Detailed information on TCONS_00212785

lncRNA-RNA interactions

Number of interactions: 24

Potential function Interacting transcript Gene description Transcript biotype lncRNA id Alignment score (LAST) Alignment length Transcript region involved in interaction Genomic orientation of interacting RNAs
ENST00000332592 DCN1, defective in cullin neddylation 1, domain containing 2 protein coding TCONS_00212785 616 291 UTR3 Trans
ENST00000375403 DCN1, defective in cullin neddylation 1, domain containing 2 nonsense mediated decay TCONS_00212785 616 291 UTR3 Trans
ENST00000378004 Rho GTPase activating protein 26 protein coding TCONS_00212785 534 315 UTR3 Trans
ENST00000379565 ribosomal protein S6 kinase, 90kDa, polypeptide 3 protein coding TCONS_00212785 632 309 UTR3 Trans
ENST00000439138 transmembrane protein 98 protein coding TCONS_00212785 567 288 UTR5 Trans
ENST00000478730 ORAI calcium release-activated calcium modulator 2 protein coding TCONS_00212785 514 305 UTR3 Trans
ENST00000498813 delta(4)-desaturase, sphingolipid 1 processed transcript TCONS_00212785 571 299 noncoding Trans
ENST00000552918 spermatogenesis associated, serine-rich 2 protein coding TCONS_00212785 544 283 UTR3 Trans
ENST00000620139 melanoregulin protein coding TCONS_00212785 600 313 UTR3 Trans
TCONS_00009834 SRY (sex determining region Y)-box 13 novel protein coding TCONS_00212785 654 296 UTR3 Trans
TCONS_00028040 ankyrin repeat domain 16 novel protein coding TCONS_00212785 623 302 UTR3 Trans
TCONS_00030130 calcium/calmodulin-dependent protein kinase II gamma novel protein coding TCONS_00212785 529 305 UTR3 Trans
TCONS_00030132 calcium/calmodulin-dependent protein kinase II gamma novel protein coding TCONS_00212785 529 305 UTR3 Trans
TCONS_00030588 cytoplasmic polyadenylation element binding protein 3 novel protein coding TCONS_00212785 562 299 UTR3 Trans
TCONS_00065864 long intergenic non-protein coding RNA 412 novel protein coding TCONS_00212785 606 303 UTR3 Trans
TCONS_00083752 myosin VC novel protein coding TCONS_00212785 595 320 UTR3 Trans
TCONS_00085508 neuregulin 4 novel noncoding TCONS_00212785 630 297 noncoding Trans
TCONS_00095053 epithelial membrane protein 2 novel protein coding TCONS_00212785 557 300 UTR3 Trans
