General Data

RNA Type	mRNA
Original Source	Sci-ModoM
Transcript ID:	ENST00000357799
Gene ID:	ENSG00000163535
Gene Name:	SGO2
Sequence (UNICHARACTER ENCODING)	GCCGAGCUCCCGGAGCUGGGUGGGGGUGCCCCACGCUGAAAGAGAGUGAUGGAGUGCCCAGUGAUGGAAACUGGCUCACUUUUUACCUCAGGAAUUAAGAGACAUUUGAAAGACAAAAGAAUUUCAAAGACUACUAAGUUGAAUGUUUCUCUUGCUUCAAAAAUAAAAACAAAAAUACUAAAUAAUUCUUCUAUUUUCAAAAUAUCUUUAAAGCACAACAACAGGGCAUUAGCUCAGGCUCUUAGUAGAGAAAAAGAGAAUUCUCGAAGAAUUACAACUGAAAAGAUGCUAUUGCAAAAAGAAGUAGAGAAACUGAAUUUUGAGAACACAUUUCUUCGCCUAAAGCUAAAUAACUUGAAUAAGAAGCUUAUAGACAUAGAAGCUCUCAUGAACAAUAACUUGAUAACUGCAAUUGAAAUGAGCAGUCUUUCUGAGUUCCAUCAGAGUUCCUUUCUACUGUCAGCUAGCAAGAAGAAACGAAUUAGUAAACAGUGCAAGUUGAUGCGUCUUCCAUUUGCAAGGGUUCCAUUAACUUCAAAUGAUGAUGAAGAUGAAGAUAAAGAGAAAAUGCAGUGUGACAACAAUAUUAAAUCAAAGACAUUACCUGAUAUUCCCUCUUCAGGAUCAACAACACAACCUUUAUCAACUCAGGAUAAUUCGGAAGUGUUAUUUCUUAAAGAAAAUAAUCAAAAUGUAUAUGGUUUAGAUGAUUCAGAACAUAUUUCUUCUAUAGUUGAUGUACCUCCCAGAGAAAGCCAUUCCCACUCAGACCAAAGUUCUAAGACUUCUCUAAUGAGUGAGAUGAGAAACGCCCAGUCUAUUGGCCGCAGAUGGGAGAAACCAUCUCCUAGUAAUGUGACUGAAAGGAAGAAGCGUGGGUCAUCUUGGGAAUCAAAUAAUCUUUCUGCAGACACUCCCUGUGCAACAGUUUUAGAUAAACAACACAUUUCAAGUCCAGAAUUAAAUUGCAAUAAUGAGAUAAAUGGUCAUACUAAUGAAACAAAUACUGAAAUGCAAAGAAAUAAACAGGAUCUUCCUGGCUUAUCUUCUGAGUCUGCCAGAGAACCUAAUGCAGAGUGCAUGAAUCAAAUUGAGGAUAAUGAUGЖCUUUCAAUUGCAGAAAACUGUGUAUGAUGCUGACAUGGAUUUAACUGCUAGUGAAGUCAGCAAAAUUGUCACAGUCUCAACAGGCAUUAAAAAGAAAAGUAAUAAAAAAACAAAUGAACAUGGAAUGAAAACUUUCAGAAAAGUGAAAGAUUCCAGCUCUGAAAAAAAGAGAGAAAGAUCAAAGAGACAGUUUAAAAAUAGUUCAGAUGUCGAUAUUGGGGAAAAGAUUGAAAACAGGACAGAAAGAUCUGAUGUCCUGGAUGGCAAAAGGGGUGCAGAAGAUCCCGGUUUUAUUUUCAAUAAUGAACAGCUGGCUCAGAUGAAUGAACAGCUGGCUCAGGUGAAUGAЖCUAAAGAAAAUGACCCUUCAAACUGGCUUUGAACAAGGUGACAGAGAAAAUGUACUGUGUAAUAAAAAGGAGAAAAGAAUAACAAAUGAGCAAGAGGAAACAUACUCUUUAUCCCAAAGUUCAGGUAAAUUUCACCAGGAGAGUAAAUUUGAUAAGGGUCAGAAUUCCCUAACUUGUAAUAAAAGUAAAGCUUCUAGACAGACAUUUGUGAUUCACAAAUUAGAAAAAGAUAACUUACUCCCAAACCAAAAGGAUAAAGUAACCAUUUAUGAAAACCUAGACGUCACAAAUGAAUUUCACACAGCCAAUCUUUCCACCAAAGAUAAUGGAAAUUUAUGUGAUUAUGGGACCCACAAUAUAUUGGAUUUGAAAAAGUAUGUCACUGAUAUUCAACCCUCAGAGCAAAAUGAAUCAAACAUUAAUAAGCUUAGAAAGAAAGUAAACCGGAAGACAGAAAUAAUUUCUGGAAUGAACCACAUGUAUGAGGAUAAUGAUAAAGAUGUGGUGCAUGGCCUAAAAAAAGGUAAUUUUUUUUUCAAAACCCAAGAGGAUAAAGAACCUAUCUCUGAAAACAUAGAAGUUUCCAAAGAGCUUCAAAUCCCAGCUCUUUCUACUAGAGAUAAUGAAAAUCAAUGUGACUAUAGGACCCAGAAUGUGUUGGGUUUGCAAAAGCAGAUCACCAAUAUGUACCCCGUUCAGCAAAAUGAAUCAAAAGUUAAUAAGAAGCUUAGGCAGAAAGUAAAUCGGAAGACAGAAAUAAUUUCUGAAGUGAAUCAUUUAGAUAAUGACAAAAGUAUAGAAUACACAGUUAAAAGUCACUCACUCUUUUUAACGCAAAAAGAUAAGGAAAUCAUCCCUGGAAACCUAGAAGACCCAAGUGAGUUUGAAACACCUGCUCUUUCUACCAAAGAUAGUGGAAACCUGUAUGAUUCUGAGAUUCAAAAUGUUUUGGGGGUGAAACAUGGCCAUGAUAUGCAACCUGCUUGUCAAAAUGAUUCAAAAAUAGGUAAGAAGCCUAGACUAAAUGUAUGUCAAAAGUCAGAAAUAAUUCCUGAAACCAACCAAAUAUAUGAGAAUGAUAACAAAGGUGUACAUGACCUAGAAAAAGAUAACUUCUUCUCUCUAACCCCAAAGGAUAAAGAAACAAUUUCUGAAAAUCUACAAGUCACAAAUGAAUUUCAAACAGUUGAUCUUCUCAUCAAAGAUAAUGGAAAUUUAUGUGAUUAUGACACCCAGAAUAUAUUGGAGUUGAAAAAGUAUGUUACUGAUAGGAAAUCUGCUGAGCAAAAUGAAUCAAAAAUAAAUAAGCUCAGGAAUAAAGUGAAUUGGAAGACAGAAAUAAUUUCUGAAAUGAACCAGAUAUAUGAGGAUAAUGAUAAAGAUGCACAUGUCCAAGAAAGCUAUACAAAAGAUCUUGAUUUUAAAGUAAAUAAAUCUAAACAAAAACUUGAAUGCCAAGACAUUAUCAAUAAACACUAUAUGGAAGUCAACAGUAAUGAAAAGGAAAGUUGUGAUCAAAUUUUAGAUUCCUACAAAGUAGUUAAAAAACGUAAGAAAGAAUCAUCAUGCAAGGCAAAGAACAUUUUGACAAAAGCUAAGAACAAACUUGCUUCACAGUUAACAGAAUCUUCACAGACAUCUAUCUCCUUAGAAUCUGAUUUAAAACAUAUUACUAGUGAAGCAGAUUCUGAUCCAGGAAACCCAGUUGAЖCUAUGUAAGЖCUCAGAAGCAAAGCACUACCACUUUGAAUAAAAAAGAUCUCCCUUUUGUGGAAGAAAUAAAAGAAGGAGAGUGUCAGGUUAAAAAGGUAAAUAAAAUGACAUCUAAGUCAAAGAAAAGGAAGACCUCCAUAGAUCCUUCUCCAGAGAGCCAUGAAGUAAUGGAAAGAAUACUUGACAGCGUUCAGGGAAAGUCUACUGUAUCUGAACAAGCUGAUAAGGAAAACAAUUUGGAGAAUGAGAAAAUGGUCAAAAAUAAGCCAGЖCUUUUACACAAAGGCAUUUAGAUCUUUGUCUGAGAUACAUUCACCUAЖCAUACAAGAUUCUUCCUUUGACAGUGUUCGUGAAGGUUUAGUACCUUUGAGCGUUUCUUCUGGUAAAAAUGUGAUAAUAAAAGAAAAUUUUGCCUUGGAGUGCUCCCCAGCCUUUCAAGUAAGUGAUGAUGAGCAUGAGAAGAUGAACAAGAUGAAAUUUAAAGUCAACCGGAGAACCCAAAAAUCAGGAAUAGGUGAUAGACCAUUACAGGACUUGUCAAAUACCAGUUUUGUUUCAAAUAЖCACUGCUGAAUCUGAAAAUAAGUCAGAAGAUCUAUCUUCAGAACGGACAAGCAGAAGAAGAAGGUGUACUCCUUUCUAUUUUAAAGAGCCAAGCCUCAGAGACAAGAUGAGAAGAUGAAGUGAAUUUAUGGAUUCUGGUUUUUCUGAAUUUUCAAAGCAUAAGGAAUCAAAACAGAAAUAUAGUAUCAAGAAGAUGAAAUGCUUAAUGAAAAGGUUUUUUUUUUGUUUCUUUGGCCUUUCAUGGAGUGUUGAUUUGUCCAUUCUUAAUGUUUAUUAAUAGGUAUAUGUGCAUAAAAUAGCUAUUUUGUAACAUUAAACUUUUUGAGUCAUUUUGGUCAUCAUAUAЖCUUACCUUCCUGUUUAUUUAAGCUUCUUUUUACCUAGUAGCCUPUAACCAAACAAUAACCUUUUAACCAAAUAAAAUGUGUUAAUAAAUACCUUUGCAUUGGUUAUCUUGUAUACUAGGCUGUCUUGUUUUGCUGUCUGUUUUUAACCCAUUCAAUAUAUGUGGACAUCCAAAAGGGUUUAAAAGCCACCUCCUGCCCUGGCCCGUUUUCUCUCCCUUCAUUCUUCUGUUUUCAGAAAUACAUGUUGAAUGUCAGCUUCUGUAUUAUUUCUAUUAUAUGUAAUCUGAUGACUUAGAGGAGGAGAUUAACCUUUCAGGCUCUUUUGAAUUUGGUUUUUAUAAUUUGGUUUUAAAGAUCACUUACUCUUCCAGUAAUAAGUAGUAAUAAAUCCUGUUCAUAUCUGA
Sequence (SHORT NAMES ENCODING)	GCCGAGCUCCCGGAGCUGGGUGGGGGUGCCCCACGCUGAAAGAGAGUGAUGGAGUGCCCAGUGAUGGAAACUGGCUCACUUUUUACCUCAGGAAUUAAGAGACAUUUGAAAGACAAAAGAAUUUCAAAGACUACUAAGUUGAAUGUUUCUCUUGCUUCAAAAAUAAAAACAAAAAUACUAAAUAAUUCUUCUAUUUUCAAAAUAUCUUUAAAGCACAACAACAGGGCAUUAGCUCAGGCUCUUAGUAGAGAAAAAGAGAAUUCUCGAAGAAUUACAACUGAAAAGAUGCUAUUGCAAAAAGAAGUAGAGAAACUGAAUUUUGAGAACACAUUUCUUCGCCUAAAGCUAAAUAACUUGAAUAAGAAGCUUAUAGACAUAGAAGCUCUCAUGAACAAUAACUUGAUAACUGCAAUUGAAAUGAGCAGUCUUUCUGAGUUCCAUCAGAGUUCCUUUCUACUGUCAGCUAGCAAGAAGAAACGAAUUAGUAAACAGUGCAAGUUGAUGCGUCUUCCAUUUGCAAGGGUUCCAUUAACUUCAAAUGAUGAUGAAGAUGAAGAUAAAGAGAAAAUGCAGUGUGACAACAAUAUUAAAUCAAAGACAUUACCUGAUAUUCCCUCUUCAGGAUCAACAACACAACCUUUAUCAACUCAGGAUAAUUCGGAAGUGUUAUUUCUUAAAGAAAAUAAUCAAAAUGUAUAUGGUUUAGAUGAUUCAGAACAUAUUUCUUCUAUAGUUGAUGUACCUCCCAGAGAAAGCCAUUCCCACUCAGACCAAAGUUCUAAGACUUCUCUAAUGAGUGAGAUGAGAAACGCCCAGUCUAUUGGCCGCAGAUGGGAGAAACCAUCUCCUAGUAAUGUGACUGAAAGGAAGAAGCGUGGGUCAUCUUGGGAAUCAAAUAAUCUUUCUGCAGACACUCCCUGUGCAACAGUUUUAGAUAAACAACACAUUUCAAGUCCAGAAUUAAAUUGCAAUAAUGAGAUAAAUGGUCAUACUAAUGAAACAAAUACUGAAAUGCAAAGAAAUAAACAGGAUCUUCCUGGCUUAUCUUCUGAGUCUGCCAGAGAACCUAAUGCAGAGUGCAUGAAUCAAAUUGAGGAUAAUGAUGm6ACUUUCAAUUGCAGAAAACUGUGUAUGAUGCUGACAUGGAUUUAACUGCUAGUGAAGUCAGCAAAAUUGUCACAGUCUCAACAGGCAUUAAAAAGAAAAGUAAUAAAAAAACAAAUGAACAUGGAAUGAAAACUUUCAGAAAAGUGAAAGAUUCCAGCUCUGAAAAAAAGAGAGAAAGAUCAAAGAGACAGUUUAAAAAUAGUUCAGAUGUCGAUAUUGGGGAAAAGAUUGAAAACAGGACAGAAAGAUCUGAUGUCCUGGAUGGCAAAAGGGGUGCAGAAGAUCCCGGUUUUAUUUUCAAUAAUGAACAGCUGGCUCAGAUGAAUGAACAGCUGGCUCAGGUGAAUGAm6ACUAAAGAAAAUGACCCUUCAAACUGGCUUUGAACAAGGUGACAGAGAAAAUGUACUGUGUAAUAAAAAGGAGAAAAGAAUAACAAAUGAGCAAGAGGAAACAUACUCUUUAUCCCAAAGUUCAGGUAAAUUUCACCAGGAGAGUAAAUUUGAUAAGGGUCAGAAUUCCCUAACUUGUAAUAAAAGUAAAGCUUCUAGACAGACAUUUGUGAUUCACAAAUUAGAAAAAGAUAACUUACUCCCAAACCAAAAGGAUAAAGUAACCAUUUAUGAAAACCUAGACGUCACAAAUGAAUUUCACACAGCCAAUCUUUCCACCAAAGAUAAUGGAAAUUUAUGUGAUUAUGGGACCCACAAUAUAUUGGAUUUGAAAAAGUAUGUCACUGAUAUUCAACCCUCAGAGCAAAAUGAAUCAAACAUUAAUAAGCUUAGAAAGAAAGUAAACCGGAAGACAGAAAUAAUUUCUGGAAUGAACCACAUGUAUGAGGAUAAUGAUAAAGAUGUGGUGCAUGGCCUAAAAAAAGGUAAUUUUUUUUUCAAAACCCAAGAGGAUAAAGAACCUAUCUCUGAAAACAUAGAAGUUUCCAAAGAGCUUCAAAUCCCAGCUCUUUCUACUAGAGAUAAUGAAAAUCAAUGUGACUAUAGGACCCAGAAUGUGUUGGGUUUGCAAAAGCAGAUCACCAAUAUGUACCCCGUUCAGCAAAAUGAAUCAAAAGUUAAUAAGAAGCUUAGGCAGAAAGUAAAUCGGAAGACAGAAAUAAUUUCUGAAGUGAAUCAUUUAGAUAAUGACAAAAGUAUAGAAUACACAGUUAAAAGUCACUCACUCUUUUUAACGCAAAAAGAUAAGGAAAUCAUCCCUGGAAACCUAGAAGACCCAAGUGAGUUUGAAACACCUGCUCUUUCUACCAAAGAUAGUGGAAACCUGUAUGAUUCUGAGAUUCAAAAUGUUUUGGGGGUGAAACAUGGCCAUGAUAUGCAACCUGCUUGUCAAAAUGAUUCAAAAAUAGGUAAGAAGCCUAGACUAAAUGUAUGUCAAAAGUCAGAAAUAAUUCCUGAAACCAACCAAAUAUAUGAGAAUGAUAACAAAGGUGUACAUGACCUAGAAAAAGAUAACUUCUUCUCUCUAACCCCAAAGGAUAAAGAAACAAUUUCUGAAAAUCUACAAGUCACAAAUGAAUUUCAAACAGUUGAUCUUCUCAUCAAAGAUAAUGGAAAUUUAUGUGAUUAUGACACCCAGAAUAUAUUGGAGUUGAAAAAGUAUGUUACUGAUAGGAAAUCUGCUGAGCAAAAUGAAUCAAAAAUAAAUAAGCUCAGGAAUAAAGUGAAUUGGAAGACAGAAAUAAUUUCUGAAAUGAACCAGAUAUAUGAGGAUAAUGAUAAAGAUGCACAUGUCCAAGAAAGCUAUACAAAAGAUCUUGAUUUUAAAGUAAAUAAAUCUAAACAAAAACUUGAAUGCCAAGACAUUAUCAAUAAACACUAUAUGGAAGUCAACAGUAAUGAAAAGGAAAGUUGUGAUCAAAUUUUAGAUUCCUACAAAGUAGUUAAAAAACGUAAGAAAGAAUCAUCAUGCAAGGCAAAGAACAUUUUGACAAAAGCUAAGAACAAACUUGCUUCACAGUUAACAGAAUCUUCACAGACAUCUAUCUCCUUAGAAUCUGAUUUAAAACAUAUUACUAGUGAAGCAGAUUCUGAUCCAGGAAACCCAGUUGAm6ACUAUGUAAGm6ACUCAGAAGCAAAGCACUACCACUUUGAAUAAAAAAGAUCUCCCUUUUGUGGAAGAAAUAAAAGAAGGAGAGUGUCAGGUUAAAAAGGUAAAUAAAAUGACAUCUAAGUCAAAGAAAAGGAAGACCUCCAUAGAUCCUUCUCCAGAGAGCCAUGAAGUAAUGGAAAGAAUACUUGACAGCGUUCAGGGAAAGUCUACUGUAUCUGAACAAGCUGAUAAGGAAAACAAUUUGGAGAAUGAGAAAAUGGUCAAAAAUAAGCCAGm6ACUUUUACACAAAGGCAUUUAGAUCUUUGUCUGAGAUACAUUCACCUAm6ACAUACAAGAUUCUUCCUUUGACAGUGUUCGUGAAGGUUUAGUACCUUUGAGCGUUUCUUCUGGUAAAAAUGUGAUAAUAAAAGAAAAUUUUGCCUUGGAGUGCUCCCCAGCCUUUCAAGUAAGUGAUGAUGAGCAUGAGAAGAUGAACAAGAUGAAAUUUAAAGUCAACCGGAGAACCCAAAAAUCAGGAAUAGGUGAUAGACCAUUACAGGACUUGUCAAAUACCAGUUUUGUUUCAAAUAm6ACACUGCUGAAUCUGAAAAUAAGUCAGAAGAUCUAUCUUCAGAACGGACAAGCAGAAGAAGAAGGUGUACUCCUUUCUAUUUUAAAGAGCCAAGCCUCAGAGACAAGAUGAGAAGAUGAAGUGAAUUUAUGGAUUCUGGUUUUUCUGAAUUUUCAAAGCAUAAGGAAUCAAAACAGAAAUAUAGUAUCAAGAAGAUGAAAUGCUUAAUGAAAAGGUUUUUUUUUUGUUUCUUUGGCCUUUCAUGGAGUGUUGAUUUGUCCAUUCUUAAUGUUUAUUAAUAGGUAUAUGUGCAUAAAAUAGCUAUUUUGUAACAUUAAACUUUUUGAGUCAUUUUGGUCAUCAUAUAm6ACUUACCUUCCUGUUUAUUUAAGCUUCUUUUUACCUAGUAGCCUYUAACCAAACAAUAACCUUUUAACCAAAUAAAAUGUGUUAAUAAAUACCUUUGCAUUGGUUAUCUUGUAUACUAGGCUGUCUUGUUUUGCUGUCUGUUUUUAACCCAUUCAAUAUAUGUGGACAUCCAAAAGGGUUUAAAAGCCACCUCCUGCCCUGGCCCGUUUUCUCUCCCUUCAUUCUUCUGUUUUCAGAAAUACAUGUUGAAUGUCAGCUUCUGUAUUAUUUCUAUUAUAUGUAAUCUGAUGACUUAGAGGAGGAGAUUAACCUUUCAGGCUCUUUUGAAUUUGGUUUUUAUAAUUUGGUUUUAAAGAUCACUUACUCUUCCAGUAAUAAGUAGUAAUAAAUCCUGUUCAUAUCUGA
Sequence (MODOMICS CODE ENCODING)	