General Data

RNA Type	mRNA
Original Source	Sci-ModoM
Transcript ID:	ENST00000703145
Gene ID:	ENSG00000102471
Gene Name:	NDFIP2
Sequence (UNICHARACTER ENCODING)	GGAGCCAGCGAGUCUGCGCGAGCGGUCCGAGCAUGCUCAAUAGCGCGCGCGGCGCCCCGGAGCUUCUCCGCGGAACCGCGACCAACGCGGAGGUCUCGGCGGCCGCUGCGGGAGCCACAGGAAGUGAAGAGCUUCCGCCGGGAGЖCCGCGGCUGCAGGAACGGAGGCGGAAGGGGCCCUGCGGCGACGACGUCGUCGACGGGGGUGGCCGUGGGAGCUGAGCACGGAGAAGACUCCCUCUCUCGGAAGCCGGAUCCCGAGCCGGGCAGGAUGGAUCACCACCAGCCGGGGACUGGGCGCUACCAGGUGCUUCUUAAUGAAGAGGAUAACUCAGAAUCAUCGGCUAUAGAGCAGCCACCUACUUCAAACCCAGCACCGCAGAUUGUGCAGGCUGCGUCUUCAGCACCAGCACUUGAAACUGACUCUUCCCCPCCACCAUAUAGUAGUAUUACUGUGGAAGUACCUACAACUUCAGAAGUUUACGGUGAGUUUUAUCCCGUGCCACCUCCCUAUA#CGUUGCUACCUCUCUUCCUACAUACGAUGAAGCUGAGAAGGCUAAAGCUGCUGCAAUGGCAGCUGCAGCAGCAGAAACAUCUCAAAGAAUUCAGGAGGAAGAGUGUCCACCAAGAGAUGACUUCAGUGAUGCAGACCAGCUCAGAGUGGGGAAUGAUGGCAUUUUCAUGCUGGCAUUUUUCAPGGCAUUUAUUUUCAACUGGCUUGGAUUUUGUUUAUCCUUCUGUAUCACCAAUACCAUAGCUGGAAGGUAUGGUGCUAUCUGCGGAUUUGGCCUUUCCUUGAUCAAAUGGAUCCUUAUUGUCAGGUUUUCUGAUUAUUUUACUGGAUAUUUCAAUGGACAGUAUUGGCUUUGGUGGAUAUUUCUUGUACUUGGCCUGCUCCUUUUCUUCAGAGGAUUUGUUAAUUAUCUAAAAGUCAGAAACAUGUCUGAAAGUAUGGCAGCUGCUCAUAGAACAAGGUAUUUCUUCUUAUUGUAGAGACUGCAUCAACCCGACAUUCCUUUCUUAUACCAAUGUGAAAUUUCCAGAUCAUCUGUAAACCUACЖACUPUAAUAGAAGACUACUAAUAACAGAAGACAAAUUAGUGAAGAAAAGACGGAGUUUCGAAAUUGAAUGGCAGGGUGGUUUUUGCUUACAAGCCAUUUCUGUUCAUUCUPUAAGUAUCUAUAUUUCAUUUGUUUUGCACAUAUGCAUAUGUGCCCAUUUAAGAUAUUUGCAUAUACUUGAUAGAAACCAUAAAGUUGUAGCAGUUAAGUCCAGUCACAUUUGGUUAAUCAGUGUUUGAUAUAAUUGAAAGAGUUGAGUGGAUAAЖCAGUCUUCCAGCUUGUAAAUGCCAUUGACUUCUGACCUGACAUUUAGUAUAAUAAAAAUGAAAUUCUUAACCAUGUCAAAUGAUUUAGUUUCUGGCUCUUAGACUCAUCUGGCAGUUCUACACAUGAAACAUCUUUUGUUAUAUAAGGUGUAUUGAAACCUGCAGUGCUGAUUAUUAGAAAGGAUUUGUCAGAUUUUUGAACAUGAUAUUUACAUUAUUAUUUAGGAAAACUCUUCCUGUAAAUAACCAUGCAUAЖCUUACUUUCUGCAAUGUUUUCUUAGAAAUUGUGUCCAGAUAGCUUUCACUAAUUUUAAAUUAAGUGAACUAAAUAUAUAUGUGUAUAUGUAUACACAUAUAUAUACACACACACAUAUAUAUAUUUAGAAACGUGAGUGUUAAAGAUAGAAUUUGUUUUAGGACAAAUUUUAAGAAAAUGUGGGAAUACCAAAUGUCCUPUAUAAGAAAAAUAAAUUUUAUUUUAAGGGACAUACUAGUUUUAGGGAUUUUCAGAUGGGAAGCUGCAUUUUUAGGAUUGCCCAUCUUAAGAGAUCUUGCAGGAAGAGAUUGUAUUAGAUAUUAUAUUUAUUUCAUUUAAGAUAAUUUUCAAAGUUAAUUUUCUAAAUAAGAUAAUUCUCAUUUGUGUUUGUCUUUUAAAAGGCCAAUAAAAUAUCUUUCAGUAUCAUUGUAAUAAUUUUUUAGAGUUUAAUUUGUAAAGCUUAGCAAAUAAAAUCUUGUACUAUGAAUAGCUUCUUGCUPUAUGACUPUAGGAUUAЖCUUGUAAAAAACAUAUCCUGAACUGAGAUAUGCAAAAUACUCAUUUUCAAGUUAUGGAAAUGUGUUUGUGGCAUAUAGGACUGUGGGGUCUGUGUGUGUAGUGAGAGUGUGUAGCCACUAUUAUAACUGGAAUUUAAUUUACAUUCAUAAACUACUAUAUUUCCCAUCUUGCAAAUCAUUUUAUGUCUCAUCUGUUUUUCCUUUCGGUUAUAUCUUUGGUUUUGAAUACCAACAUUUAAAAUGAUGGUAUUUUAUCUUUUAAACUUAAAAAUUAUUUAAUACAGCUAUAUGGACCUUAUAAAAUUGAUUUCUUAUUUAUUAUUAGACAUUACUACUAAAAGGUACAUCUAACUAUUCAGGGACAUUUUUCCAUUUCCAAAAAAUAAAAUUUAUUAUGCUPUAUAACCUCUUCUGUAUUUUCUAAUUUUUUCAUUGUCUUUGAUAAAUAAAACAGUUUUGUUUUGCUAAUAUAGCCUAUUUUUUGUUUUGUCUCAUUCAGUUUACUUUCCUGCGUAGAAUUUUUAUUGUUAUAUUAAAAUUUUUAUUGUUGUAUUAAAGUACCUGUGUUACACCCCUUGAAGUAAGACAGUAGCAUGGGGUAAAGAAAAAAUAUUUAGUUUAGUUGCCUAAUUUGGAAGUUAAUUAAAAUUAAACUGUACUAAUAACAUAUUCAAACUCAUGCUGGAUCUCUUUCAUAUUAAUUUCUUAUAGACCUGUACUUUAUUCUUUCAAUAAUUUUUAAAUGAAAUUAAGCUUUGCUACAUGGUAAUUAAAUAAUUACUAGGAAGCUUAGCUAUCAAACAUCGACUUACUAAAAUUUCAUUUUAGCUUUUAUGGUAUAUGUGCUUGUUUUCUGAAUAUGGAUACAUGUUACUUUUGAUCCAGCAUCAAAACUUCACUUUUUGUUUUGACUUUUCCCCCCAAAUCUGUAAGGUUCAAGUAUACAUAUUACUGAAUCCUCUAUAAUUGGCAUAAUUCAAUGGUAGCCUUAAAUCUCAUCAUGUAAGCAGGGGAAUCAGAAUGUUAUUUUCAAGAACUUAAUGUUCCCUUCAGAUAUAUAAAAUCCUGCAUACUUCAUUUCCUGUGAGCUUGAACAGCUGCUGUUGUGUUUUGGGGAUGCUUGAUCAUCUUUGCACUCUGCCUUAAAGAUUGAAAAAUCAAAACUCUUGUUAGGGUAUCUAAACAUUUUUGAGUGUGAACUGGGGAUUGGAAGUUAAUACAAAAAAAUUUCAAAUUAUUUCUAUUGUAAAUGAAUAAGCUAGUCAUGGCUAGGAUAAUCCAUUUUCAUGUAUUUAUGCAAUAAACUGAAUUUUAAGGCAAAAACAACACUUUUCUAUAUAGUGUAUGCAGGACAGAUUUUAGAAACUUAGAUUAAAAUACAAAUCCCAUUACAUUUGGUUAAAAUGAAAAUCUCUGCUUAAUGGAAAAAAUACUAAUCUUUAGCCUAUUUUGAGUCUAUAAGAUAUAUUUCAUUUUAGACAUGCCUUCUAAGUUGUUCACAGAUUUUUACCUGCUAAAACAAUAUUAUUUCCAGUAAAACCUCUCCUAACAGGAAAAGUGGAGUUCAAAAUAUCCAAUUGGAGAAAAAUUCAGAGUUCCUUCAUUAAAUAUAAUUUUUUUCAUCUAGUAUGUACUAUUUCAAGAAGUGCAAAAAGUAAUGAUAGUGAAUGUGAUACCAUACUUAACUAAGGUAAUAUAUAUCCUUAGUUUGCUCAAAAGAGUCCUGGUUAUUCCUGUUUUCUCAGCUUAAUAGUGCCUCAUCGUACUCUCAAAAGUGUUCUAAUUUGGAGGAUAAGUUAUAUGAUCAUCCUGUGUAUAAUUGUAGACUGUACCAAGAAGCAACUACCUUAGCUCCACUGCCCUUUGAGGGAUGGAACUGGGGUAAGGGCAGGAGCCAGUUAUUAUUGCCACAGUGUUUUCUAAUGAACCAUUUGGCCUGUAGAAGAGGAAUAGUAUUUUUUUUAAUAGUUGUAUUUGAAUGAUUCCAGCUUAUCGUAAAUACUAAACUGAAUGGCUUUUAUAUUUUUAACUGCUGUUAAAUGUUAUUUUAGCAUUUAUUAGUUGUUUAUUAUUUAAUUCUUCAAAUAGUCAUAUGAAAACAUAUAUUUGAUAAAGGUCAAUUGUUAGAUGAUAAUGUGCCAUUCAUUAUCAUAGGAAUGUCCUUGCCCAUAUAUAAAACAUGCUGGCAUGUAUUUUACUUGUUAAUAAAGUUGUAUAGAUGUGGAAGUGUGAACCUGUGAUGCAPCCUUUUCAAAAUCAGUUUAAGAUUCGCAUAUUAUCAUGACUGUGACCUCACUAAACUGUUUAUGUGACAAACCUUUCAAGAUUGGAGAUGAAAACAACACUUGUGAAAUUAGGUUGGGGUUGCAACAUCUUUUAЖCUUCUCAGUUAUUUGUAUGUCAGGAGACAGAUUGUGGUUUAAUUUUAAUAAACA
Sequence (SHORT NAMES ENCODING)	GGAGCCAGCGAGUCUGCGCGAGCGGUCCGAGCAUGCUCAAUAGCGCGCGCGGCGCCCCGGAGCUUCUCCGCGGAACCGCGACCAACGCGGAGGUCUCGGCGGCCGCUGCGGGAGCCACAGGAAGUGAAGAGCUUCCGCCGGGAGm6ACCGCGGCUGCAGGAACGGAGGCGGAAGGGGCCCUGCGGCGACGACGUCGUCGACGGGGGUGGCCGUGGGAGCUGAGCACGGAGAAGACUCCCUCUCUCGGAAGCCGGAUCCCGAGCCGGGCAGGAUGGAUCACCACCAGCCGGGGACUGGGCGCUACCAGGUGCUUCUUAAUGAAGAGGAUAACUCAGAAUCAUCGGCUAUAGAGCAGCCACCUACUUCAAACCCAGCACCGCAGAUUGUGCAGGCUGCGUCUUCAGCACCAGCACUUGAAACUGACUCUUCCCCYCCACCAUAUAGUAGUAUUACUGUGGAAGUACCUACAACUUCAGAAGUUUACGGUGAGUUUUAUCCCGUGCCACCUCCCUAUAGmCGUUGCUACCUCUCUUCCUACAUACGAUGAAGCUGAGAAGGCUAAAGCUGCUGCAAUGGCAGCUGCAGCAGCAGAAACAUCUCAAAGAAUUCAGGAGGAAGAGUGUCCACCAAGAGAUGACUUCAGUGAUGCAGACCAGCUCAGAGUGGGGAAUGAUGGCAUUUUCAUGCUGGCAUUUUUCAYGGCAUUUAUUUUCAACUGGCUUGGAUUUUGUUUAUCCUUCUGUAUCACCAAUACCAUAGCUGGAAGGUAUGGUGCUAUCUGCGGAUUUGGCCUUUCCUUGAUCAAAUGGAUCCUUAUUGUCAGGUUUUCUGAUUAUUUUACUGGAUAUUUCAAUGGACAGUAUUGGCUUUGGUGGAUAUUUCUUGUACUUGGCCUGCUCCUUUUCUUCAGAGGAUUUGUUAAUUAUCUAAAAGUCAGAAACAUGUCUGAAAGUAUGGCAGCUGCUCAUAGAACAAGGUAUUUCUUCUUAUUGUAGAGACUGCAUCAACCCGACAUUCCUUUCUUAUACCAAUGUGAAAUUUCCAGAUCAUCUGUAAACCUACm6AACUYUAAUAGAAGACUACUAAUAACAGAAGACAAAUUAGUGAAGAAAAGACGGAGUUUCGAAAUUGAAUGGCAGGGUGGUUUUUGCUUACAAGCCAUUUCUGUUCAUUCUYUAAGUAUCUAUAUUUCAUUUGUUUUGCACAUAUGCAUAUGUGCCCAUUUAAGAUAUUUGCAUAUACUUGAUAGAAACCAUAAAGUUGUAGCAGUUAAGUCCAGUCACAUUUGGUUAAUCAGUGUUUGAUAUAAUUGAAAGAGUUGAGUGGAUAAm6ACAGUCUUCCAGCUUGUAAAUGCCAUUGACUUCUGACCUGACAUUUAGUAUAAUAAAAAUGAAAUUCUUAACCAUGUCAAAUGAUUUAGUUUCUGGCUCUUAGACUCAUCUGGCAGUUCUACACAUGAAACAUCUUUUGUUAUAUAAGGUGUAUUGAAACCUGCAGUGCUGAUUAUUAGAAAGGAUUUGUCAGAUUUUUGAACAUGAUAUUUACAUUAUUAUUUAGGAAAACUCUUCCUGUAAAUAACCAUGCAUAm6ACUUACUUUCUGCAAUGUUUUCUUAGAAAUUGUGUCCAGAUAGCUUUCACUAAUUUUAAAUUAAGUGAACUAAAUAUAUAUGUGUAUAUGUAUACACAUAUAUAUACACACACACAUAUAUAUAUUUAGAAACGUGAGUGUUAAAGAUAGAAUUUGUUUUAGGACAAAUUUUAAGAAAAUGUGGGAAUACCAAAUGUCCUYUAUAAGAAAAAUAAAUUUUAUUUUAAGGGACAUACUAGUUUUAGGGAUUUUCAGAUGGGAAGCUGCAUUUUUAGGAUUGCCCAUCUUAAGAGAUCUUGCAGGAAGAGAUUGUAUUAGAUAUUAUAUUUAUUUCAUUUAAGAUAAUUUUCAAAGUUAAUUUUCUAAAUAAGAUAAUUCUCAUUUGUGUUUGUCUUUUAAAAGGCCAAUAAAAUAUCUUUCAGUAUCAUUGUAAUAAUUUUUUAGAGUUUAAUUUGUAAAGCUUAGCAAAUAAAAUCUUGUACUAUGAAUAGCUUCUUGCUYUAUGACUYUAGGAUUAm6ACUUGUAAAAAACAUAUCCUGAACUGAGAUAUGCAAAAUACUCAUUUUCAAGUUAUGGAAAUGUGUUUGUGGCAUAUAGGACUGUGGGGUCUGUGUGUGUAGUGAGAGUGUGUAGCCACUAUUAUAACUGGAAUUUAAUUUACAUUCAUAAACUACUAUAUUUCCCAUCUUGCAAAUCAUUUUAUGUCUCAUCUGUUUUUCCUUUCGGUUAUAUCUUUGGUUUUGAAUACCAACAUUUAAAAUGAUGGUAUUUUAUCUUUUAAACUUAAAAAUUAUUUAAUACAGCUAUAUGGACCUUAUAAAAUUGAUUUCUUAUUUAUUAUUAGACAUUACUACUAAAAGGUACAUCUAACUAUUCAGGGACAUUUUUCCAUUUCCAAAAAAUAAAAUUUAUUAUGCUYUAUAACCUCUUCUGUAUUUUCUAAUUUUUUCAUUGUCUUUGAUAAAUAAAACAGUUUUGUUUUGCUAAUAUAGCCUAUUUUUUGUUUUGUCUCAUUCAGUUUACUUUCCUGCGUAGAAUUUUUAUUGUUAUAUUAAAAUUUUUAUUGUUGUAUUAAAGUACCUGUGUUACACCCCUUGAAGUAAGACAGUAGCAUGGGGUAAAGAAAAAAUAUUUAGUUUAGUUGCCUAAUUUGGAAGUUAAUUAAAAUUAAACUGUACUAAUAACAUAUUCAAACUCAUGCUGGAUCUCUUUCAUAUUAAUUUCUUAUAGACCUGUACUUUAUUCUUUCAAUAAUUUUUAAAUGAAAUUAAGCUUUGCUACAUGGUAAUUAAAUAAUUACUAGGAAGCUUAGCUAUCAAACAUCGACUUACUAAAAUUUCAUUUUAGCUUUUAUGGUAUAUGUGCUUGUUUUCUGAAUAUGGAUACAUGUUACUUUUGAUCCAGCAUCAAAACUUCACUUUUUGUUUUGACUUUUCCCCCCAAAUCUGUAAGGUUCAAGUAUACAUAUUACUGAAUCCUCUAUAAUUGGCAUAAUUCAAUGGUAGCCUUAAAUCUCAUCAUGUAAGCAGGGGAAUCAGAAUGUUAUUUUCAAGAACUUAAUGUUCCCUUCAGAUAUAUAAAAUCCUGCAUACUUCAUUUCCUGUGAGCUUGAACAGCUGCUGUUGUGUUUUGGGGAUGCUUGAUCAUCUUUGCACUCUGCCUUAAAGAUUGAAAAAUCAAAACUCUUGUUAGGGUAUCUAAACAUUUUUGAGUGUGAACUGGGGAUUGGAAGUUAAUACAAAAAAAUUUCAAAUUAUUUCUAUUGUAAAUGAAUAAGCUAGUCAUGGCUAGGAUAAUCCAUUUUCAUGUAUUUAUGCAAUAAACUGAAUUUUAAGGCAAAAACAACACUUUUCUAUAUAGUGUAUGCAGGACAGAUUUUAGAAACUUAGAUUAAAAUACAAAUCCCAUUACAUUUGGUUAAAAUGAAAAUCUCUGCUUAAUGGAAAAAAUACUAAUCUUUAGCCUAUUUUGAGUCUAUAAGAUAUAUUUCAUUUUAGACAUGCCUUCUAAGUUGUUCACAGAUUUUUACCUGCUAAAACAAUAUUAUUUCCAGUAAAACCUCUCCUAACAGGAAAAGUGGAGUUCAAAAUAUCCAAUUGGAGAAAAAUUCAGAGUUCCUUCAUUAAAUAUAAUUUUUUUCAUCUAGUAUGUACUAUUUCAAGAAGUGCAAAAAGUAAUGAUAGUGAAUGUGAUACCAUACUUAACUAAGGUAAUAUAUAUCCUUAGUUUGCUCAAAAGAGUCCUGGUUAUUCCUGUUUUCUCAGCUUAAUAGUGCCUCAUCGUACUCUCAAAAGUGUUCUAAUUUGGAGGAUAAGUUAUAUGAUCAUCCUGUGUAUAAUUGUAGACUGUACCAAGAAGCAACUACCUUAGCUCCACUGCCCUUUGAGGGAUGGAACUGGGGUAAGGGCAGGAGCCAGUUAUUAUUGCCACAGUGUUUUCUAAUGAACCAUUUGGCCUGUAGAAGAGGAAUAGUAUUUUUUUUAAUAGUUGUAUUUGAAUGAUUCCAGCUUAUCGUAAAUACUAAACUGAAUGGCUUUUAUAUUUUUAACUGCUGUUAAAUGUUAUUUUAGCAUUUAUUAGUUGUUUAUUAUUUAAUUCUUCAAAUAGUCAUAUGAAAACAUAUAUUUGAUAAAGGUCAAUUGUUAGAUGAUAAUGUGCCAUUCAUUAUCAUAGGAAUGUCCUUGCCCAUAUAUAAAACAUGCUGGCAUGUAUUUUACUUGUUAAUAAAGUUGUAUAGAUGUGGAAGUGUGAACCUGUGAUGCAYCCUUUUCAAAAUCAGUUUAAGAUUCGCAUAUUAUCAUGACUGUGACCUCACUAAACUGUUUAUGUGACAAACCUUUCAAGAUUGGAGAUGAAAACAACACUUGUGAAAUUAGGUUGGGGUUGCAACAUCUUUUAm6ACUUCUCAGUUAUUUGUAUGUCAGGAGACAGAUUGUGGUUUAAUUUUAAUAAACA
