Modomics - A Database of RNA Modifications

General Data

RNA Type mRNA
Original Source Sci-ModoM
Transcript ID: ENST00000405303
Gene ID: ENSG00000169762
Gene Name: TAPT1
Sequence (UNICHARACTER ENCODING) GUUGUGCUCGGAACAUGGCGGGCGUCGGCGACGCGGCCGCUCCGGGAGAAGGCGGCGGUGGCGGCGUGGACGGCCCGCAGCGGGACGGCCGCGGCGAGGCGGAGCAGCCGGGCGGCAGCGGCGGACAGGGGCCCCCGCCGGCGCCUCAGCUCACAGAGACGCUGGGCUUCUACGAGAGCGACCGGCGGCGGGAGAGGCGCCGGGGCCGCACAGAGCUUUCAUUGUUGAGGUUCCUCAGUGCUGAACUAACAAGAGGGUACUUCCUUGAACAUAAUGAGGCCAAGUAUACAGAAAGAAGAGAAAGAGUAUACACUUGUUUGCGAAUACCAAGAGAAUUGGAAAAGCUGAUGGUUUUUGGAAUCUUUCUGUGCCUGGAUGCGUUUUUGUAUGUGUUCACCCUGCUUCCUUUAAGAGUUUUCCUGGCACUAUUCAGGCUCCUCACUUUGCCUUGCUAUGGCUUAAGGGACAGACGUUUGCUUCAGCCUGCCCAGGUGUGUGACAUUUUGAAGGGUGUCAUUUUGGUAAUCUGCUAUUUUAUGAUGCACUAUGUUGACUACUCCAUGAUGUACCACCUGAUAAGGGGGCAGUCCGUCAUCAAGCUCUACAUCAUCUACAACAUGCUGGAGGUAGCUGAUCGUCUGUUUUCAUCUUUUGGACAAGACAUAUUAGAUGCUCUCUAUUGGACAGCAACAGAGCCUAAAGAAAGAAAAAGAGCCCACAUUGGGGUGAUUCCUCACUUUUUCAUGGCUGUUCUCUAUGUCUUUUUGCAUGCAAUUCUUAUAAUGGUUCAAGCAACAACUCUCAAUGUAGCUUUUAACUCACACAACAAGUCUUUGCUUACUAUCAUGAUGUCUAAUAAUUUUGUUGAAAUUAAAGGAAGUGUUUUCAAGAAGUUUGAAAAGAACAAUCUCUUUCAAAUGUCAAAUAGCGAUAUUAAGGAACGAUUCACAAAUUAUGUGCUUUUACUGAUAGUGUGUCUAAGAAACAUGGAACAGUUUUCUUGGAAUCCAGAUCAUCUCUGGGUGUUGUUUCCAGAUGUCUGUAUGGUAAUUGCAUCAGAAAUUGCCGUGGAUAUUGUAAAACAUGCCUUUAUUACUAAAUUCAAUGACAUUACUGCAGAUGUCUACAGUGAAUAUAGAGCCAGUCUUGCUUUUGACCUUGUUAGCAGCCGACAGAAAAAUGCAUACACUGAUUACAGUGACUCUGUAGCACGGAGGAUGGGCUUUAUUCCUCUCCCACUAGCUGUUUUACUCAUCAGAGUUGUAACAAGCUCAAUUAAAGUGCAAGGAAUCCUGUCUUAUGCCUGUGUCAUACUCUUCUAUUUUGGGUUGAUAUCCCUGAAAGUACUUAAUAGCAUCGUGCUGUUGGGGAAAUCGUGCCAGUAUGUGAAGGAAGCCAAAAUGGAAGAGAAGCUGUCGAAUCCUCCCGCAACCUGCACUCCAGGCAAGCCGUCCAGUAAAUCACAGAACAAAUGUAAACCCUCUCAAGGCCUUUCCACAGAAGAAAACCUGUCUGCCUCCAUCACCAAACAACCUAUUCAUCAAAAGGAAAAUAUCAUACCAUUACUUGUGACAAGCAAUUCUGAUCAGUUUUUGACAACUCCAGAUGGUGACGAGAAGGЖCAUAACGCAGGЖCAAUUCUGAAUUAAAACACAGAUCCUCAAAGAAAGAUUUGUUAGAGAUAGЖCAGGUUCACAAUUUGUGGAAACCGAAUUGЖCUGAAUCUGUGGCUUCAUGCGCUGAAGAAGCUGGGUCCUGGGGCAACAAGUGCUGUGUUGCCAGGЖCAAAUAGAUGCUAAACAUGGCACUUAAAUAUUUAUUUAAAAЖCUUAAAUUAUUAUUGGCAAGCAAAUCUUAGUAUCUUUCUUCCAGUAAUAUGGCCUGGCUGAGGGUCAGACCACAGGЖCAGGAGCGACCUCCGGCCUUGЖCUGUCUGGGAAGCUUGAUGGAUUAUAAAACUUCCUCCUGCCUGGCCAAGCAGCAGCAUCAUUUCCAGGЖCCCAACAAAGGCAACAUCAAAAUCUGUUUUGCUUUGUCAGUCUGGGCUUCCAGAAUGUUGAAUPUGCCUCAAGGCCUCUUCAGUAUAAGGAAAUACCUGGAAAЖCUGUGAAЖCUUUUACCACGACGUAAUCUUUCCAGUCUCAUACUAUUUUCACAAЖCAGUUUUCAAACGUUACUUCAUCUGCCAAAGCAUUAAAAAAAUUAAACAUAAGUCAAGAUAAAUGUUCUUACCACCAGAAUAACCCUUAAAGAUGUAUCUUAAUUAAUCAGAAUAAAAGGCUACCUUAAAUAAGACAUGAUGAAUAGUAGCAUUUUGUAGGGUUAAAAAAAAAUGCUAAACUAGUUUAUUUAUUAAAAAAAUAAUUAAUGAAGGCUAUGCAUUACUGGGAAAAAUCCUUCAUAAUUUUUCAGUUUACUCUUUAAAGCAAAAUGUGAGCUGUAUGUCAUUUAAUUGGUGGAUAAAACAAAUUUCCUUACAAAAGGGCACUUUUUACACCAAGGAAGCAGAGCAGUGUUAACUUUAAGGUAUACUUAACUGAUUUUGCUUUAAAACUAAUUACUUCAUAAAUUAUUACAGCUAAAAGGAUUCGAUGUUGAACAGGCUGAAAAAUUGUCAAUGUACAAAAUUCAAAACUGUCAACUUUAACUGUAAAGUAAAUGCUCCAAGUGUGUUAGACAGCAUCAUCUUGCUUGGGCUUACCAAAUGCAUUAGUCUUUGUGUUUGGGUCGACAGCGAGUGUGCCUGUGCUGGGGCAGGGUGUGUGUUCUGUGGGAGGGUGUCUGUGGGGAUGUGACUAUCAGGGUGGGCCUGUGCUGGGGAUGGGGCAGGCCUGGGUCUGGAGAGGAUUUUGUGUGAAAGUAAAUGGGGUGUUUGAGGCGUAUGGGUGGCUGUUGGUGUGGGGAGGCAUCUGUGUAUGGCUGUUGGGAACAGCAACCAAAAGGUGCUUUUUGGUUUUAUUUGAGAUGAAGAUUGUGUUUCCGCUUAAUUACUAGUUUGUGGUCUAUAUCAUAGAAGUUAUUUCCCACCCCAUUUUAUCUUGACAACCGUGUUUGCAUUUCUGUAAAACUUCUACAACUUCUGGUGUCAGAACUGUCCAGAAGAUGGUACUGUUAACUGUUAUUUCCUUUGAUGUUUUGAUUUUGAAGUUUAGCUCUCAUGCAAAUGUUUCAGGCGUACAUACAUAGGCAGAAAGCAAUUUUUAGGUGAUUUGUCUGUUUCUUGGAUGAAAUAUAAAGCAAGCUPUAAUGUUCUGACUUGUUCAUUUGAAAUACAAAAAAGUAAGUGAAUUUUAAUGUUUUGCAUUAЖCUAAAGAAAUCUGAAGAUUAAUGUUGAGGAAAUUGUAUGGACAUGCCUUUGUGAAACCAGGAAGUAUUUUAAGUUAAAAAUGAAAAAGGUUUUAAUUGCUUUGUGUGUGUUUUAAUGGAGCCCCAUUUUAGAAUUAUUUUUUCCAUCUCCCUPUACCAACAAAAGGAACAAUGCCACCGUGAAUGGAAUAGUUUGGGGAAAGCUUUGCCAAACACAACCCUGAUUUCAGAGCAGGAACAUGGUUUGGAUAGAUCUUCAGUUCCGCUUGAAUUAUUCUGUUACUGCGCUGUCAUUUUCAGAAGAUUUCCAUUCCUUUGCAGAUGCUGUUGGGAGUUCGGGAUUAUGUUCAUUUCUUCUGUUUUAAUGGCAUUCAGUACUAAUUUUAUAAGUGCAUCUUGUGUGAAUCUCAAUAAAUUCAGUUUUGUAAUCUUUUUUAAAAAGGUCACUGAAUUUAUUUUAAUAUUUACUAUUGUAUUUGGUAGAGUGAAUUUCCCACUGUAUAAUAAGUAUUUAUUUGUAAUUCACAAGUGAUAGAGCUAUCUUAAUUUGAAUUAUUGCUUUGGUCUUAAUGGUGGCAAAAUGUUUAAUUUUGUCUUUGGAAAAAAUAGGCUCGGCCUUGAUUAUAGACCAUUUAAUAUUUCUCAGCAAAUGAAGGUAUUUGCAUUUUACAAGUGUUUUGAAUGUCACACAAAAUAUUUUUCACAUCUGGGAGUCAAGUUCAAGACAGUGCUUUGGUUUUAAAAAAAUCUAAUGAAGGCACAGGAUAGGCCAGACCCUUAUUAGGUUUUCCUUUAGAAUAAGUGUAAAGACCAAGUGUCACUGAUACGCUUGUCCAGAUUUUCUUGUGGACUUUGGCCAGUAUUUAGAGUUUAUAUUCAUGUUACAUAAAGUGAAAGAAACUUGCUAUAAUUAGGCCAUCAAAAUAUAUCCUGCCACUCCUGGUAACUCAGCAGAGGAGGAGAUAAAUUUACAAAAUAAUGUAAUAUCUCUACAUUGUUACAUGUUUUCAACUAUUUUUUAUCAACAAAGAUUUGUUAAUCACUUCCUAUGUGUCAGAAACUGUUCUAAGUGGUGGGAUCAGCAAUGAGCAAGAUAAGUCCCUGUUCGUCUGUGGAAGACUGAUAGGAACAAGUCGAUGAAAUAAUGUCUGCUGGUCACAGAGUGUCCACUGACCAAAUGAUCUCUCAGGCUUAUUUCAGCUCUAAAAUAUAGUUCUUUAAAACGUU
Sequence (SHORT NAMES ENCODING) GUUGUGCUCGGAACAUGGCGGGCGUCGGCGACGCGGCCGCUCCGGGAGAAGGCGGCGGUGGCGGCGUGGACGGCCCGCAGCGGGACGGCCGCGGCGAGGCGGAGCAGCCGGGCGGCAGCGGCGGACAGGGGCCCCCGCCGGCGCCUCAGCUCACAGAGACGCUGGGCUUCUACGAGAGCGACCGGCGGCGGGAGAGGCGCCGGGGCCGCACAGAGCUUUCAUUGUUGAGGUUCCUCAGUGCUGAACUAACAAGAGGGUACUUCCUUGAACAUAAUGAGGCCAAGUAUACAGAAAGAAGAGAAAGAGUAUACACUUGUUUGCGAAUACCAAGAGAAUUGGAAAAGCUGAUGGUUUUUGGAAUCUUUCUGUGCCUGGAUGCGUUUUUGUAUGUGUUCACCCUGCUUCCUUUAAGAGUUUUCCUGGCACUAUUCAGGCUCCUCACUUUGCCUUGCUAUGGCUUAAGGGACAGACGUUUGCUUCAGCCUGCCCAGGUGUGUGACAUUUUGAAGGGUGUCAUUUUGGUAAUCUGCUAUUUUAUGAUGCACUAUGUUGACUACUCCAUGAUGUACCACCUGAUAAGGGGGCAGUCCGUCAUCAAGCUCUACAUCAUCUACAACAUGCUGGAGGUAGCUGAUCGUCUGUUUUCAUCUUUUGGACAAGACAUAUUAGAUGCUCUCUAUUGGACAGCAACAGAGCCUAAAGAAAGAAAAAGAGCCCACAUUGGGGUGAUUCCUCACUUUUUCAUGGCUGUUCUCUAUGUCUUUUUGCAUGCAAUUCUUAUAAUGGUUCAAGCAACAACUCUCAAUGUAGCUUUUAACUCACACAACAAGUCUUUGCUUACUAUCAUGAUGUCUAAUAAUUUUGUUGAAAUUAAAGGAAGUGUUUUCAAGAAGUUUGAAAAGAACAAUCUCUUUCAAAUGUCAAAUAGCGAUAUUAAGGAACGAUUCACAAAUUAUGUGCUUUUACUGAUAGUGUGUCUAAGAAACAUGGAACAGUUUUCUUGGAAUCCAGAUCAUCUCUGGGUGUUGUUUCCAGAUGUCUGUAUGGUAAUUGCAUCAGAAAUUGCCGUGGAUAUUGUAAAACAUGCCUUUAUUACUAAAUUCAAUGACAUUACUGCAGAUGUCUACAGUGAAUAUAGAGCCAGUCUUGCUUUUGACCUUGUUAGCAGCCGACAGAAAAAUGCAUACACUGAUUACAGUGACUCUGUAGCACGGAGGAUGGGCUUUAUUCCUCUCCCACUAGCUGUUUUACUCAUCAGAGUUGUAACAAGCUCAAUUAAAGUGCAAGGAAUCCUGUCUUAUGCCUGUGUCAUACUCUUCUAUUUUGGGUUGAUAUCCCUGAAAGUACUUAAUAGCAUCGUGCUGUUGGGGAAAUCGUGCCAGUAUGUGAAGGAAGCCAAAAUGGAAGAGAAGCUGUCGAAUCCUCCCGCAACCUGCACUCCAGGCAAGCCGUCCAGUAAAUCACAGAACAAAUGUAAACCCUCUCAAGGCCUUUCCACAGAAGAAAACCUGUCUGCCUCCAUCACCAAACAACCUAUUCAUCAAAAGGAAAAUAUCAUACCAUUACUUGUGACAAGCAAUUCUGAUCAGUUUUUGACAACUCCAGAUGGUGACGAGAAGGm6ACAUAACGCAGGm6ACAAUUCUGAAUUAAAACACAGAUCCUCAAAGAAAGAUUUGUUAGAGAUAGm6ACAGGUUCACAAUUUGUGGAAACCGAAUUGm6ACUGAAUCUGUGGCUUCAUGCGCUGAAGAAGCUGGGUCCUGGGGCAACAAGUGCUGUGUUGCCAGGm6ACAAAUAGAUGCUAAACAUGGCACUUAAAUAUUUAUUUAAAAm6ACUUAAAUUAUUAUUGGCAAGCAAAUCUUAGUAUCUUUCUUCCAGUAAUAUGGCCUGGCUGAGGGUCAGACCACAGGm6ACAGGAGCGACCUCCGGCCUUGm6ACUGUCUGGGAAGCUUGAUGGAUUAUAAAACUUCCUCCUGCCUGGCCAAGCAGCAGCAUCAUUUCCAGGm6ACCCAACAAAGGCAACAUCAAAAUCUGUUUUGCUUUGUCAGUCUGGGCUUCCAGAAUGUUGAAUYUGCCUCAAGGCCUCUUCAGUAUAAGGAAAUACCUGGAAAm6ACUGUGAAm6ACUUUUACCACGACGUAAUCUUUCCAGUCUCAUACUAUUUUCACAAm6ACAGUUUUCAAACGUUACUUCAUCUGCCAAAGCAUUAAAAAAAUUAAACAUAAGUCAAGAUAAAUGUUCUUACCACCAGAAUAACCCUUAAAGAUGUAUCUUAAUUAAUCAGAAUAAAAGGCUACCUUAAAUAAGACAUGAUGAAUAGUAGCAUUUUGUAGGGUUAAAAAAAAAUGCUAAACUAGUUUAUUUAUUAAAAAAAUAAUUAAUGAAGGCUAUGCAUUACUGGGAAAAAUCCUUCAUAAUUUUUCAGUUUACUCUUUAAAGCAAAAUGUGAGCUGUAUGUCAUUUAAUUGGUGGAUAAAACAAAUUUCCUUACAAAAGGGCACUUUUUACACCAAGGAAGCAGAGCAGUGUUAACUUUAAGGUAUACUUAACUGAUUUUGCUUUAAAACUAAUUACUUCAUAAAUUAUUACAGCUAAAAGGAUUCGAUGUUGAACAGGCUGAAAAAUUGUCAAUGUACAAAAUUCAAAACUGUCAACUUUAACUGUAAAGUAAAUGCUCCAAGUGUGUUAGACAGCAUCAUCUUGCUUGGGCUUACCAAAUGCAUUAGUCUUUGUGUUUGGGUCGACAGCGAGUGUGCCUGUGCUGGGGCAGGGUGUGUGUUCUGUGGGAGGGUGUCUGUGGGGAUGUGACUAUCAGGGUGGGCCUGUGCUGGGGAUGGGGCAGGCCUGGGUCUGGAGAGGAUUUUGUGUGAAAGUAAAUGGGGUGUUUGAGGCGUAUGGGUGGCUGUUGGUGUGGGGAGGCAUCUGUGUAUGGCUGUUGGGAACAGCAACCAAAAGGUGCUUUUUGGUUUUAUUUGAGAUGAAGAUUGUGUUUCCGCUUAAUUACUAGUUUGUGGUCUAUAUCAUAGAAGUUAUUUCCCACCCCAUUUUAUCUUGACAACCGUGUUUGCAUUUCUGUAAAACUUCUACAACUUCUGGUGUCAGAACUGUCCAGAAGAUGGUACUGUUAACUGUUAUUUCCUUUGAUGUUUUGAUUUUGAAGUUUAGCUCUCAUGCAAAUGUUUCAGGCGUACAUACAUAGGCAGAAAGCAAUUUUUAGGUGAUUUGUCUGUUUCUUGGAUGAAAUAUAAAGCAAGCUYUAAUGUUCUGACUUGUUCAUUUGAAAUACAAAAAAGUAAGUGAAUUUUAAUGUUUUGCAUUAm6ACUAAAGAAAUCUGAAGAUUAAUGUUGAGGAAAUUGUAUGGACAUGCCUUUGUGAAACCAGGAAGUAUUUUAAGUUAAAAAUGAAAAAGGUUUUAAUUGCUUUGUGUGUGUUUUAAUGGAGCCCCAUUUUAGAAUUAUUUUUUCCAUCUCCCUYUACCAACAAAAGGAACAAUGCCACCGUGAAUGGAAUAGUUUGGGGAAAGCUUUGCCAAACACAACCCUGAUUUCAGAGCAGGAACAUGGUUUGGAUAGAUCUUCAGUUCCGCUUGAAUUAUUCUGUUACUGCGCUGUCAUUUUCAGAAGAUUUCCAUUCCUUUGCAGAUGCUGUUGGGAGUUCGGGAUUAUGUUCAUUUCUUCUGUUUUAAUGGCAUUCAGUACUAAUUUUAUAAGUGCAUCUUGUGUGAAUCUCAAUAAAUUCAGUUUUGUAAUCUUUUUUAAAAAGGUCACUGAAUUUAUUUUAAUAUUUACUAUUGUAUUUGGUAGAGUGAAUUUCCCACUGUAUAAUAAGUAUUUAUUUGUAAUUCACAAGUGAUAGAGCUAUCUUAAUUUGAAUUAUUGCUUUGGUCUUAAUGGUGGCAAAAUGUUUAAUUUUGUCUUUGGAAAAAAUAGGCUCGGCCUUGAUUAUAGACCAUUUAAUAUUUCUCAGCAAAUGAAGGUAUUUGCAUUUUACAAGUGUUUUGAAUGUCACACAAAAUAUUUUUCACAUCUGGGAGUCAAGUUCAAGACAGUGCUUUGGUUUUAAAAAAAUCUAAUGAAGGCACAGGAUAGGCCAGACCCUUAUUAGGUUUUCCUUUAGAAUAAGUGUAAAGACCAAGUGUCACUGAUACGCUUGUCCAGAUUUUCUUGUGGACUUUGGCCAGUAUUUAGAGUUUAUAUUCAUGUUACAUAAAGUGAAAGAAACUUGCUAUAAUUAGGCCAUCAAAAUAUAUCCUGCCACUCCUGGUAACUCAGCAGAGGAGGAGAUAAAUUUACAAAAUAAUGUAAUAUCUCUACAUUGUUACAUGUUUUCAACUAUUUUUUAUCAACAAAGAUUUGUUAAUCACUUCCUAUGUGUCAGAAACUGUUCUAAGUGGUGGGAUCAGCAAUGAGCAAGAUAAGUCCCUGUUCGUCUGUGGAAGACUGAUAGGAACAAGUCGAUGAAAUAAUGUCUGCUGGUCACAGAGUGUCCACUGACCAAAUGAUCUCUCAGGCUUAUUUCAGCUCUAAAAUAUAGUUCUUUAAAACGUU
Sequence (MODOMICS CODE ENCODING) GUUGUGCUCGGAACAUGGCGGGCGUCGGCGACGCGGCCGCUCCGGGAGAAGGCGGCGGUGGCGGCGUGGACGGCCCGCAGCGGGACGGCCGCGGCGAGGCGGAGCAGCCGGGCGGCAGCGGCGGACAGGGGCCCCCGCCGGCGCCUCAGCUCACAGAGACGCUGGGCUUCUACGAGAGCGACCGGCGGCGGGAGAGGCGCCGGGGCCGCACAGAGCUUUCAUUGUUGAGGUUCCUCAGUGCUGAACUAACAAGAGGGUACUUCCUUGAACAUAAUGAGGCCAAGUAUACAGAAAGAAGAGAAAGAGUAUACACUUGUUUGCGAAUACCAAGAGAAUUGGAAAAGCUGAUGGUUUUUGGAAUCUUUCUGUGCCUGGAUGCGUUUUUGUAUGUGUUCACCCUGCUUCCUUUAAGAGUUUUCCUGGCACUAUUCAGGCUCCUCACUUUGCCUUGCUAUGGCUUAAGGGACAGACGUUUGCUUCAGCCUGCCCAGGUGUGUGACAUUUUGAAGGGUGUCAUUUUGGUAAUCUGCUAUUUUAUGAUGCACUAUGUUGACUACUCCAUGAUGUACCACCUGAUAAGGGGGCAGUCCGUCAUCAAGCUCUACAUCAUCUACAACAUGCUGGAGGUAGCUGAUCGUCUGUUUUCAUCUUUUGGACAAGACAUAUUAGAUGCUCUCUAUUGGACAGCAACAGAGCCUAAAGAAAGAAAAAGAGCCCACAUUGGGGUGAUUCCUCACUUUUUCAUGGCUGUUCUCUAUGUCUUUUUGCAUGCAAUUCUUAUAAUGGUUCAAGCAACAACUCUCAAUGUAGCUUUUAACUCACACAACAAGUCUUUGCUUACUAUCAUGAUGUCUAAUAAUUUUGUUGAAAUUAAAGGAAGUGUUUUCAAGAAGUUUGAAAAGAACAAUCUCUUUCAAAUGUCAAAUAGCGAUAUUAAGGAACGAUUCACAAAUUAUGUGCUUUUACUGAUAGUGUGUCUAAGAAACAUGGAACAGUUUUCUUGGAAUCCAGAUCAUCUCUGGGUGUUGUUUCCAGAUGUCUGUAUGGUAAUUGCAUCAGAAAUUGCCGUGGAUAUUGUAAAACAUGCCUUUAUUACUAAAUUCAAUGACAUUACUGCAGAUGUCUACAGUGAAUAUAGAGCCAGUCUUGCUUUUGACCUUGUUAGCAGCCGACAGAAAAAUGCAUACACUGAUUACAGUGACUCUGUAGCACGGAGGAUGGGCUUUAUUCCUCUCCCACUAGCUGUUUUACUCAUCAGAGUUGUAACAAGCUCAAUUAAAGUGCAAGGAAUCCUGUCUUAUGCCUGUGUCAUACUCUUCUAUUUUGGGUUGAUAUCCCUGAAAGUACUUAAUAGCAUCGUGCUGUUGGGGAAAUCGUGCCAGUAUGUGAAGGAAGCCAAAAUGGAAGAGAAGCUGUCGAAUCCUCCCGCAACCUGCACUCCAGGCAAGCCGUCCAGUAAAUCACAGAACAAAUGUAAACCCUCUCAAGGCCUUUCCACAGAAGAAAACCUGUCUGCCUCCAUCACCAAACAACCUAUUCAUCAAAAGGAAAAUAUCAUACCAUUACUUGUGACAAGCAAUUCUGAUCAGUUUUUGACAACUCCAGAUGGUGACGAGAAGG2000000006ACAUAACGCAGG2000000006ACAAUUCUGAAUUAAAACACAGAUCCUCAAAGAAAGAUUUGUUAGAGAUAG2000000006ACAGGUUCACAAUUUGUGGAAACCGAAUUG2000000006ACUGAAUCUGUGGCUUCAUGCGCUGAAGAAGCUGGGUCCUGGGGCAACAAGUGCUGUGUUGCCAGG2000000006ACAAAUAGAUGCUAAACAUGGCACUUAAAUAUUUAUUUAAAA2000000006ACUUAAAUUAUUAUUGGCAAGCAAAUCUUAGUAUCUUUCUUCCAGUAAUAUGGCCUGGCUGAGGGUCAGACCACAGG2000000006ACAGGAGCGACCUCCGGCCUUG2000000006ACUGUCUGGGAAGCUUGAUGGAUUAUAAAACUUCCUCCUGCCUGGCCAAGCAGCAGCAUCAUUUCCAGG2000000006ACCCAACAAAGGCAACAUCAAAAUCUGUUUUGCUUUGUCAGUCUGGGCUUCCAGAAUGUUGAAU2000000009UUGCCUCAAGGCCUCUUCAGUAUAAGGAAAUACCUGGAAA2000000006ACUGUGAA2000000006ACUUUUACCACGACGUAAUCUUUCCAGUCUCAUACUAUUUUCACAA2000000006ACAGUUUUCAAACGUUACUUCAUCUGCCAAAGCAUUAAAAAAAUUAAACAUAAGUCAAGAUAAAUGUUCUUACCACCAGAAUAACCCUUAAAGAUGUAUCUUAAUUAAUCAGAAUAAAAGGCUACCUUAAAUAAGACAUGAUGAAUAGUAGCAUUUUGUAGGGUUAAAAAAAAAUGCUAAACUAGUUUAUUUAUUAAAAAAAUAAUUAAUGAAGGCUAUGCAUUACUGGGAAAAAUCCUUCAUAAUUUUUCAGUUUACUCUUUAAAGCAAAAUGUGAGCUGUAUGUCAUUUAAUUGGUGGAUAAAACAAAUUUCCUUACAAAAGGGCACUUUUUACACCAAGGAAGCAGAGCAGUGUUAACUUUAAGGUAUACUUAACUGAUUUUGCUUUAAAACUAAUUACUUCAUAAAUUAUUACAGCUAAAAGGAUUCGAUGUUGAACAGGCUGAAAAAUUGUCAAUGUACAAAAUUCAAAACUGUCAACUUUAACUGUAAAGUAAAUGCUCCAAGUGUGUUAGACAGCAUCAUCUUGCUUGGGCUUACCAAAUGCAUUAGUCUUUGUGUUUGGGUCGACAGCGAGUGUGCCUGUGCUGGGGCAGGGUGUGUGUUCUGUGGGAGGGUGUCUGUGGGGAUGUGACUAUCAGGGUGGGCCUGUGCUGGGGAUGGGGCAGGCCUGGGUCUGGAGAGGAUUUUGUGUGAAAGUAAAUGGGGUGUUUGAGGCGUAUGGGUGGCUGUUGGUGUGGGGAGGCAUCUGUGUAUGGCUGUUGGGAACAGCAACCAAAAGGUGCUUUUUGGUUUUAUUUGAGAUGAAGAUUGUGUUUCCGCUUAAUUACUAGUUUGUGGUCUAUAUCAUAGAAGUUAUUUCCCACCCCAUUUUAUCUUGACAACCGUGUUUGCAUUUCUGUAAAACUUCUACAACUUCUGGUGUCAGAACUGUCCAGAAGAUGGUACUGUUAACUGUUAUUUCCUUUGAUGUUUUGAUUUUGAAGUUUAGCUCUCAUGCAAAUGUUUCAGGCGUACAUACAUAGGCAGAAAGCAAUUUUUAGGUGAUUUGUCUGUUUCUUGGAUGAAAUAUAAAGCAAGCU2000000009UUAAUGUUCUGACUUGUUCAUUUGAAAUACAAAAAAGUAAGUGAAUUUUAAUGUUUUGCAUUA2000000006ACUAAAGAAAUCUGAAGAUUAAUGUUGAGGAAAUUGUAUGGACAUGCCUUUGUGAAACCAGGAAGUAUUUUAAGUUAAAAAUGAAAAAGGUUUUAAUUGCUUUGUGUGUGUUUUAAUGGAGCCCCAUUUUAGAAUUAUUUUUUCCAUCUCCCU2000000009UUACCAACAAAAGGAACAAUGCCACCGUGAAUGGAAUAGUUUGGGGAAAGCUUUGCCAAACACAACCCUGAUUUCAGAGCAGGAACAUGGUUUGGAUAGAUCUUCAGUUCCGCUUGAAUUAUUCUGUUACUGCGCUGUCAUUUUCAGAAGAUUUCCAUUCCUUUGCAGAUGCUGUUGGGAGUUCGGGAUUAUGUUCAUUUCUUCUGUUUUAAUGGCAUUCAGUACUAAUUUUAUAAGUGCAUCUUGUGUGAAUCUCAAUAAAUUCAGUUUUGUAAUCUUUUUUAAAAAGGUCACUGAAUUUAUUUUAAUAUUUACUAUUGUAUUUGGUAGAGUGAAUUUCCCACUGUAUAAUAAGUAUUUAUUUGUAAUUCACAAGUGAUAGAGCUAUCUUAAUUUGAAUUAUUGCUUUGGUCUUAAUGGUGGCAAAAUGUUUAAUUUUGUCUUUGGAAAAAAUAGGCUCGGCCUUGAUUAUAGACCAUUUAAUAUUUCUCAGCAAAUGAAGGUAUUUGCAUUUUACAAGUGUUUUGAAUGUCACACAAAAUAUUUUUCACAUCUGGGAGUCAAGUUCAAGACAGUGCUUUGGUUUUAAAAAAAUCUAAUGAAGGCACAGGAUAGGCCAGACCCUUAUUAGGUUUUCCUUUAGAAUAAGUGUAAAGACCAAGUGUCACUGAUACGCUUGUCCAGAUUUUCUUGUGGACUUUGGCCAGUAUUUAGAGUUUAUAUUCAUGUUACAUAAAGUGAAAGAAACUUGCUAUAAUUAGGCCAUCAAAAUAUAUCCUGCCACUCCUGGUAACUCAGCAGAGGAGGAGAUAAAUUUACAAAAUAAUGUAAUAUCUCUACAUUGUUACAUGUUUUCAACUAUUUUUUAUCAACAAAGAUUUGUUAAUCACUUCCUAUGUGUCAGAAACUGUUCUAAGUGGUGGGAUCAGCAAUGAGCAAGAUAAGUCCCUGUUCGUCUGUGGAAGACUGAUAGGAACAAGUCGAUGAAAUAAUGUCUGCUGGUCACAGAGUGUCCACUGACCAAAUGAUCUCUCAGGCUUAUUUCAGCUCUAAAAUAUAGUUCUUUAAAACGUU

Score Table

