| 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 |
|---|---|---|---|---|---|---|---|---|
| ENST00000448214 | antisense | antisense | TCONS_00071761 | 590 | 275 | noncoding | Trans | |
| ENST00000463496 | aryl hydrocarbon receptor | nonsense mediated decay | TCONS_00071761 | 552 | 277 | UTR3 | Trans | |
| ENST00000482603 | glyoxylate reductase/hydroxypyruvate reductase | processed transcript | TCONS_00071761 | 567 | 257 | noncoding | Trans | |
| ENST00000494969 | colony stimulating factor 2 receptor, alpha, low-affinity (granulocyte-macrophage) | protein coding | TCONS_00071761 | 539 | 260 | CDS | Trans | |
| ENST00000524264 | SAP30L antisense RNA 1 (head to head) | antisense | TCONS_00071761 | 621 | 257 | noncoding | Trans | |
| ENST00000556539 | signal transducer and activator of transcription 2, 113kDa | processed transcript | TCONS_00071761 | 646 | 258 | noncoding | Trans | |
| ENST00000620139 | melanoregulin | protein coding | TCONS_00071761 | 533 | 263 | UTR3 | Trans | |
| TCONS_00030165 | antisense | novel protein coding | TCONS_00071761 | 590 | 275 | UTR5 | Trans | |
| TCONS_00050741 | spermatogenesis associated, serine-rich 2 | novel protein coding | TCONS_00071761 | 506 | 234 | UTR3 | Trans | |
| TCONS_00059486 | signal transducer and activator of transcription 2, 113kDa | novel protein coding | TCONS_00071761 | 646 | 258 | UTR3 | Trans | |
| TCONS_00059487 | signal transducer and activator of transcription 2, 113kDa | novel protein coding | TCONS_00071761 | 646 | 258 | UTR3 | Trans | |
| TCONS_00059488 | signal transducer and activator of transcription 2, 113kDa | novel protein coding | TCONS_00071761 | 646 | 258 | UTR3 | Trans | |
| TCONS_00059489 | signal transducer and activator of transcription 2, 113kDa | novel protein coding | TCONS_00071761 | 646 | 258 | UTR3 | Trans | |
| TCONS_00059491 | signal transducer and activator of transcription 2, 113kDa | novel protein coding | TCONS_00071761 | 646 | 258 | UTR3 | Trans | |
| TCONS_00059493 | signal transducer and activator of transcription 2, 113kDa | novel protein coding | TCONS_00071761 | 646 | 258 | UTR3 | Trans | |