TCONS_00148450 coiled-coil domain containing 88A novel protein coding TCONS_00212785 624 317 UTR3 Trans
TCONS_00213191 tubby like protein 4 novel protein coding TCONS_00212785 615 303 UTR5 Trans
TCONS_00213738 enoyl-CoA delta isomerase 2 novel protein coding TCONS_00212785 558 302 UTR3 Trans
TCONS_00216910 high mobility group nucleosomal binding domain 3 novel noncoding TCONS_00212785 606 288 noncoding Trans
TCONS_00252827 discs, large homolog 3 (Drosophila) novel protein coding TCONS_00212785 602 301 UTR5 Trans
TCONS_00253752 queuine tRNA-ribosyltransferase 1 pseudogene 1 novel protein coding TCONS_00212785 501 276 UTR3 Trans

Sequence

>TCONS_00253752 (12364 nt)
CGGGGACGCGCACGCCGCCCTCTGACCCCGCAGCGTCGTGGCTAGAGTAGGGTCTGGAGAGAGCTCCCACTGTGGCGAGTCCTGTCGTTGGATTCCCGCG
GCGCCCCGTAAGGCTCCGCCCCGGCGGTGCTACCAAACCCTGTTCGATTTTAGAATCGTACATTCCCAGAGGGAATCCTAGACCCCTCATTTTACAGTTG
AGGAAACAGGCCCAAGTAGCATGACTTGTTCGCGCCGCTAGTCGAAGGAGCAGCAGCCCCGATCCCTTGACTCTGGGGCACTGCTTTCCCTTTAGCTCAT
TTTTGGAGGAAATGGGTGCGCCCTTGCTCGACCTTTGGTGATTGCCGCCACAGGCCTTCCCGCCGGCTAACTCAGCGTGCCCAAGTCCCGTGACTTAGTG
CCAGGACGGTGCTGTGACCCGTTATCCCCTGTCGGGTTTTACCTCCCCCCGGGAGAGCTCAGCCCTGGATCCCGGCGGGCGGCGGAGCCTCTCTGGAGCC
CGGACGGGACAGCCCACCAGGGTCTGCTTCTGTGAGGGGCCGAGGCGTCATTCCGCGAAGCCTTCTCCTTGCTGTTGCCATGTGAAGAAGGATGTGTTTG
CTTCCCCTTCTGCCATGATTGTAAGTTTTCTGAAGCCTCTCCAGCCATGCCAAACTGTGAGTTAATTAAACCTCTTTCCTTTATAAATTACCCAATCTCA
GGTATGCCTTTATTAGGAGCATGAGAATGGACTAATACACACATGATCTTACTCATATGTGGAATTTTTTTAAAAGTCAGTATCATAGAAGTAGAGAGTA
GAACAGTGTTTACCAGAGAACGGGGAAGGAAGAGGGGATGAGGAAGATGGAGAGAGCTTAGTCAAGGACTCAAAGTTGCAATTAGATAGGAGGAATACGT
TCTGGTGTTCTCTTGCATAGTAAGGTGACTATGGTTAACAGTAAGGTATTATATAATCACAAAATTGCTAGAAGAGAGGACTTTGAATGTTCTCACCTCA
AGGAAATGATAAATGCATGAGGTGATGGATAAACTAACTATCCTGATTTGATTATTAAACAGCATAGATATGTATCAAAACATGAAATTGCATCCATACA
TATGTACAATTACAACGTGTCAATTAAAAAATTTAAAAAATCGATATCTCTCATGGAAGTCCAAGTCGTTTACTGATACTGGTTCTGAATTTGTCCAGAT
GCATTAAATACTTGATTGATATTAATATCAATATTAGACTCAGAATGGGCTGCTAACGAGCCAAGAACTAAGGAATTTAGTTCTTGTCATTCAGGTGCAC
TGGGGGAGAAAAAAAGCAATGCAATTGGAGTCAGTCCCTGAAATACAACCACTTGAAGAATGCACTGTCACAGGGGACAGCAGGGCCAATACTTGTGTCC
TGTGAACTTGAGAGGCCATGCTCTGCTTTGACCTCTCCCAACCTGTTTGCCTCTGGCTGCACCACTGTGCTCTCTTCCCAGCTCTCTCTGGCGTTGCCAC
TGTTGGCTGCCTCCTGCTGTGGCCCGAGCCATGCTGGCCTTGGTCCACTGGTTTAGTTGTGACCCTGTGCCTCATGGCCCTGGCTCACTTGCTCAGCCTC
