Source:
XM_015765976.2
Strand on PHAS Transcript:
-
Start on PHAS Transcript:
2306
Sequence:
ACCCAAUUGCCAGACCAAGC
Length:
20
PHAS Gene Name:
LOC4324864
Chr:
Chr1
PHAS Transcript Annotation:
endoribonuclease Dicer homolog 3a-like
PHAS Transcript Sequence:
AAUUAGGAAAUUACCCUCGCCAUUUUGACGUAGUGGCCUCUGUCGUCCGUGAGUUACCCUGACCCCUCCUCGUCAGUUUGCCCGCCGCGGCGCCGCCGCCGCCGCCGCCGAUCCCCAUCCAUCCCGCGAGCGAGCAGGGCGCCGUCGUUCGUCCUGCUGCAUCCGCCGCAUCCUGUAAACAUGAACCCUUUAAAGAGGUCAUUGGAAUCAUCUUCUCAGGAACAUGAAGCAGGCAAACAGAAACUGCAGAAGAGAGAGUGUCAAGAUUUCACUCCCAGAAGAUAUCAGCUUGAUGUCUAUGAGGUUGCAAUGCGGAGAAACACGAUUGCGAUGCUUGACACAGGAGCCGGGAAGACAAUGAUUGCUGUGAUGCUUAUCAAGGAGUUCGGAAAGAUAAACAGAACAAAGAAUGCUGGAAAAGUCAUCAUAUUUCUUGCACCAACAGUUCAACUUGUUACACAGCAAUGCGAGGUGAUUGAAAUCCACACAGAUUUUGAGGUAGAACAAUACUAUGGUGCAAAGGGGGUUGAUCAAUGGACAGGUCCUAGAUGGCAAGAGCAAAUCUCAAAAUACCAGGUCAUGGUCAUGACACCACAGGUGUUCCUACAAGCUUUACGCAAUGCUUUCUUAAUCUUGGACAUGGUUAGUCUCAUGAUAUUUGAUGAAUGCCAUCAUGCAACUGGAAACCACCCUUAUACAAGAAUAAUGAAGGAGUUCUAUCACAAAUCAGAACAUAAGCCAAGUGUGUUUGGUAUGACAGCAUCACCUGUUAUAAGAAAAGGUAUCUCUUCUCAUUUGGAUUGUGAAGGUCAGUUCUGUGAAUUGGAGAACCUGUUAGAUGCUAAGAUCUACACAGUUUCAGAUAGAGAAGAGAUAGAGUUUUGUGUUCCUUCUGCAAAAGAAAUGUGCAGGUACUAUGACUCGAAACCAGUUUGUUUUGAAGAUUUGAGUGAAGAAUUGGGAGUUUUAUGUUCCAAGUAUGAUGCAUUGAUAACAGAGUUGCAGAAUAAGCGAAGCGACAUGUAUAAAGAUGCUGAUGAUAUAACAAAAGAAUCAAAGAGACGCCUUUCUAAAUCUAUAGCAAAAAUUUGCUACUGCCUUGAUGAUGUUGGUCUUAUUUGUGCAAGUGAGGCCACAAAAAUCUGCAUUGAAAGGGGCCAGGAGAAAGGUUGGCUGAAGGAAGUAGUUGAUGCCACAGAUCAGCAAACUGAUGCAAAUGGAUCACGCCUAUUUGCAGAAAAUUCAGCGCUUCAUAUGAAGUUCUUUGAGGAAGCCUUGCAUUUAAUUGACAAACGCCUCCAACAAGGUAUCGACAUGCUUCUAAACUCAGAAAGUGGAUGUGUUGAAGCAGCAAAGACGGGCUAUAUUUCCCCAAAGCUCUAUGAACUCAUCCAGAUCUUUCACUCUUUUAGUAACUCUCGUCAUGCUCGAUGCCUCAUUUUUGUUGAUCGAAAGAUCACUGCUAGAGUCAUUGACCGGAUGAUUAAGAAAAUUGGCCACCUUGCACAUUUCACAGUUUCUUUUCUUACUGGAGGGAGAUCUUCGGUGGAUGCUCUGACACCCAAAAUGCAGAAGGAUACAUUGGAUUCAUUUCGCUCUGGAAAGGUGAACUUACUAUUUACUACAGAUGUUGCUGAAGAGGGUAUCCAUGUCCCAGAAUGCUCUUGUGUAAUACGAUUUGAUUUGCCAAGGACAACACGUAGCUAUGUGCAGUCACGUGGACGAGCACGCCAGGAAGACUCUCAGUACAUUCUCAUGAUUGAACGGGGGAACGUGAAGCAAAAUGAUUUGAUAUCUGCAAUUGUGAGAAGUGAGACUUCAAUGGUUAAGAUUGCUUCAAGCAGAGAGUCUGGAAAUCUGUCGCCUGGUUUUGUUCCCAAUGAAGAAAUAAACGAAUACCAUGUAGGCACAACAGGAGCGAAAGUAACUGCUGAUUCAAGCAUCAGUAUUGUCUACCGAUACUGUGAGAAGCUUCCGCAGGAUAAGUGCUACUCCCCAAAACCUACAUUUGAGUUCACUCAUCAUGAUGAUGGAUAUGUGUGUACAUUAGCAUUACCACCAAGUGCUGUGCUUCAAAUUCUGGUGGGCCCAAAAGCAAGAAACAUGCACAAAGCAAAACAGCUCGUUUGCCUUGAUGCAUGUAAGAAGUUGCAUGAGCUAGGAGCACUUGAUGACCACCUUUGUCUAUCUGUUGAAGAUCCAGUUCCAGAAAUUGUAAGCAAAAAUAAGGGUACUGGUAUAGGUACAACCAAACGGAAGGAGCUACAUGGUACAACAAGAAUUCAUGCUUGGUCUGGCAAUUGGGUACCCAAUUGCCAGACCAAGCAGCUUCAAAGCUACAAAAUGAAUUUUGUUUGUGACCAAGCUGGUCAGAUUUACUCUGAAUUUGUUCUGUUAAUUGAUGCAACUUUACCGGAUGAAGUCGCUACUUUGGAGAUUGACCUAUAUUUGCACGACAAGAUGGUCAAAACUUCAGUUUCUUCUUGUGGACUUCUUGAGUUGGAUGCUCAACAGAUGGAACAAGCAAAGUUGUUUCAAGGGCUUCUCUUCAAUGGUUUGUUUGGAAAGCUGUUUACUAGAUCAAAAGUACCUAAUGCUCCGAGGGAAUUCAUUCUUAAUAAAGAGGAUACAUUUGUGUGGAACACUGCGAGUGUAUAUUUGCUUUUACCAACAAAUCCUUCUUUUGACUCCAACGUUUGUAUUAAUUGGAGUGUCAUUGAUGCGGCAGCUACGGCAGUUAAACUUAUGAGAAGGAUUUAUUCUGAGAAUAAAAGAGAAUUACUUGGAAUAUUUGAUUCUGACCAAAAUGUUGGAGAUUUAAUUCAUUUAGCUAACAAGUCGUGUAAGGCUAACAGCCUCAAAGAUAUGGUAGUUCUAGCAGUUCACACUGGGAAGAUAUAUACUGCUCUUGAUAUUACUGAAUUAUCUGGCGAUAGCGCUUUUGAUGGUGCAUCUGAUAAGAAAGAAUGUAAAUUCCGGACAUUCGCAGAAUAUUUCAAAAAGAAGUAUGGCAUAGUACUUCGCCACCCCUCACAGCCACUACUAGUUUUGAAGCCUAGUCAUAAUCCUCACAACCUUCUUUCCUCGAAGUUCAGGGAUGAAGGUAAUGUUGUGGAGAAUAUGAGUAAUGGCACACCAGUUGUAAAUAAAACAAGCAACCGUGUCCACAUGCCUCCUGAGUUGCUGAUUCCCCUUGAUUUACCUGUGGAAAUUUUGAGAUCAUUCUAUUUGUUUCCGGCUUUGAUGUAUCGGAUUGAGUCAUUAACGUUAGCUAGUCAACUAAGAAGUGAAAUUGGAUACAGCGAUUCUAAUAUAUCAAGUUUCCUGAUUCUGGAAGCUAUUACAACGCUUAGGUGCUCUGAGGAUUUCUCUAUGGAGCGUCUAGAAUUAUUGGGAGACUCUGUAUUGAAGUAUGCAGUGAGUUGUCAUCUUUUCCUGAAAUUUCCUAAUAAGGAUGAGGGGCAGCUAUCAUCCAUAAGGUGCCAUAUGAUUUGUAAUGCCACACUUUAUAAGCUUGGAAUUGAACGCAAUGUACAGGGUUACGUACGUGAUGCUGCAUUUGAUCCUCGUCGAUGGCUAGCACCAGGACAGCUCUCUAUUCGUCCAUCUCCUUGUGAAUGCCCUGUAAAAUCUGAGGUUGUAACUGACGAUAUUCAUAUCAUUGAUGACAAGGCUAUUGUUCUAGGCAAGGCGUGUGACAAGGGACACAGAUGGAUGUGUUCCAAAACCAUUGCUGAUUGUGUUGAGGCUAUUAUUGGGGCAUAUUAUGCAGGGGGUGGUUUAAGAGCAGCCAUGGCAGUUCUCAAAUGGUUGGGCAUCGGGGCUGAAAUUGAAGAAGACUUGAUUGUGCAGGCCAUAUUGAGUGCUUCUGUGCAGACUUAUCUUCCAAAAGACAAUGUAUUUGAAAUGCUUGAAGCAAAACUAGGCUAUUCUUUCUCGGUGAAAGGUCUUUUGGUAGAGGCUCUGACUCACCCAUCACAGCAGGAGUUAGGUGCAAAAUACUGCUACGAGCGCCUAGAGUUCCUCGGUGAUGCGGUCUUAGACAUUCUGUUAACAAGAUAUCUUUUCAAUAGUCAUAAAGACACUAAUGAGGGGGAGUUGACAGACUUACGUUCUGCAUCAGUCAAUAAUGAAAACUUUGCACAAGUUGCAGUAAAGCACAACUUCCAUCACUUUCUCCAGCAUUCUUCUGGGCUUCUGUUAGACCAAAUUACUGAAUAUGUGAAUAGGUUGGAAGGUUCAUCCAUGGACAAAGUUGAACUGUUAUCAGAUGGACUCCCAAAAGGGCCUAAAGUCCUUGGUGAUAUUGUAGAAAGUAUUGCAGGUGCAAUUCUUUUAGACACCAAACUUGAUUUGGAUGUAGUCUGGGGUAUUUUUGAACCCCUUCUUUCCCCAAUUGUCACACCUGAGAAUCUGGAGUUACCUCCAUACAGAGAGCUUAUCGAAUGGUGUGGCAAACAUGGGUAUUUUGUAGGAAUUAACUGUAGAGAUCAAGGAGACACAGUAGUGGCUACUCUUGAUGUACAGCUCAAAGAGGUGCUUCUUGUGAGGCAAGGUUUUAGCAAGAAAAGAAAAGAUGCGAAAGCGCAUGCAUCUUCCUUACUGCUCAAAGAUCUCGAGGAAAAAGGACUAAUAAUCCCAAAGAAUGCAAGCAAGACAGAACAAUUUGAAAAGCAUUGUGGCAGCACUAAUCCCUUCAACAAUUUGCAUGUCGAUGCAAUGGAUACACAGACUCCAAAACCAACCAAGGAAAAAAACGCAGCUGAUUCAAGGAACAUUUCUGAUCCCCUGCUUGGUAAACCAUUGCACGUGAUUGUGAAAACGAGUAAAGGAGGACCACGCAUUGCAUUAUAUGAGUUGUGUAAAAAGUUGCAAUGGCCAAUGCCUACAAUGGAAUCUGAGAAAGUACAACCAAGCUUUAGCAGCGUGUGCUCCUCCCCUGGUGGUUCCUCUCAGAAAGCUACCCCCCAAGCGUUCGCUUUCGCUUCAACCAUUACAUUGCAUAUACCAAAUGCUGAUGUGAUCAGCCUCACAGGAGAUGGCCGUGCAGAUAAGAAGAGCUCACAGGAUUCUGCUGCCCUGUUCUUGCUCUAUGAGCUUCAGCGGCGAGGUACUUUGCAACUCCAGGAGGUGUGAAGGAACGACAACUGAUUGCUUGCCAACCAGUUGCUUGGAAGUUGGAAUAAUAGACCAACCAGUUGCUUGCCACCACUCAGCUUUGUACAUCUUCUCCAGUGUUCACCUUCUGAAUUAUGAUAAGAGGGUACCCAAAGAAUGGAGAACAGCUGACCUGGUUCUGGUGUGUGUCAGUUGUUAUGUGUGUUUGUCCAUAUGUUAUCUGCGUAGAAACUGAAUAAGCCCCCAAAGUUGUUGCUGACGAUAAACACGCAAAUAUCAUGCCCCUGUAGCCUGUAGGUGUUAAACCAAUUGUUCAAGGAUAAAAAGAGAGACCAUUUUCAAAUCAUGUUUCCUUGUUCUAUUAUUACAUAAACAUACCGGACUUUUUUUCUUAUAAAAACUACUCCAGUAAACAUUUGAUCA
HE: High-Expressed (TPM > upper quantile); ME: Medium-Expressed (TPM < upper quantile and TPM > lower quantile); LE: Low-Expressed (TPM < lower quantile); NE: Not Expressed.
HEP: High-Expressed Percentage; MEP: Medium-Expressed Percentage; LEP: Low-Expressed Percentage; NEP: Not Expressed Percentage.
cutoff: tau > 0.9 and Average expression in the tissue > 10
cutoff: log2(fold change) > 1 or log2(fold change) < -1 and p-adj < 0.01
Num. | Condition | log2(FoldChange) | Padj |
---|---|---|---|
Tip: Osa-phasi01g0891 is not a differential expression ncRNA. |