| TCONS_00059495 | signal transducer and activator of transcription 2, 113kDa | novel protein coding | TCONS_00071761 | 646 | 258 | UTR3 | Trans | |
| TCONS_00059497 | signal transducer and activator of transcription 2, 113kDa | novel protein coding | TCONS_00071761 | 646 | 258 | UTR3 | Trans | |
| TCONS_00095053 | epithelial membrane protein 2 | novel protein coding | TCONS_00071761 | 512 | 259 | UTR3 | Trans | |
| TCONS_00095053 | epithelial membrane protein 2 | novel protein coding | TCONS_00071761 | 568 | 257 | UTR3 | Trans | |
| TCONS_00101169 | myosin phosphatase Rho interacting protein | novel protein coding | TCONS_00071761 | 546 | 266 | UTR3 | Trans | |
| TCONS_00107851 | transient receptor potential cation channel, subfamily V, member 1 | novel protein coding | TCONS_00071761 | 609 | 245 | UTR5 | Trans | |
| TCONS_00107864 | transient receptor potential cation channel, subfamily V, member 1 | novel protein coding | TCONS_00071761 | 609 | 245 | UTR3 | Trans | |
| TCONS_00118919 | potassium channel tetramerization domain containing 1 | novel protein coding | TCONS_00071761 | 609 | 260 | UTR3 | Trans | |
| TCONS_00119961 | ring finger protein 152 | novel protein coding | TCONS_00071761 | 641 | 257 | UTR5 | Trans | |
| TCONS_00132247 | zinc finger protein 43 | novel noncoding | TCONS_00071761 | 607 | 264 | noncoding | Trans | |
| TCONS_00135884 | zinc finger protein 347 | novel protein coding | TCONS_00071761 | 605 | 257 | UTR5 | Trans | |
| TCONS_00147100 | ATPase family, AAA domain containing 2B | novel protein coding | TCONS_00071761 | 602 | 264 | UTR3 | Trans | |
| TCONS_00184373 | neutral cholesterol ester hydrolase 1 | novel protein coding | TCONS_00071761 | 613 | 275 | UTR3 | Trans | |
| TCONS_00194682 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00071761 | 623 | 275 | UTR3 | Trans | |
| TCONS_00195633 | aspartylglucosaminidase | novel protein coding | TCONS_00071761 | 500 | 262 | UTR3 | Trans | |
| TCONS_00196475 | F-box and leucine-rich repeat protein 7 | novel protein coding | TCONS_00071761 | 618 | 270 | UTR3 | Trans | |
| TCONS_00243475 | osteoclast stimulating factor 1 | novel protein coding | TCONS_00071761 | 616 | 275 | UTR3 | Trans | |