TTATCCTCCTGGACTCTCTTGGGAATAAGAACAGAGGAATACTAAAATACTGAGGACAAGATACATTTGGAGGATTTTTTTTAATTAATGAAAGTTACCA
TTGCAGTAGCACCATGTAGCATATAATTATTAAATACTCTGTAATAAGATCTTACATATGTGTCTACTATCTTCCCCTCTGAATACATTTATATTTTCAA
GAGTTTGAAGCAAGATTACATGAAATAAAATTCATGCAATAGTGATACTAAATAGAAGAGTAAAATCTAAAACCAAAAGGCAATAAACATTTTTAATAAT
AGGCAGCAACAAATGACAGAAACTTACAGAGGTCTACTGTTTGTACCAAAGTTTGTACCAAACTTAAATATTTCAGGTTAGTTTAAGATTTTGTGACCAA
TATGTGTTAATAATGGCTCAGGAAATAAGGACTTGATACCTTAATTATCAAGGTAGAAGTAGCTTAGTGGTAGAGCAAGTGTCTGGAAGTATGAACTGAT
GCCAGACATGATGAATTTTCAATTAAGATATCAGCAGTTATGCTCAAACCCTCCTGGGAACTGAAAAAGCAACTTTTATGCTGTGAGTTTCCATATTTGC
CTTGGCTCCTCTAACATAAATTCTTTCTTTCTGTATTTTTTTTTATAGAATCGAGTTCTGTTTTTACAAAATCATTGCACATTAGAAAATGTTACATTAG
GTAAAATTTCAAACATTTAAAAGTAGAGAGAGTAGCATGCTAAGCATTCCTGTACCATTACCCAGCTTCAATAATTATAACCTCGTGGATAATCTTGCTT
CATCAGCACTCCTTGCTCTGCCCATCTAGATTACATAGAAGCCAATTCCAGGCATCATATCATTTCCTTATGTATCTCTAGAAGGTATAAACTATTTATG
TAAATATACCAGTAATACTATCACAACACCTTGAAAATAATAATTCATTATTATAAAACAGGTCAGTGTTCAAAAACTTCCAATTGTCTTGTAAAATTTT
TTTAACATTTTAAAATCAGAAACAAAATTAAATCAATGTACAACCAATTGTAATTGGTTGATTTGTCTTCTAAAATTTTTTTGAAATGGAGCTATTATTT
ATATATGGCACTATTCGCCCTTTTAAGTATACGATTTTACAAGTGTCGACAAACATAGTCTTGTAATCACCATCTCAACCAAGATATACAATATTTCTAT
CACTCCCAAAACTTTTCTTGTGTCCCTTAGTTGTCAGTTCTCCCTACCCTCAGGCCCTGGCAGGGACTAAGCATTTTTTTTTTTTTTCTGTCTCTATAGG
CTTGCCTTTTCCCAAATGTCATACAAATGGAATCACACCATATAGCCTTTTGAGTCTGGCTTCTTTCACTTAGTATATTGTGTTAATGATTAACCTATGT
CACTGTATGTATTAGTAATTTCTCCCTTTTTATTGCTGAGCAGTATTCTGTTATGTGGATATAACACAGTTTGCCTCATCATCTACCTGTTGAAAGACTT
TTGGGTGGTTTTCAGTTTTTTGCAATTATGACTAAAAGCTCTCTAAACATTAATGTATAGGCTTTTGTATGAATATAATTTTTAATTCATTTAGGGAAAT
ATCTAAGAATATGATTGCTGGGTCCCATGGTAAGTACATTTTTAGCTTTATAGGAAACCGCTAATGTTCCATCTTCATTCTCACCAGCAGTGTGAGAGTT
CTATTTGCTCTGCATCCTCACCGGTATTATTAAACTCTAACCATTGTAACAGATATAAAATAGAAACCTGTTGTGGTTGTAATTCACATTTTCTAATAAG
TGATGATGTTGAGCATCTTTTTATGTGCTTATTTGCCATTTATATCTGCACTTTGGTCAAGTGTCTGTTTGGTTTACTTGCCCCTCTCCTGCTTTCTTTG
TAAAGAGATGGGGTCCTGCCCTGTTGCCCAGCCTGGAGTGCAGTGGCATGATCATAGCTCACTGCAAACTTGAACTCCTGAGCTCAAGTGATTTTCCAAC
CTCAGCCCCCTGAGTAGCTAGATGTGCTCCACCACTCTTAGCTAATACTTTTAGTTTATGTAGAGATGGGGTCTCACTATGTTGCCCAGGCTGGTCTCAA
ACTCCTGGCCTCAAAGAATTTTCCTGCTTTGGCCTTTCAAAGTGCTGGAATTACAGGCATGATCCACTATGCCTAGCTTATTGCTCATTTTTTAAATGGA