Table containing the score explanation. Score identify the level of experimental reliability and evidence so as exaplained in the 2023 release manuscript. Class 1 should be considered as highlyrelevant. Class 2 evidences are considered as Solid, namely large errors are unlikely and minor errors should not undermine the meaning of data. Class 3 is considered as speculative and errors are expected. Class 4 is considered as questionable. Class 5 evidence means that verification and data are still to be collected. Class 6 data cannot be estimated.
Method Classification Score
Multiple direct experimental evidence 1
Direct experimental evidence 2
Inferred based on indirect experimental evidence 3
Predicted computationally 4
Evidence not yet annotated (Unknown) 5
Irrelevant 6

Modification Positions

Table containing the original modifications present in the MODOMICS sequences. Edit locations not originally present in the RNA sequences are marked by their source. Their scores are in third row.

Position in the Sequence 1621 1633 1684 1714 1780 1822 1899 1921 1990 2054 2094 2102 2148 3232 3295 3448
Modification Positions m6A m6A m6A m6A m6A m6A m6A m6A m6A Y m6A m6A m6A Y m6A Y
Genomic Coordinates 4:16163405:- 4:16163393:- 4:16163342:- 4:16163312:- 4:16163246:- 4:16163204:- 4:16163127:- 4:16163105:- 4:16163036:- 4:16162972:- 4:16162932:- 4:16162924:- 4:16162878:- 4:16161794:- 4:16161731:- 4:16161578:-
Level of Experimental Evidence 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3
Level of Experimental Reliability 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3
Source Sci-ModoM Sci-ModoM Sci-ModoM Sci-ModoM Sci-ModoM Sci-ModoM Sci-ModoM Sci-ModoM Sci-ModoM Sci-ModoM Sci-ModoM Sci-ModoM Sci-ModoM Sci-ModoM Sci-ModoM Sci-ModoM
EUFIDs msuJfBpJvM5H
VyCX26p5UBRL
WdHxkJGRmFxn
Lny8GcCeVGc9
 msuJfBpJvM5H
VyCX26p5UBRL
UKen6WEino9G
 msuJfBpJvM5H
VyCX26p5UBRL
Yfn77uLS5tv8
 5FhTyQVy2tKW
aHkqKEJkRYyb
gBgcfFQ5WN9C
Mg9GixDBFQAT
msuJfBpJvM5H
VL7zkHvkfkoB
VyCX26p5UBRL
Lny8GcCeVGc9
UKen6WEino9G
Yfn77uLS5tv8
 gBgcfFQ5WN9C
Mg9GixDBFQAT
msuJfBpJvM5H
VL7zkHvkfkoB
VyCX26p5UBRL
WdHxkJGRmFxn
Lny8GcCeVGc9
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