| TCONS_00243482 | osteoclast stimulating factor 1 | novel protein coding | TCONS_00071761 | 616 | 275 | UTR5 | Trans | |
| TCONS_00247297 | family with sequence similarity 166, member B | novel protein coding | TCONS_00071761 | 627 | 275 | UTR5 | Trans | |
| TCONS_00252827 | discs, large homolog 3 (Drosophila) | novel protein coding | TCONS_00071761 | 638 | 264 | UTR5 | Trans |
>TCONS_00252827 (18066 nt)
CGGAGCCTCTGTCTGTCACCAGGCAGGAGTGCAGTGGTGAGATCTCGGCTCACTGCAATCTCCGCCTCTTGGGTTCAAGCGATTCTTCTGCCTCAGCCTC
CCGAGTAGCTGGGACTACAGACACGTGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTGGAGAGAAGGTTTCACCGTGTTGGCCAGGATGGTCTCGAT
CTCTTGACCTCGTGATACGTCTGCCTTGGCCTCCCAAAGTGGTGAGATTACAGGCGTGAGCCACGGTGCCCGGCCAATCTGTTGAATGTTTAAGGGCAGT
ACATAGACAATGGTTTATATTGTCAGTGTTCCTATTGTGGGGTAAGATGGTGTGCTCGTGGTCATTTATTGTGCCACATTTAAAATACAGACAAATTAGG
CCGGGCACTGTGGCTCACACCTGTAATCTCAGCATTTTGGGAGGCTGAGGCATGCGGATCACCCGAGGTCAGGTTGCCCCGGCTGGAGTGCAGTGGTGCG
ATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGGTTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACACACTGCCACGCCTGGC
TAATTTTTTGTATTTTAGTAGAGACAGGGTTTCACCGTCTTGAACTCTTGAGCTCAGACAATCTGTCCGCCTGGGCCTCCCAAAGTGTTGGAATTACAGG
GGTGGACCACCGCGCCTGTAATTTTGGGTTCACAGCAAAATTGAGCAGAAGGTACAGAGATTATTTCCCATATGCCCTTTGTCCTTCTGCATGTATAGCC
TCCCCTGTTATCAACATCCACCCCATTAGAGTAGTGCTTTTGTTATAATCTACATTGGCATATCATAATCACCCAAAGTCCATAGTTTACAATAGGGTGC
ACTCTTGGTGTTGTACATTATGTGGTTTTGGACAAATTTATAATGACATATATCCACCATTATAGTATCATACAAAATACCACAATGCTCTGAACATCCT
CTGGGTTCTGCCTAGTCATCCCTCCCTCCCCTACCAACCCGTGGCAACCACTGATCTTTTATTGTCTCTGTAGTTTTGCCTTTTCCAGAATGTCATACAG
TTGAAATCATACAATACGTGGCCTTTTCAGATTGGCTTCTTTCACAAGTACTCTGCATTTAAGGTTCTTCCATGTTAAGCATAGCTTGATCGCTCTTTTT
TTTAGTGCTGAATAATATTCCATTTTCTAGGTTTACCACAGTTGATTTATCCATTCACCTACTGAAGGATATCTTGGTTTCTTCCAAGTTTTGGCAATTA
TGAAAAAAGCTGGTATAAACGTGTGTGTGCAGGTTTTTGTGTGGATATAATTTTTCAACTATGGGTAAATACCAAGGTGCATGATTGCTGGATTGTATGG
TAAAACTATGTTTAGTTGTAGAAGAAACTGCCAAACTGTCTTCCAATGTGATTGTGTTGATTTTGTATTCCTACCAGCAATGAATGAGAGTTCTTGTGAC
TCCACGTTTTTGCCATCATTTGGTGTTGTTAGTGTTCTGCATTTTGGTCATTCTAATAGGTGTGCGGTGGTATCTCGTTGTTTTAATTTGCATTTTCCCA
ATAATATATGATGTGGAGCACGTTTTCATGTGATTATTTGCCACCCTTATATCTTTGTTGGTGAGGTGTCTGTTAAGGTCTTTGGCCCATTTTAAAATCT
GATCACTTTCTTATTGTTGAGTGTTTTTGTTTGTTTGCTTGTTTTTGAGACAGAGTCTCACTCCGTCACCAGGCTGATCTTGGCTCACTGCAACCGCCAT