Sequence (MODOMICS CODE ENCODING)	GGAGCCAGCGAGUCUGCGCGAGCGGUCCGAGCAUGCUCAAUAGCGCGCGCGGCGCCCCGGAGCUUCUCCGCGGAACCGCGACCAACGCGGAGGUCUCGGCGGCCGCUGCGGGAGCCACAGGAAGUGAAGAGCUUCCGCCGGGAG2000000006ACCGCGGCUGCAGGAACGGAGGCGGAAGGGGCCCUGCGGCGACGACGUCGUCGACGGGGGUGGCCGUGGGAGCUGAGCACGGAGAAGACUCCCUCUCUCGGAAGCCGGAUCCCGAGCCGGGCAGGAUGGAUCACCACCAGCCGGGGACUGGGCGCUACCAGGUGCUUCUUAAUGAAGAGGAUAACUCAGAAUCAUCGGCUAUAGAGCAGCCACCUACUUCAAACCCAGCACCGCAGAUUGUGCAGGCUGCGUCUUCAGCACCAGCACUUGAAACUGACUCUUCCCC2000000009UCCACCAUAUAGUAGUAUUACUGUGGAAGUACCUACAACUUCAGAAGUUUACGGUGAGUUUUAUCCCGUGCCACCUCCCUAUA2000000090GCGUUGCUACCUCUCUUCCUACAUACGAUGAAGCUGAGAAGGCUAAAGCUGCUGCAAUGGCAGCUGCAGCAGCAGAAACAUCUCAAAGAAUUCAGGAGGAAGAGUGUCCACCAAGAGAUGACUUCAGUGAUGCAGACCAGCUCAGAGUGGGGAAUGAUGGCAUUUUCAUGCUGGCAUUUUUCA2000000009UGGCAUUUAUUUUCAACUGGCUUGGAUUUUGUUUAUCCUUCUGUAUCACCAAUACCAUAGCUGGAAGGUAUGGUGCUAUCUGCGGAUUUGGCCUUUCCUUGAUCAAAUGGAUCCUUAUUGUCAGGUUUUCUGAUUAUUUUACUGGAUAUUUCAAUGGACAGUAUUGGCUUUGGUGGAUAUUUCUUGUACUUGGCCUGCUCCUUUUCUUCAGAGGAUUUGUUAAUUAUCUAAAAGUCAGAAACAUGUCUGAAAGUAUGGCAGCUGCUCAUAGAACAAGGUAUUUCUUCUUAUUGUAGAGACUGCAUCAACCCGACAUUCCUUUCUUAUACCAAUGUGAAAUUUCCAGAUCAUCUGUAAACCUAC2000000006AACU2000000009UUAAUAGAAGACUACUAAUAACAGAAGACAAAUUAGUGAAGAAAAGACGGAGUUUCGAAAUUGAAUGGCAGGGUGGUUUUUGCUUACAAGCCAUUUCUGUUCAUUCU2000000009UUAAGUAUCUAUAUUUCAUUUGUUUUGCACAUAUGCAUAUGUGCCCAUUUAAGAUAUUUGCAUAUACUUGAUAGAAACCAUAAAGUUGUAGCAGUUAAGUCCAGUCACAUUUGGUUAAUCAGUGUUUGAUAUAAUUGAAAGAGUUGAGUGGAUAA2000000006ACAGUCUUCCAGCUUGUAAAUGCCAUUGACUUCUGACCUGACAUUUAGUAUAAUAAAAAUGAAAUUCUUAACCAUGUCAAAUGAUUUAGUUUCUGGCUCUUAGACUCAUCUGGCAGUUCUACACAUGAAACAUCUUUUGUUAUAUAAGGUGUAUUGAAACCUGCAGUGCUGAUUAUUAGAAAGGAUUUGUCAGAUUUUUGAACAUGAUAUUUACAUUAUUAUUUAGGAAAACUCUUCCUGUAAAUAACCAUGCAUA2000000006ACUUACUUUCUGCAAUGUUUUCUUAGAAAUUGUGUCCAGAUAGCUUUCACUAAUUUUAAAUUAAGUGAACUAAAUAUAUAUGUGUAUAUGUAUACACAUAUAUAUACACACACACAUAUAUAUAUUUAGAAACGUGAGUGUUAAAGAUAGAAUUUGUUUUAGGACAAAUUUUAAGAAAAUGUGGGAAUACCAAAUGUCCU2000000009UUAUAAGAAAAAUAAAUUUUAUUUUAAGGGACAUACUAGUUUUAGGGAUUUUCAGAUGGGAAGCUGCAUUUUUAGGAUUGCCCAUCUUAAGAGAUCUUGCAGGAAGAGAUUGUAUUAGAUAUUAUAUUUAUUUCAUUUAAGAUAAUUUUCAAAGUUAAUUUUCUAAAUAAGAUAAUUCUCAUUUGUGUUUGUCUUUUAAAAGGCCAAUAAAAUAUCUUUCAGUAUCAUUGUAAUAAUUUUUUAGAGUUUAAUUUGUAAAGCUUAGCAAAUAAAAUCUUGUACUAUGAAUAGCUUCUUGCU2000000009UUAUGACU2000000009UUAGGAUUA2000000006ACUUGUAAAAAACAUAUCCUGAACUGAGAUAUGCAAAAUACUCAUUUUCAAGUUAUGGAAAUGUGUUUGUGGCAUAUAGGACUGUGGGGUCUGUGUGUGUAGUGAGAGUGUGUAGCCACUAUUAUAACUGGAAUUUAAUUUACAUUCAUAAACUACUAUAUUUCCCAUCUUGCAAAUCAUUUUAUGUCUCAUCUGUUUUUCCUUUCGGUUAUAUCUUUGGUUUUGAAUACCAACAUUUAAAAUGAUGGUAUUUUAUCUUUUAAACUUAAAAAUUAUUUAAUACAGCUAUAUGGACCUUAUAAAAUUGAUUUCUUAUUUAUUAUUAGACAUUACUACUAAAAGGUACAUCUAACUAUUCAGGGACAUUUUUCCAUUUCCAAAAAAUAAAAUUUAUUAUGCU2000000009UUAUAACCUCUUCUGUAUUUUCUAAUUUUUUCAUUGUCUUUGAUAAAUAAAACAGUUUUGUUUUGCUAAUAUAGCCUAUUUUUUGUUUUGUCUCAUUCAGUUUACUUUCCUGCGUAGAAUUUUUAUUGUUAUAUUAAAAUUUUUAUUGUUGUAUUAAAGUACCUGUGUUACACCCCUUGAAGUAAGACAGUAGCAUGGGGUAAAGAAAAAAUAUUUAGUUUAGUUGCCUAAUUUGGAAGUUAAUUAAAAUUAAACUGUACUAAUAACAUAUUCAAACUCAUGCUGGAUCUCUUUCAUAUUAAUUUCUUAUAGACCUGUACUUUAUUCUUUCAAUAAUUUUUAAAUGAAAUUAAGCUUUGCUACAUGGUAAUUAAAUAAUUACUAGGAAGCUUAGCUAUCAAACAUCGACUUACUAAAAUUUCAUUUUAGCUUUUAUGGUAUAUGUGCUUGUUUUCUGAAUAUGGAUACAUGUUACUUUUGAUCCAGCAUCAAAACUUCACUUUUUGUUUUGACUUUUCCCCCCAAAUCUGUAAGGUUCAAGUAUACAUAUUACUGAAUCCUCUAUAAUUGGCAUAAUUCAAUGGUAGCCUUAAAUCUCAUCAUGUAAGCAGGGGAAUCAGAAUGUUAUUUUCAAGAACUUAAUGUUCCCUUCAGAUAUAUAAAAUCCUGCAUACUUCAUUUCCUGUGAGCUUGAACAGCUGCUGUUGUGUUUUGGGGAUGCUUGAUCAUCUUUGCACUCUGCCUUAAAGAUUGAAAAAUCAAAACUCUUGUUAGGGUAUCUAAACAUUUUUGAGUGUGAACUGGGGAUUGGAAGUUAAUACAAAAAAAUUUCAAAUUAUUUCUAUUGUAAAUGAAUAAGCUAGUCAUGGCUAGGAUAAUCCAUUUUCAUGUAUUUAUGCAAUAAACUGAAUUUUAAGGCAAAAACAACACUUUUCUAUAUAGUGUAUGCAGGACAGAUUUUAGAAACUUAGAUUAAAAUACAAAUCCCAUUACAUUUGGUUAAAAUGAAAAUCUCUGCUUAAUGGAAAAAAUACUAAUCUUUAGCCUAUUUUGAGUCUAUAAGAUAUAUUUCAUUUUAGACAUGCCUUCUAAGUUGUUCACAGAUUUUUACCUGCUAAAACAAUAUUAUUUCCAGUAAAACCUCUCCUAACAGGAAAAGUGGAGUUCAAAAUAUCCAAUUGGAGAAAAAUUCAGAGUUCCUUCAUUAAAUAUAAUUUUUUUCAUCUAGUAUGUACUAUUUCAAGAAGUGCAAAAAGUAAUGAUAGUGAAUGUGAUACCAUACUUAACUAAGGUAAUAUAUAUCCUUAGUUUGCUCAAAAGAGUCCUGGUUAUUCCUGUUUUCUCAGCUUAAUAGUGCCUCAUCGUACUCUCAAAAGUGUUCUAAUUUGGAGGAUAAGUUAUAUGAUCAUCCUGUGUAUAAUUGUAGACUGUACCAAGAAGCAACUACCUUAGCUCCACUGCCCUUUGAGGGAUGGAACUGGGGUAAGGGCAGGAGCCAGUUAUUAUUGCCACAGUGUUUUCUAAUGAACCAUUUGGCCUGUAGAAGAGGAAUAGUAUUUUUUUUAAUAGUUGUAUUUGAAUGAUUCCAGCUUAUCGUAAAUACUAAACUGAAUGGCUUUUAUAUUUUUAACUGCUGUUAAAUGUUAUUUUAGCAUUUAUUAGUUGUUUAUUAUUUAAUUCUUCAAAUAGUCAUAUGAAAACAUAUAUUUGAUAAAGGUCAAUUGUUAGAUGAUAAUGUGCCAUUCAUUAUCAUAGGAAUGUCCUUGCCCAUAUAUAAAACAUGCUGGCAUGUAUUUUACUUGUUAAUAAAGUUGUAUAGAUGUGGAAGUGUGAACCUGUGAUGCA2000000009UCCUUUUCAAAAUCAGUUUAAGAUUCGCAUAUUAUCAUGACUGUGACCUCACUAAACUGUUUAUGUGACAAACCUUUCAAGAUUGGAGAUGAAAACAACACUUGUGAAAUUAGGUUGGGGUUGCAACAUCUUUUA2000000006ACUUCUCAGUUAUUUGUAUGUCAGGAGACAGAUUGUGGUUUAAUUUUAAUAAACA

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	145	431	514	697	1060	1064	1171	1326	1582	1782	2082	2090	2099	2499	4344	4479
Modification Positions	m6A	Y	Gm	Y	m6A	Y	Y	m6A	m6A	Y	Y	Y	m6A	Y	Y	m6A
Genomic Coordinates	13:79481361:+	13:79520932:+	13:79533368:+	13:79543558:+	13:79552581:+	13:79552585:+	13:79552692:+	13:79552847:+	13:79553103:+	13:79553303:+	13:79553603:+	13:79553611:+	13:79553620:+	13:79554020:+	13:79555865:+	13:79556000:+
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
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