Homo sapiens (human) DOCK9 divergent transcript (DOCK9-DT)

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Homo sapiens (human) DOCK9 divergent transcript (DOCK9-DT) URS000075D247_9606

1,903 nucleotides
5 databases (GeneCards, HGNC, LncBook, LNCipedia, RefSeq)
Found in 0 other species
31 publications
1. lncRNA
2. antisense lncRNA

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DOCK9-DT: DOCK9-DT is a long non-coding RNA (lncRNA) that has been identified as a significant factor in various types of cancer, including thyroid carcinoma and clear cell renal cell carcinoma (ccRCC) [PMC9592387] [PMC6931392]. In thyroid carcinoma, DOCK9-DT has been found to be a protective factor in prognosis [PMC6931392]. In ccRCC, DOCK9-DT is one of the seven lncRNAs that constitute an independent prognostic signature [PMC6931392]. DOCK9-DT has also been shown to be upregulated in papillary thyroid carcinoma (PTC) samples compared to normal thyroid tissue samples [PMC8762243]. Furthermore, DOCK9-DT has been found to be co-expressed with various mRNAs, including SDC4 and VEGFA [PMC6931392] [PMC6931392]. In terms of functional analysis, DOCK9-DT has been associated with the MAPK signaling pathway in ccRCC and shown to have oxidoreductase activity in thyroid carcinoma [PMC6931392]. Overall, the research suggests that DOCK9-DT plays a significant role in cancer prognosis and may serve as a potential biomarker or therapeutic target for various types of cancer.

Genome locations

Gene Ontology annotations

Sequence

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GCCCGGACGGCGGAGGAGGGGCCGCCGCGGCGGGACGGCGGGCCAGGCAGGUCGGCGCGGCCCGGCGCUGGAGCUAGGCGGCCGGACUGGCAGGGGCGGCGUGCCGCGCGGGACCCUCACUGGGGAAGGUGGGGGGUCGGGGCCGCCUCCGCCCCGGGCCGCACGUCCGAAGACCGGAGGAGGGGACUGCGCACGCCACCAAGAGGGCGCACAGCCGAGGCUGGACGAUGCGCGGUUUCGGAGCAGGGUUUCCUGCCCAGGGAGCCCGGCUGCGCUCGAGGGGACCCCGAAGUCACCGGCAGGGUCGGAGCUCGGUGCACCACGCCCCCCCUCUGCGCCCGGGGCCUCUGCGGGGACAGAGGUCUCAGGAAAGUAGCCUUUAUUUAUGUGGCACCGAUCGGAACCCGCGGCCGGCCAGGCGGACCUGGACGGAGCGUCCCUGCUCGGAACCUGGCGCGGGGCGCCGCGCGCUCGUGUGGCGCCUCGGCCUCCCCACCGUUCAGUCCCCGGAGGCACGGAGCUCGCGGCGGGACGAUGACGGUUGGGCCGGGCCAGGCGUGGGAGACUCCCAGACUCCGGCCCGCCGGGACGGCCAGCUGCGUCACCUUGGACGUGGGCAAUACUUCGGAGCCUCGGUUAUGUCGCCUGUAACCUGAGGACAACGGCCUGGAAGGGGCUCAGGUGACACGGCGGCCCUCACUGGGGCCGAUUUAGCCGGUCUGCCGCCCCUCCGCGCCGGACCGCCAGGCGGGGUACCAGGGAAACUGCGAUGCGCCGGCUUGCGAGCCCACCGUGACGCAGAGCUGGCGGCCGCUAGCGACAGCCACCCUGUGAGGGACUUUCCCCCCAAUACCCUAACCGCUUUCCUGUCCCUAAGGGCCCGCUCCCGCCCCGGCUCCGUUUCUGUCUCUCUGAGGAAGCCCGGCGCAGCCUAACCCUCACAGGGCCGCGGAGAGGGCGCGCCAGGCGGGGAUUUGCGCCAGGCCCGCGGCGCAUGCUCAGUGGUUGGGGACUGGGCGGGUACCCCGGGCGGGGAGCCUGACUGAACGGCGGCUCUGCUGAUUGGUCGGGCUGCUCACGCCACGCCCGUUGCCUUCCGAUGGACAGUUCCUUACCUGCCGGGUCGGCCUCCGCAGAGAGUGGUGGUCUUGAAAACCCAGUUUUGGGAGAAUACCUGCCGCGCCUCCCGCCCAAAUACCCAGAGGUUUCAUAGCCGCCAUCGCUGCGGUGGAGGAGGCCGCCUGUUGCGUCCCACCCCACCAGAAAGCCUAACACUGGCCUGAAGCGUAAUCUUAAAGUGGUAGGGGAAAAUACCGAUCUAGCGCAGAGAGCAAAACACCUCCGUUCUGGGUUUAAUGGGCAGGUCUGGAGGUGAGGUAUGCCGUCCGCACUCAAUAAUUACUUGCAGGAUCGGAUUGUUUCUCCAGUGGGUGGGGACUGCAGGAUGUAGCAUUGAGUGAGCCUGGCAGAUUGAAAGAUAAAACAAGGGUGAUGAUAAAAACAAUUACACACUAACCCAUUUCCUCCUCCGUGAAAUGAGGGAAUGGCCCAGACAUUUUCCAGACCUCUUCUGUCCUAAGAGUGGAGCUGGGUGACAGAGCAGGUGCAAGCCGGCCUUUCCCUGCCUCCCCGGGGAACGCACUCUGUUCGGUGAGAGCAACUCAGCUCGCAUUGACUCCUUUCAGCUGCAGGAGUGUGGCCGUUCAGUUCUCAUUUGAACUGUUGACAACAGUUGUCUUCUGAGAAUCAUGAGUUAGAGCCUCCCUUUAGGCUUCUGACUCCCUCAAAAGUACCAGACAACACAAACUUUUCCCCUCUUGUUACCUUGGCUCUCUAAGCUGUAUCUACUUCUAUACAAGGCGAACAAUUUUGUCUUUUUAAAUUAAAAACAACAACAAAAGCA

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Publications