TTCCCGGGTTCAAGCGATTCTCCTCCCTCAGCCTCCCAAGTAGCTGAAACTACAAGTGCTCGTCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGA
CGGGGTTTCACCATGTTGGCCAGGATGGTCTTGATCTCTTGACCTCGTGATCTGCCCACCTTGGCCTCCCAAAGGGCTGGGAGCCACCATGCCCAGCCTA
TTGTTGAGTTTTAAGAGTATTTTGTGTATTTTGTATAATAGTGCTTTATCCAATATGTCTTTTGCAAATATCTTCTCCTAATTTGTTGCTTGTCTTTTCA
TTTTCTTGACAGTTTCTTTATGGAGCAGAAATTTTGAAAGTTCAAAGATCAGTTGATTATATTTATGTGAGTCTATTTCTGGGCTTTCTACTCTGTTCCA
TTGATCTATTTGTCTGTTCTTTTGCCAATACCACACTGTCTATTACTGTAGCTTTGTAGTAAGTTTTGAATATGGGTATTGCCAGTCCTCCAACTTTGTT
CTTCTCTTCAATGTTGTGTTGGCAATTCTGGGTCTTTTGCCTCTCCATGTAAACTTTAGGACAGTTTTGTCAATATCCACAAAATAACTTCCTGGGGTTT
TTATTGGGATTGCATTGAATCAAGCTGGGAAGAACTGACATCTTGACAATATTGGACTTTCCTATCCATAATCTCCATAACTTCTTCCACAATGGCTGTA
CTAAATTACATTCCTACCAACAATGTAGAAGAGTTCCCTTTTCTCTGCATCCTTGCCATCATTTGTTACCTTTCATTTTTTTGATGAAAGCCATTCTAAA
AGATAAGAGATGATATCTCATTGTGATTTTAATTTGTGTTTCCCTAGTGATTAGAGTGACTGATAATTTTTTTATATATCTGTTGGCCATTAGTATGTCT
TCTTTGGGAAAATATCTGTCCAAATCATGTGTCTATTTTTAAATTGGGTTTTCTTGCTATTGAATTGTTTGTGTTCCTTATATATTTTGCATATTAACCC
CTATGAGATGTATGGTTTGCAGATTTGTTTTCCTGACCTGGAAGTTGTCTCTTCATTTTGTTAATTGTTCCTTTGCTGGGCATAAGGTTTTTAATTTGAT
GACATTCTACTTGTCTATTTTTACTTTTGTTGTCTGTGTTTTTGGGGTCTTATTAAAAAAATCATTGTCTATGCCAATGTTGTGGAGCTTTTCCTCTAGT
AGTTTTATAGTTTCAGATTTTATGTTGAAGTTTTTAATCCATTTTGAGTTGATTTTTGTATATTGGGTGAGATAAAGATCTAATTTCATTCTGCATGTTG
ATAACCAGTTTTCCCAAAACCATTTATTGAAGATACTGTCTTTTTCCCATTGTGTTCTCTCGGCACCTTTGTCCAAAATCAATTGATTGTAAATGTGTGA
GTTTATTTATGAACTTTTAATTCTGCTCCATTGGCTGATGTATCTGTTTTTATGCCAGTATTATGCTGTTTTGATTATAATCACTTTATAATATATTTTG
AAGTCAGGGATGTAATGCCTCCAGCTTTGTTCTTTTTGTTTAAGATTTTTTGTATGTGGCTATTCAGTGTCTTTTGTGGTTCTATATGGATTTAAGGATT
TCCCCCCCTATTTCTATGCAAAATGACATTGGAATTTTAATAGGAATTGAATTGAACCTGTAAATGGGTTTAGGTAGCATAGACACTTTAACAATTTTAG
TTCTTTCAACCCATGAACACAGGGTATATTTCCATTTATTTGTGTTTTCTTCAATTTCTTTCACTAGTGTTTTATAGTTTTCAGCATACAGGTCTTTCAC
CATCTAGGTTAAATTTAGACAATATTTTTGGTGCTATTGTAAATGGGCTTATTTTCTTCATTTCAAGTTAATTACCTATTAGGATATAGAGTCACTACTG
AATTTTTTTTGATGATTTTCTATCCAGCAATTTTACTGAAGTCATTTATCAGTTCTAACAGTTTTTTTTTTTTGTGTGAGGTAGTTTGGATTTTCTGTAT
ATAAAATCGTGTCATCAGCAAATAGAGACAATCTCACCTCTTCTTTTTTCTATAAAGATGCCTTTTATTTCTTCTTGTTCTTCTAGGATAAGTCTACTTT
