGGGGGACTCTGTCTGGGTTAAAAGGTGGAATCCAACNACCCTGGGACCCNTACGGGATGGGCCCCATATTGTAATCATGTCTACTCCCACTGCTGTTAAAGTTGCAGGTGTCACACCTTGGATTCACCATAGCCGGCTGAAACCAGCGGCAGCAGTGACTCCCGACGACGACCAGTGGATTAGCCAACAAGACCCAGATCGCCCCACCCGAATAGTCCTACGGCGAAACCCAACCACCGGTAAGAAGGACAACTGCCCTGCTCTGACCACACCGGAGGCTGGTCAGTCTACGCACGGCTGAAGCTTGAGGATCCTGCAAGCTCTGCTCTAGTCACATCCCGGAAGCTGACTAGTCTACGCACAGCCGAAGCTAAGAGGACCATCTCCGGATAAGTAAATGTGGATACAATTTATAAGCCTAGTTATAATTCTGTCAATACTGATTGTTCTGTTGTTACGTTATTACTGCAAATGCTGCAAATGTCTATGCCCAGAGGAAGGTTTGCCATGCCCATGTGTAGTGTAAGCATGTTTCTATTACATACACTGATGTTGTTACCATTTCTGCCTATACTAAAAGGGGAGAAATCTCTAGAAGGATGCCCACACTGTGTACACACTACCTGGGTAAGGAATACCATAGTTAAAACTCTACTGTACCATACCTACTATGAATGTACAGGAACCAAGTTAGGAACCTGCACATACAACCAGACCACCTATTCAGTCTGTGACCCAGGAAATAATCAGCTATATGTATGTTATGACCCTAAGCTCTTACCCTATGAATTCTGGTTTGAGGTACATATTAAATCAGAGAGAGAAAAAGAAGGAGAGCTTATAGCTCGAACCAAAGAAGCCCCTCCCTCCTATAAAGGGCCTATTTCCTTGTACTTTGATGCCTGCCATGCCGCATATGTTCATAATCCTAAAAAACCAGAAGCAGTCTGCAATGGTTTAACACAAGAGAGGCTTAGCAGCAGCAGCCCTAAACATCTGTACGGAGAACCACAAATCGGATGCCCAGACTGTAACATTCAGTGGTCTACGCTAACACAGCTCCAACACTTATATTCAGGAAGGACTGCTCTGCTAAGTAGTATGTCAACCAAACCAAATTGTAAGACAAGGACATGCAATCCTTTAAATTTTACTATCTTAAAGCCAGAGCTACCTTTTTGGTCTACAGGACAGACAGCACTATTACGAGTTGATAGACAAGGAGCAGGCCTTGGAGTTCCACTACTAATTGTCAAAAAGACTAGAAGGACTCAAATGCGTCCAACCCCGCAATTCCGGGTCCATAAGTCATTCTATAAGCATTTTGATCAGCCAGTGCCCGAGCTTCCCCCATCAACCAAAAACTTATTTGCTCAACTAGCTGAAAACATAGCTGGCAGCTTAGGAATTTCCTCATGCTATGTATGTGGAGGAACTAATATGGGGGACCAGTGGCCATGGGAGGCAAAGGAATTAATGCCACAAGATAACTTCACTTCGCCTAACCCTGCCAGTGAACCAACAGCCTCAGCCAGTGTTTGGTTGTTAAAAACCTCCATAATTGGAAAGTACTGTATCGCCCGATGGGGAAAGGCTTTCACAGAGGCAGTAGGAGAAACAACCTGCCTAGGGCAACAGTATTATGATGAGACTAAAAACAAAACTCTATGGAGAAACGCCCAGAACGACTCCTACTTACCAGATCCAAACCCTTTCTCTCGATTCTCTACTCTAAGCCACTCTTGGCATCAGCTAGAGGCTCCAAATGCTTGGAAGGCACCCTCTGGCCTATATTGGATCTGTGGAGCACGGGCATATCGGCAACTGCCGGCTAAATGGACAGGGGCATGTGTGTTAGGAACAATCAAGCCATCCTTCTTTCTAATTCCTCTAAAGCAAGGGGAACTCTTAGGATATCCAGTTTATGATGAAAATAAAAGAACTAGAAGAAGCATAATCACAAAAATAGACACAAATATCAAAAAGGATGTGGACATAGGAGACTGGAAAGATAATGAATGGCCTCCTGAAAGAATCATTAAATACTATGGGCCAGCTACCTGGGCGCAAGACGGGTCATGGGGGTACCGCACCCCAATCTATATGCTCAACCGCATCATAAGGTTGCAGGCAGTCCTTGAAATTATAACCAATGAAACGTCAAGGGCACTAGATTTATTGGCAATACAAGCAACACAAATGAGAAATGCTATATATCAAAATAGATTGGCTTTAGATTACCTCTTAGCCTCAGAAGGAGGAGTATGTGGAAAATTTAATTTAACCAACTGTTGCCTAGAAATCGATGATAATGGCCGAGCTGTCATGGAAATCACAGCTAGAATGCGCAAGTTGGCCCATGTTCCAGTTCAGACTTGGTCCGGGTGGTCCCCGGATTCCTTGTTTGGAGGATGGTTCTCAACCTTTGGAGGATTCAAAACCCTCATTGGTGGGTTCTTGCTTATTCTTGGCATCTGCCTCATCCTCCCTTGCCTTTTACCCCTGTTTATTAGGAGTATTCAGTCAACTATAGAGGCAATAGTAACCCGACACACTACCGCGCAGTTGATGGCATTAACCAAATATCAGCCGCTGCCAGTAGAAGAAGNAGCTCAGCTCCGCGAAGAGGTGGCAAATAGTGGTGCTTTCTATTAACACCTTTGTTATAAAAAGCACCAAAGGGGGGAAA


TF motifs of the concenus sequence

Use FIMO to detect transcription factor motifs in the concenus sequence of the TE family.

TE_family TFBS Start End Strand Score Matched sequence
HERV15 BPC1 2308 2331 + 20.67 GAGGCAGAGAGAAAGGAAGAAAGA
HERV15 CTCF 3664 3696 - 20.39 TTGTAATAGCACACAATTGTCACTAGGTGGCGC
HERV15 ZNF701 8733 8749 + 20.10 AAGCACCAAAGGGGGGA
HERV15 BPC1 6875 6898 + 18.48 ATCAGAGAGAGAAAAAGAAGGAGA
HERV15 AGL27 2336 2349 - 18.37 GTTTCTATTTCTGG
HERV15 daf-12 485 498 + 18.24 GTGTGTGGGTGCGT
HERV15 GLIS2 2792 2805 + 18.18 GCCCCCCCACAAAG
HERV15 ZNF320 7505 7524 + 18.07 GGGGGACCAGTGGCCATGGG
HERV15 KLF3 2410 2419 - 18.00 GGCCACGCCC
HERV15 CTCF 3664 3678 - 17.98 GTCACTAGGTGGCGC

TFBS enrichment in GRCh38

Use Fisher's exact test to perform enrichment analysis of transcription factor binding sites in the TE family of GRCh38.



GTEx

The promoter activity across 46 body sites from The Genotype-Tissue Expression (GTEx) project.



TCGA

The promoter activity across 33 cancer types from The Cancer Genome Atlas (TCGA).