GCAGTTTTTCTTAATATTCTTTTGAAAATTCTTCATATAGCCTAGATAAAAGCCCACTAGTAGGTGTGTTTTATAAATATTTACTTTGTCTGTGGCTTGT
ATTTTCATTCCCTTAACAATGTCTTTTAAGAGTAAACGTTTTCATTTCGATGAAATCCATGTTAATCTGTAGGTTCTCCCTTTCTCTTTTATAATTCCTA
AAAATGTATTTGTTGATGCAACCAAGCCGTGGGCCACACACTGCAATTAGTTGATGTATCTCTTAAGTCTCCTTAACCCTTCTTCTTCCATCTTTCTCAC
TCTCTCTCTTTTTTAATCCCTTGAAATTTATTCATTGAAGAAACCAGGTCATTTGTCTAATAGAATTTCTCTTAGTCTGAAGTTTACTGATTCCCACCAC
TCCCGTATTTCCTGCAAACTGATAGTTAGATCCAGAGGCTTGATGAGAATGAAGATCAATTTTGTAGTAAGAATACTGCATAGGTATACTTCAGCCAGGA
AGCACATATGTCTGATGACTTTTGGGAACATTAGCAGCCATTAAAGATTATGGCTATTTATATATTTTTGTCAAGCAACAACAGCTGTAATCAAATTCTG
TTTCTTCTTGAGAATTTTATTCATCTCTTACTATAATTTGACAAAAAAGTGCTATAACATCTTATAGTGTAAGAAATACTCTTCATATAGTATTTTGATT
GGCCCTACCAACAACTTATTTAATAGACTTTACTCTTATCTCAGTTTTTCCCATGAAGTTACTGCAGTTCTGAGACAATAAATAACTTTTCTGAAATCAC
ATGCAGCCAGAAGAAAGGGAATTTTATGAACCTGGATCCCATGTTCTTTACATCAGAAAATATTATCTCCTTATCAATTATATGTCATTGAATCATTTGA
AAATTTTCATTGAGCACCTGTTATCTATTAAAACACTAAAAGTCAAAGTGGTTAGTAAAACTGACATTGTCCCTACCTGCATAGTGTTTACAGTGTAGTT
AGAGAGATGGGCATTAAATAAATAATAACATACATAAATACCCAATTATCACCTCCTGTGATAAATGCTCTCATATGTTTGTTTTATAGATATTTTAGAA
CAGCTATTTTATGAGATATTTTTAAATTGTTATTTAGCCTGATTCTTCATCTCCCTATCACCATTTCAGAAGGCTTACACTATTACTGAAATGAATGTTT
TCCTGCCCTTTGAACTGGAAGGAAAATACCTTCCCCAACACACATATGACCTCTATTCAACACTGAGAAAGTAGTAGAATCTCATGAAATATATATTTAT
TGGTTAACCAGTTATTTAACTAGTCTTATATATATGTTAGTACTTCATTTCTACAGAACTTAATTGTCTTTAAAATTTGCCTAATCAGGAAAGCAGCCAA
TACCCCAGAAGCCAAAAAGGACTAAAATAGATATACAAAGAACAATCAAAATATGTAAAAATACTCTGAAACAAAATGCATACTTTTTTTTCATAGAGGG
ATTCCATTTAACCATTTAAAACCTAAATTCTCTTAAAAATATGAGAATTTTTTGCACACAGTAGTTTTGAGTGTGGCTTTTTAATATCTTAACCTACCAC
AGAGTAGAGGCCACAAATTGAAATGTGATAATAGGATTGAAATAAGCACATATATACTAAAAGCAAGAAGAAAGAATTGCCTGAGAGTCTGGGGGAAGAG
GAGAAGGTAGAAAAATTTAAACAGAAAATCTTCTAAAAAAGCCACACATCTGTCTTGTGACTACACATTTCTATCAATCCTGAGGGCAGTGCTGTAACTG
ATGTTTATAATAACATTCTGTAGCACATCAGAAAAAGTTGACATGTCCAATGAATTCTGTTTAAAAAGATAGAAGCATGTGTATTTATTAAAATTACTAT
TTAAAATGGTTAAAACAGAAAACACAGCCAAACCATTTTAAAGCTAAAAGAGTAACCCTTAGTTACCTACATTCCTTGGCTTTTTAGATTTAATTTTCAG
AGGTTTGTGAATAGTCAGGTTTTCATTGGAAACTTAGAATCATTTCTAAATGAAACCAATAATTCTTAGCGCTCTGGTTAATCAACTTGTATTGACACAG
ATCCTCGAGGACACTCTCAATTCAAAGTCAAAAATCACGTTTTTTGTTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGTTTTGAGATGGAGTCTCCCGCTG