TCTTCCACGTAACAACCACAGGATAGATGACATTCATTTTCTAAGAAACAAAATCTTGGCAGTTAGATCCGTGGGGTAAAGAATATAGATACTAATGTAA
GTTAACACCTCAAGTTCATGTCCTTGGTTTGGATGCTTTGTTCAGGAGTGTTTAGTGGTATTTCAAAGGAATCAATATCTATAACAAATTAAAATAACCA
GGAATGGACCAGTGATGGAAATGTGTTCCGAAAATATGTTTAATATAATTTGGCACAACTGAAGTGATAAAAATATAGTAGTTAGACCATTTATATTCAC
AATTATTTAACATTGTATCTTATTTTCTACCTCAAATGATTTAATCTTTTCCATATTGGTATGGTCCTGGCCGATAACTCTTTGTGTGGCAGCCTGAGAG
AATATGGAAGACACTGTCAGTGTTGGAAGATGGTGGTTTTATCACTTTTCATTGCACTGTCTTTAAAACATGGGCAAATTGACTAAAAGAAGACTACAGA
AGAAATAATGGTGATTGTGAATTTGGTATGAAGCATGGATGTTAATTAATCACACATGTTCTCTGAGGTCCATTGTAAAAGGAGACCTAGTCTTCAGGGA
GAGAGCCACTAATGGGGAGATCTTATTCCTAGAATTTTGTGGTTATATTATTATTCATGAACCAATGAATAATAAATGAATGATATAAAGGAAGAAAAAC
GTGCTTGGACCAATGATGAGTACCATGGGGTATCTGAAACAGGATTTTTGATTAAACCCATATGCAATTCTGAGGTCCATTACAAAGAGACACGTATTAT
TCCTTTTTTGGGAAGTGAGCCTATGGTACCTTTTCCTTGGACTTTGTGGTTCTTGGGGATGGATTGCATTTTTGTTATAAAATCAGCCCATGAATTAAAA
ATTTATCAATGAGTAAAACATAAAGCATAAGTCATGTACTTATTATCAGTGACTGTAATGAAACATGGATTATTATTAAAACTTATCTGAGACTCCCAAT
AAATTAATACCCAAGGCTTCTACCATTCTGGTAAGGAGCATATGGTCATTTGTATGCAAGAGTCAGTTTTTGTTCTGTGTTGGTGGTGGGTTGCTGACTA
TTTTATGAAGAAAATGAAGCATCTTTAATCATATAAATAGTTGGTTAAATAACCACTTAATTGAGACCAAGCAGAGACCAATGATGAGTGTATTAATCTA
TTTTTTAATGGATTTTTATTAAACAAATAATAAAAGAAACACAGTCTATTCTTCCTGAGGGCAATAACTCTAGACAGATGTAAATATTCTTCAGTGTTCT
TGTCCAGTGCTGTGAGATCACAGATACTGATGTCTTTTGTATATGAGAAGGAACTTGCATTTTTATGTCTCAGTTTATATTTTAGAGTCAGCAAACCATG
GACCAATTAGGAACAAATGTTATGATATGAGAATGCTGATTCTTGTTTTTTTTTTTCATGATAGACATTCTAAGAAAAACTCTAGGCTCTCTCATTGTTT
TTGGAATACATACATGGTTCTTTCCAAGTAGTTTCTTAGAAAAATGTTTTTAAAAAGAGGCTTTTAAAAAGAGCCTTTTAAAATGTTTTTAAAAGAAGGC
TTTATTTTTCTCTATAGAATGAAAACCATGTAGCTGGTCTTATTATTCTCTAATCATGAAGACCATTATTGTTATTTGTGGACTAAGGAGCAGAAAGACT
GATAGTGGACATAGGCCAGCTGATTTAATAATTTAAGAAAGAACTGTTATCCTGAGTAAGGAGCATAGAGACAAATATAAAATGAACGCACTCTACCTGA
TTTAATTATAGTCTTCTGGTGAAGATCTTGCTGTTATCTCTGTGAATCAGGAGAGAAGAGATTGATAAGGAATAGACGAGATTGGATTTGGTCATTTCCC
CAAGGTGAAGAGCATGGCGATTTCTTCTGTGGTAAGGAGCAATAATGAAGACCATGGTTGATTTAATCAGTCTCTGCTGATGAAGATCTTGGCTGTTACC
TTTGTGTAATGAATGCGCAATGATTCAATTATTCTCCAGCGAGGAAGATCATGGTTGTTGTCTGTTTGAGTAATGAGTGTAGAAACCTATAATGGAGGCG
TGATGGCTGATGCAATCATTTTCCACTGATGAAGGTTTTGATGGCCACCTGTAATGAACAGCCCCATCTGATTTAATCACTGTGCAATGACCGTGAACTG