GCCGAGCUCCCGGAGCUGGGUGGGGGUGCCCCACGCUGAAAGAGAGUGAUGGAGUGCCCAGUGAUGGAAACUGGCUCACUUUUUACCUCAGGAAUUAAGAGACAUUUGAAAGACAAAAGAAUUUCAAAGACUACUAAGUUGAAUGUUUCUCUUGCUUCAAAAAUAAAAACAAAAAUACUAAAUAAUUCUUCUAUUUUCAAAAUAUCUUUAAAGCACAACAACAGGGCAUUAGCUCAGGCUCUUAGUAGAGAAAAAGAGAAUUCUCGAAGAAUUACAACUGAAAAGAUGCUAUUGCAAAAAGAAGUAGAGAAACUGAAUUUUGAGAACACAUUUCUUCGCCUAAAGCUAAAUAACUUGAAUAAGAAGCUUAUAGACAUAGAAGCUCUCAUGAACAAUAACUUGAUAACUGCAAUUGAAAUGAGCAGUCUUUCUGAGUUCCAUCAGAGUUCCUUUCUACUGUCAGCUAGCAAGAAGAAACGAAUUAGUAAACAGUGCAAGUUGAUGCGUCUUCCAUUUGCAAGGGUUCCAUUAACUUCAAAUGAUGAUGAAGAUGAAGAUAAAGAGAAAAUGCAGUGUGACAACAAUAUUAAAUCAAAGACAUUACCUGAUAUUCCCUCUUCAGGAUCAACAACACAACCUUUAUCAACUCAGGAUAAUUCGGAAGUGUUAUUUCUUAAAGAAAAUAAUCAAAAUGUAUAUGGUUUAGAUGAUUCAGAACAUAUUUCUUCUAUAGUUGAUGUACCUCCCAGAGAAAGCCAUUCCCACUCAGACCAAAGUUCUAAGACUUCUCUAAUGAGUGAGAUGAGAAACGCCCAGUCUAUUGGCCGCAGAUGGGAGAAACCAUCUCCUAGUAAUGUGACUGAAAGGAAGAAGCGUGGGUCAUCUUGGGAAUCAAAUAAUCUUUCUGCAGACACUCCCUGUGCAACAGUUUUAGAUAAACAACACAUUUCAAGUCCAGAAUUAAAUUGCAAUAAUGAGAUAAAUGGUCAUACUAAUGAAACAAAUACUGAAAUGCAAAGAAAUAAACAGGAUCUUCCUGGCUUAUCUUCUGAGUCUGCCAGAGAACCUAAUGCAGAGUGCAUGAAUCAAAUUGAGGAUAAUGAUG2000000006ACUUUCAAUUGCAGAAAACUGUGUAUGAUGCUGACAUGGAUUUAACUGCUAGUGAAGUCAGCAAAAUUGUCACAGUCUCAACAGGCAUUAAAAAGAAAAGUAAUAAAAAAACAAAUGAACAUGGAAUGAAAACUUUCAGAAAAGUGAAAGAUUCCAGCUCUGAAAAAAAGAGAGAAAGAUCAAAGAGACAGUUUAAAAAUAGUUCAGAUGUCGAUAUUGGGGAAAAGAUUGAAAACAGGACAGAAAGAUCUGAUGUCCUGGAUGGCAAAAGGGGUGCAGAAGAUCCCGGUUUUAUUUUCAAUAAUGAACAGCUGGCUCAGAUGAAUGAACAGCUGGCUCAGGUGAAUGA2000000006ACUAAAGAAAAUGACCCUUCAAACUGGCUUUGAACAAGGUGACAGAGAAAAUGUACUGUGUAAUAAAAAGGAGAAAAGAAUAACAAAUGAGCAAGAGGAAACAUACUCUUUAUCCCAAAGUUCAGGUAAAUUUCACCAGGAGAGUAAAUUUGAUAAGGGUCAGAAUUCCCUAACUUGUAAUAAAAGUAAAGCUUCUAGACAGACAUUUGUGAUUCACAAAUUAGAAAAAGAUAACUUACUCCCAAACCAAAAGGAUAAAGUAACCAUUUAUGAAAACCUAGACGUCACAAAUGAAUUUCACACAGCCAAUCUUUCCACCAAAGAUAAUGGAAAUUUAUGUGAUUAUGGGACCCACAAUAUAUUGGAUUUGAAAAAGUAUGUCACUGAUAUUCAACCCUCAGAGCAAAAUGAAUCAAACAUUAAUAAGCUUAGAAAGAAAGUAAACCGGAAGACAGAAAUAAUUUCUGGAAUGAACCACAUGUAUGAGGAUAAUGAUAAAGAUGUGGUGCAUGGCCUAAAAAAAGGUAAUUUUUUUUUCAAAACCCAAGAGGAUAAAGAACCUAUCUCUGAAAACAUAGAAGUUUCCAAAGAGCUUCAAAUCCCAGCUCUUUCUACUAGAGAUAAUGAAAAUCAAUGUGACUAUAGGACCCAGAAUGUGUUGGGUUUGCAAAAGCAGAUCACCAAUAUGUACCCCGUUCAGCAAAAUGAAUCAAAAGUUAAUAAGAAGCUUAGGCAGAAAGUAAAUCGGAAGACAGAAAUAAUUUCUGAAGUGAAUCAUUUAGAUAAUGACAAAAGUAUAGAAUACACAGUUAAAAGUCACUCACUCUUUUUAACGCAAAAAGAUAAGGAAAUCAUCCCUGGAAACCUAGAAGACCCAAGUGAGUUUGAAACACCUGCUCUUUCUACCAAAGAUAGUGGAAACCUGUAUGAUUCUGAGAUUCAAAAUGUUUUGGGGGUGAAACAUGGCCAUGAUAUGCAACCUGCUUGUCAAAAUGAUUCAAAAAUAGGUAAGAAGCCUAGACUAAAUGUAUGUCAAAAGUCAGAAAUAAUUCCUGAAACCAACCAAAUAUAUGAGAAUGAUAACAAAGGUGUACAUGACCUAGAAAAAGAUAACUUCUUCUCUCUAACCCCAAAGGAUAAAGAAACAAUUUCUGAAAAUCUACAAGUCACAAAUGAAUUUCAAACAGUUGAUCUUCUCAUCAAAGAUAAUGGAAAUUUAUGUGAUUAUGACACCCAGAAUAUAUUGGAGUUGAAAAAGUAUGUUACUGAUAGGAAAUCUGCUGAGCAAAAUGAAUCAAAAAUAAAUAAGCUCAGGAAUAAAGUGAAUUGGAAGACAGAAAUAAUUUCUGAAAUGAACCAGAUAUAUGAGGAUAAUGAUAAAGAUGCACAUGUCCAAGAAAGCUAUACAAAAGAUCUUGAUUUUAAAGUAAAUAAAUCUAAACAAAAACUUGAAUGCCAAGACAUUAUCAAUAAACACUAUAUGGAAGUCAACAGUAAUGAAAAGGAAAGUUGUGAUCAAAUUUUAGAUUCCUACAAAGUAGUUAAAAAACGUAAGAAAGAAUCAUCAUGCAAGGCAAAGAACAUUUUGACAAAAGCUAAGAACAAACUUGCUUCACAGUUAACAGAAUCUUCACAGACAUCUAUCUCCUUAGAAUCUGAUUUAAAACAUAUUACUAGUGAAGCAGAUUCUGAUCCAGGAAACCCAGUUGA2000000006ACUAUGUAAG2000000006ACUCAGAAGCAAAGCACUACCACUUUGAAUAAAAAAGAUCUCCCUUUUGUGGAAGAAAUAAAAGAAGGAGAGUGUCAGGUUAAAAAGGUAAAUAAAAUGACAUCUAAGUCAAAGAAAAGGAAGACCUCCAUAGAUCCUUCUCCAGAGAGCCAUGAAGUAAUGGAAAGAAUACUUGACAGCGUUCAGGGAAAGUCUACUGUAUCUGAACAAGCUGAUAAGGAAAACAAUUUGGAGAAUGAGAAAAUGGUCAAAAAUAAGCCAG2000000006ACUUUUACACAAAGGCAUUUAGAUCUUUGUCUGAGAUACAUUCACCUA2000000006ACAUACAAGAUUCUUCCUUUGACAGUGUUCGUGAAGGUUUAGUACCUUUGAGCGUUUCUUCUGGUAAAAAUGUGAUAAUAAAAGAAAAUUUUGCCUUGGAGUGCUCCCCAGCCUUUCAAGUAAGUGAUGAUGAGCAUGAGAAGAUGAACAAGAUGAAAUUUAAAGUCAACCGGAGAACCCAAAAAUCAGGAAUAGGUGAUAGACCAUUACAGGACUUGUCAAAUACCAGUUUUGUUUCAAAUA2000000006ACACUGCUGAAUCUGAAAAUAAGUCAGAAGAUCUAUCUUCAGAACGGACAAGCAGAAGAAGAAGGUGUACUCCUUUCUAUUUUAAAGAGCCAAGCCUCAGAGACAAGAUGAGAAGAUGAAGUGAAUUUAUGGAUUCUGGUUUUUCUGAAUUUUCAAAGCAUAAGGAAUCAAAACAGAAAUAUAGUAUCAAGAAGAUGAAAUGCUUAAUGAAAAGGUUUUUUUUUUGUUUCUUUGGCCUUUCAUGGAGUGUUGAUUUGUCCAUUCUUAAUGUUUAUUAAUAGGUAUAUGUGCAUAAAAUAGCUAUUUUGUAACAUUAAACUUUUUGAGUCAUUUUGGUCAUCAUAUA2000000006ACUUACCUUCCUGUUUAUUUAAGCUUCUUUUUACCUAGUAGCCU2000000009UUAACCAAACAAUAACCUUUUAACCAAAUAAAAUGUGUUAAUAAAUACCUUUGCAUUGGUUAUCUUGUAUACUAGGCUGUCUUGUUUUGCUGUCUGUUUUUAACCCAUUCAAUAUAUGUGGACAUCCAAAAGGGUUUAAAAGCCACCUCCUGCCCUGGCCCGUUUUCUCUCCCUUCAUUCUUCUGUUUUCAGAAAUACAUGUUGAAUGUCAGCUUCUGUAUUAUUUCUAUUAUAUGUAAUCUGAUGACUUAGAGGAGGAGAUUAACCUUUCAGGCUCUUUUGAAUUUGGUUUUUAUAAUUUGGUUUUAAAGAUCACUUACUCUUCCAGUAAUAAGUAGUAAUAAAUCCUGUUCAUAUCUGA

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	1106	1455	3165	3175	3437	3485	3728	4074	4118
Modification Positions	m6A	m6A	m6A	m6A	m6A	m6A	m6A	m6A	Y
Genomic Coordinates	2:200571404:+	2:200571753:+	2:200573463:+	2:200573473:+	2:200573735:+	2:200573783:+	2:200575359:+	2:200583692:+	2:200583736:+
Level of Experimental Evidence	3	3	3	3	3	3	3	3	3
Level of Experimental Reliability	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
EUFIDs	6UuHp6YApVKv jNkxUQNx8GRd msuJfBpJvM5H VL7zkHvkfkoB VyCX26p5UBRL WdHxkJGRmFxn BsCW7emuRX7M KENzb7mwdBd9 KjeH7Nsffuas Lny8GcCeVGc9 LZJKems7W2wi PF5iqBNSbHaa UKen6WEino9G XUkp6ghERQML	5Nnepx5V7yHo 6UuHp6YApVKv jNkxUQNx8GRd msuJfBpJvM5H VL7zkHvkfkoB VyCX26p5UBRL WdHxkJGRmFxn Lny8GcCeVGc9	3TeAZFYFxgvp 5Nnepx5V7yHo 6UuHp6YApVKv jNkxUQNx8GRd msuJfBpJvM5H NjZ8bGGJsNSR VL7zkHvkfkoB VyCX26p5UBRL WdHxkJGRmFxn KENzb7mwdBd9 KjeH7Nsffuas Lny8GcCeVGc9 UKen6WEino9G BtsJQJ3DteUq dknfVe6BK8aP	5FhTyQVy2tKW 5Nnepx5V7yHo 6UuHp6YApVKv jNkxUQNx8GRd msuJfBpJvM5H NjZ8bGGJsNSR VL7zkHvkfkoB VyCX26p5UBRL WdHxkJGRmFxn 93arJtwJmuS9 BkoLW2CBToyL Lny8GcCeVGc9 UKen6WEino9G BtsJQJ3DteUq dknfVe6BK8aP	93arJtwJmuS9 KENzb7mwdBd9 KjeH7Nsffuas Lny8GcCeVGc9 PF5iqBNSbHaa UKen6WEino9G BtsJQJ3DteUq dknfVe6BK8aP iezFbUdmY3A6	BtsJQJ3DteUq dknfVe6BK8aP iezFbUdmY3A6	BtsJQJ3DteUq dknfVe6BK8aP iezFbUdmY3A6	BtsJQJ3DteUq dknfVe6BK8aP iezFbUdmY3A6	BtsJQJ3DteUq dknfVe6BK8aP iezFbUdmY3A6