TAGCCCAGGCTGGAGTGCAGTGGCATGACCTCAGCTCACTGCAACCTCCACCGCCTGGCTTCAAGTGATTCTCCTGCCTCAGCCTCTAGAGTAGCTGGGA
CTACAGGCGTGTGCCATCATACCCGGCTAATTTTTGTATTTTTCAGCAGAGACGGGGTTTCTCCATGTTGGCCAGTCTGGTCTCGAACTCCTGGCCTCAA
GTGATCTCCCCACCTTGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGTCACCGCACCTGGCCAAAATCATCTTTATTAACTCACCTCTATTTCTTCAG
CATTGGCTCAAAATGGAGTTTATCCATTTACAAGACTAAAATCCTTTGACTTCCTATTTAAGAGTGATCTGCTCAGTGTAGTTCATTCAACACACATTTA
CTGAGTGATTACTATTTGCCAGGCTATGACTATTCCTTTACGAGGAATAAGAAAGTACGAGGTAAAACTGGTTTACTGTTTCACTGCTATATTCTCTTTC
ACATAAATGACAAAAAAAGATGTTAGAAACAAGTTCTGAATTTTTGCATCATTTCTGATCTATTGTAATCTATTGATTTAATAAGGATGCATGGGCCAAG
TTTATGATTTCAATATAAATAGCAGGCTTTCAATGTGGATTCAGAGACTTTATCACAAAGCTACTTGCAAACATAGAGTGGGTAGGAGCTGATAGATTAA
TTTCCACTCCTAATTGCAATTAGTAAATTGTCACAATGATTGTATTGATAAAATGCATGTTTTCTTGTCATAGCAAACAGTAAAGGACACATTCTTATGG
GAATGACAGGTGGCTAATAGCTTAATCTACTAACTAGTGACAGTAAAATAATAATATATAGTACTATTTAATAGTAATTATAATTATTACTTAATAATAT
TATATAATGAAATATAATGTATAATAATATTCCCTGATGATTACCAATGATACCCCAACCCAAACTGTCATTTGGTGTCCAGTCGATGCTTTATAACCCC
ACTGTGATGAGTAAATTATTTAACATTAGCAACGTGGTAAGTTCTCTGGGATAATTCTTTCATGGCTACCTTATCCAGGCAGGCCCATCCAGATACAGGC
TGCTCAAAAAAGAACTATTCTACAGGCACCATACATTTCTCATAAGTACTTTTATATGCATGCATGATACAATCACAGTGTAGGACGTTTAACAGAAAAT
TGGTTACATTATTTCTTGTCTCTCCCCAAATGAAATCTGGGACATTATGACAATTTATTTTTCTAAGGATGATCTTGGTTCTGCCTATTGAAATGTCCTC
ACTCACCTCCAAGAGGAAGGGGGATGGCTTCAGAAAATGTCTTTAAGTGTTTTTATTTTTCACGAGTTATTTATTGCAACACTAGCTCTTCCCTGCAGGA
AGCTATATAATTGTGTGCTTAATTGGTAACATAGAAGAATTCCTAGCTACTTCCTAGAGAATATACTGTTGAATTCCTTGTCACTCAAGTATCTGTTAAA
AACTCAACCGTGGGAAACAATGTCTATGGATGCCTTTGGGAAAATACACATTTTACCTATTATTTCATCTTTTTTCTACTTTGTCAAGTAGTAGGTACCC
CACAAAAATTGTTGATTGAATACATGAATAAAATCTTTCATTGAATTAAATCTCTTAAAAGCTGAAACATGTAACTCCAGAAGATATTTTTTGGCCCCCT
AGTGAATTGTTGTTCCTGAATTCTATTTGGTGTGATGCTCTGGACTTGCACTGATAATTTCTCTTTGCAGCCTCCTATGGAACTCATGTTATTACATATC
TCACTCTCTATAAACTACCTCAACATTTCTTTTCTGGTGCTAATGTGAGGAAGATAAGGCAGGCTTATCTTGAGAAATGGATTTGTTTTTATTTTACGGA
TATTATGAATTGGGTCACCAATCAGATTTCCCTTTTCTGATTCACTGTCACAGAGAAAAATTTATGGCTCAAAACGACAGTATGATTGCATCTTTCATTT
AACTCATTTCCACTTCTAGTTTTTGCCCCCATGTTTGTTTTTCCTTATTTATTCTCATAGAATTTGTAGTTTATGATTTATTGGCATATTTTATTTGTAG
CTTATTGCTATATTTTATGTTGCCCAAGATCTTAAATCTCTTTTGAAATAAGATAAAGTATTGATAAATAAAGTTTAATCCATCAATTAAACAAAACATA
TTCTATTGTATAGAAGAATCTGACAGTTGTTAGTCTGCACTTTTAAAAGCCACTGAGACAAGACAATCTTGGGAAGAATATTTATTATTTGTCTACTAAC
CACCCCTGCCTCCTTCTGAAAAAAAAGCAACTCATTCTTCTGGAAACTACTCCTCCTTCCACTGCAACTCTGCCTCCTAGAAATGTTGAGGACTCTAAGG
ATGGGTAACCAAACCAAGCCATTCAAATCACGGGCATTCCTTGGGTTGTTTTTGTTGTTTGTTGGGGAGTTGGTGTGGTGTGTGTTAGGCAATCTTGTCC
TGTGATGGAATTGAGATGTAAAACTTAGGAACTGTCAGTGATCATATTTCCTGCCATGAAGAGAAAGACTGACTCAGTGTGAGACAAAGTTGGCACAGAG
GGGAGGCGGGGAAGAGAGAGAGAAAGAATGTAAGTGAGAGAGAGAAAGTAAATGAAAGAGAAACCTGGCATCATTCAAGTTCCTGACACATTCAGTTCCT
GAGACCCAACTCAGTGCTTTCTTTCACATGGTTTGGATATTCACTGCTTCTTTAGATTTTGGGAGATAACAAATTCCTCTTTCTCAATATGGGTTCAAAT
TGAGTTTCTATCACTTTCAAGCAGGAGTCCTTAATGATAGATGCTGCTTTCAAGCTTTATTGTGAAAAATTTTGGCCCTAATCCTCATCAGCCCCAGTCT
ACTTTTGTGCAAGGATATAATTTACTCGTCAACTTGGGAAGTCTGTATCTGGCTCTAATTTTCATTTGAAAGAAAACCAGTTTTTCCTCTTAATGATATG
GTATATAAAACATCTGAAGTTTGTTTTGGAAAATACTAATATTGCAAGCATTTTTCAGTTAACTCAAACTCAAGTGTTTTGCTCTCTTGATTGTGTCAAA
AGTTGGACTTGGACAGTGGTTTCTGGAGATACGGGAACATGATAACTAGCATTTTCCACATTGTTTTACTCTATCTCCATACCAAATCAATAGAAATCTA
CATGTCTGGATGAGTAGAATGGAAAGAATGTGACTTTAGACCATGAAGATCCAGATTCATGTCTTAGCTTTACATGACCAAGATCCTCAATCTCTCACAG
TTCCCCTAGGAAACTTCTAGAAGAACAGTAATATGTACCTCCCAACATTGTTAGGGAAAAAATATGTAAAGCCCTAATACGGCATCAACATATAATAGTG
GGAGTTATTGTCACTTTATTGGCTCACTATAGAAAGACCTTTCAAAAACTTTAACAATTTGCCTTCAGCTTTTATTCAGAATTCATACCCTCCCCAACAC
CCACAAGCTGTATTTATGTATCTTCATCCTTTGTACTATTATTAATTACCTAATCCTCTTTACAGAAATATCCTTACACTATACTCCCTCTTAGAATTTT
GTCCTAGAAGAATAAAGACGTTTCTAAATTGCTCGTTTTCTTTTTATGTTGATAAAAGCATGTGAACTCATCCTGTTCTCCCTCATCTTCTTTCTTTTTC
CCTTTGACTATCAGTAAAAATAGAGCTAAATTTAATGCTCAGTTGCATAAAACTAGATTAAACTACCTACTTATTACCTCCTTAATTATTTAAAAACATT
ATTGTATTCTTTCATTGGTTATGTTGTATGTGTGACTTCAAGTAAGCTTACATTATTCTTGGGAGTAGGCATCAGTGTATAAATAATAAATGCAATAAAG
GCCTACACTATTTTAGCAACCCTCAGATGAAGAATGACTGAGCCAAGAGTGTGAGGGTGGTAGGTCTTGTATTTGATAGTTGTTGGACAAAGTGCTCCGG
CTCCCTACAGATCACCCTTCAGGCACCAGTTCTACATTGGCTGCCTCCTATTCTCCCTTCTGGTCAGGCTTTGTGAGAGGCACCCTGTCTTTCAGACTCC
ATAGTCCATGTAGCCCATTGCCTGCCAGCTATGAAGGAAAACCACAAGGTAAAAACTTCTTCAACTTGAGTCAAAGTGTTCACAGCTAAGGGCAACATCA
GACTCAGGGAAGGCTATATCTACTGCTAGACATGCAGTAGACACTGGGAGAATTTATATCTTTCTTAATGATTTGGACTGTCATTAACCTACTCTCTGAG
GAAGACTTGACCCCCCTTTGTGTCTTGGTTTTTATGACACCTACACTTGTTTACCCACCATCTTTGTCCATTTGCGTTCTTGTAGCAAAATACCACAGAC
TGGGTAATTGGAAAGAACAGATACTTTTTTAAAAAAATAGTTATGGAGGCTAAGAAGTCCAAGATCATGGCTCTGGCAGGATTGCTGTCTAGTGAGGGCT
GCTGTTTGCCTCCAAGATGGCACTTCACTGTCATGTACTCCAAAGGGGAGGAGTGCTGTGTTCTCATATCAGGGAAGGGACTAAAGGAGGGAAAAGGGCA
AATTTCCTCTGTCAAGCCCTTTTAAAAGAGAACCAAATTCCATGAAGGAGGGCAGAGCCCTCATGACTCAGGGACCTCCTAAAGGTCTCAACTCTTAATA
CTGTTGCATTGAAGATCAAGTTACAACATGAATTTTGGATGGGGAAAAACACTTAACCCACAACACCACCTGCATCTCCAACTAGAACAAGACCTGCTTA
AGGTTAGAAGCTGTGTCTTACTCTTCTCAGAATCTTCAGCGTACCCTACAAACCTAGTACATGGTTTACACAGTATGTTAAAGGAATAAACATATCCTCA
GCATAGCAAGTTGAAATGCTTAATCATTTGCCACCAATAATAAAGTGTAAATAGAAATTATTCATTACAATGGTATTTTGTTCTCATTTCCAGAAATCAG
ATTCATGCCTTTTGTAAAGAATGTGTAGTCTCAGGATAATAGAGTCCTGCACTTAAAGGGAGATAATGCCTAGAAGAATCAAGTTAACTTTGCAGATGTT
TTGATATATCTGGAAATATCTCTAATAGGAAAATGAAAGCCAGGAAGCTTTTCTGGAACAGTAGGTTTTATGTTGCTACTTAAAATATTCTGTGCCATTG
TTCAACTATATGCCATCCCAGCAATCTTTGAGTTTTAAATATTTGGCCCCTAGAGAACCACTTGGGTCAGTTGCTGTCTGGTCACCATCCCATTCTAAGA
CTGCCCTTCGGGTTACATACACTGATGCTGCCAAGCACTGATGAACTATTCTTATATAAAAATAGAAAGTACATTCTAGAGGTGAAACATATATACATAT
CTTTTTAAAGTAATGTTTAAGAAAACTATCTTATATTTCCAAATTCCAGAGGCTGTTTCTTGACAATTTCTGAGATAAATAAACCACACATTCTTTTAAG
TCAGAAGCAGCAAGTTTGAATTAGTCAATGGAATCTTCACCTACATTATTTATCTACATCTTATCATTATATATGTCAGTTAAAGGAAGGAATTGGTATG
ACTATTTTACTAGAAAAGTGATGTCTTCCAAAACTGATGAGGAAACCTGAGTGAAAGCTCAATGGAATTAATTTCTTTATTGGTGTTTTCCTGTTTTAGG
AAAGGTTCTTAACATGTTAGTAATTTCAAATAACTCTCCATAGCTGTTTCATTTTTCTAAATTATAAAATACATTCTCTCAGCTCCAAATACTTCCTGGC
CTCTGACTATTGATAATTGGAGTTTGAAGGTTCAAACAAGATCAGAATAGCTTACATTGGAGAAAGTGACTATCACAGTTAATTTTATGTGTCAGCTTAG
CTAGGCCACACCACCTAGATATTTAGTCAAACATTATTTTAGATGTTTCTGTGAAGGTTTTTTTTAGATGAGATCAACATTTATATCAGCAGATTTTGAG
TAAAGCAGATTACTCTCCATAATGTGGGTGGGCCTCATCCAATCAGTTGAAGGCCTTAAGAGAAAAAGATGAACTTGTGGAAGAGGGATTTCTGCCAGCA
GACTGTCTTCAGACTTGAACTGCAATACCAGCTCTTCATTGGCTCTTCAGCCCACCAGCCCACCCTGCAGATTTTGAACTTGTCAAGACTCCACAATCAT
GTAAGCCAATTTATTACAATAAATCTCTCTCTGTCTCTCTGTATCTCTCTCATTTCTTATATATTATATATAATTTATATAATATACAATGTTATATAGT
ATATATAATAGAATTAATATATAATTAATATATAAGATTAATTATATCTAATTTATACATTTATA

Expression



Full and truncated open reading frames discovered in TCONS_00253752

In silico ORF/peptide predictions
Nothing found.


RiboTaper predictions from Ribo-Seq data (HEK293 cell line)
Nothing found.

BLAST search results

No hits found.