TACAGTTACCTCCGTGTGTCACAGGAAGACTCTTTTGACTTAAGCACCCTTCCATGGTCATGAGGTTTCTGGTTGCCTCTGTGTGTTAGAAGCTTGGAGA
CCAATGCCTTCTGCTGTGATCGCGTTCTCCACAGTTGCCTCTGGGTAGGAGCCTGGACACTAATAGAAAATGGATGCACTTGAGCCGACCTAAGCATTCA
TGGTCATGAGATTTGTGGTTGCCACTGTTGGTTAGGAGCATAGAGATCAGTAATGGACACACCTGGGCTGGCAGAACATCTTGCCTTGATCTGGAGCCCC
ATGTCTGCCCCTCTGTAGAGGTGCACATGGGCCAATGATGGATGCAATGAGCTGATCATTTTGCTGTGATCAAGGCTATGTTGCCTCTGTGTTAGGCCAA
TGTGAGTAATGGTTCTTGTCTTGGTTTAGGTTGTTTAATGGTATTCCTGATATTATTAAAAATTATTTAATATAATAAAAAGTTAATTGGCTTAATGACA
ATGTGCAACATTGAGGTTAATTAATGAAAGAGATGTAGTCTCTGTGGGAAATTATTGTATAGACAAATGTAAGGATTCTTCAAATATCTTGTTCTTGGGT
TTTCAAAATCATGTATTCATTTTATTATCAAAGAAGAAATGATTTATTCAATAAATATTTAGAAATGAATGATGAAAGAGAGACCCAACTATGAATCAAT
GGTGACCACTGGTGGCATATAAGTCATGGATGATGAATATGAGAAGAAAAGAATCTAGGTTTTTGCTTCTGTTGGAAATGATCCTGTAGACAATGTCAGA
AACATACAAAGATCATTTTCTTATCTTGGGGTCATAGATTTAGGTTTATTATTACTAATATATGAATGATAGAACCATTAAACAAATATAAACAGATTAC
AAGTAGAGATTTAAGCTACAGTGTCCAGCTATGAATATAGGAGATGAGATAAATTATTACTAAAAATAGGAGATACTGATTCCTCTTATCAAAGAAATGG
ATCACAGTGTTTCCTCTTTGACTAAGGATTATATAGAATCTAACAAGTAAGAGTCAGTTTTATTTTCTTGGTCAGAGATTGTTTCTTCTGTTAAGAGAGA
AAGACACCTATAATATGAAAAATTAGTAAATACCCAAATCACTGAATAAATGCTATGCAGAAAGGCAGGATCAACAGAGATTAGGTCTCAATGTTTTTAG
TCTGCTCTGTACTCCTCAGAATGGACAGACCCGGGCTGATTTTGGTGTTCTGTGGCTATGAGATCAGTGGTTGCCTCCATGTGTTAGGAACATGGAGACT
GACGTAATAGTCAAACTTCTTGTCTCAGTTTCAGTGTTCTTCTGAAGGGTATGCAGTAAGTGCAAAATGTAATCAGTGACTGCCAACCATTACCCAAATG
TAAAAAATGTAATTATTATATATGAAGCCTTGAGGTCAGTTGATCTACAGGCAGATGTTAGAAATATTATTATATTTCTGCTTATTCCATAGGCAGATGT
TAGAAATATTCAAGAATCTTGTCTTCTAGTTTTTGTGATTCTTGGTATTTATTTTAGTATTATTAGATTTTTGATGTATTATTCAATGATATGAATGAAG
AAAATGAGAGCCAAGCCTGGATCAATGATGTCCACTGGTGGCGTATAAATCATATTTGGTGAATATATGTCTGGAACTCTGAGGTCCAAGAAGGAAGGAA
TCTAGGTTATTGCCTCTTTTAGAAATAATCCTATAGATTATTTAAGAATATATAAGGATCTTATTTGGCCTTTTTAAATGAGTTTTTACTCTATCATAAT
AAATTGATCAATAAAAGGATCAACATATGGATACAAATACATAAAGGTAAATAGGGTGAAGCATCATCAAATTATGGAAAGATGTGGTGGCAAGAGAATC
CACGTGTATGTACACTGAAGACACTGAATGTCATTAAAAAACCAATGGTTCAGGCTGTTACACCTGGTTAAAAATCATGCAGGTAACATAAATAATAGCC
TGTATTCTGTATTAGAAATAGCAAAGATCCGATTGTGTTTCGTAGCTATCGATTATATCTTCATAAGTTGATTAGTGCACAAATAACCAAAGAAATGTAT
GAATACACGAAGAAAAATGGAACCAAGTATGGACTAAGTATGTCCTCTATAAAGTTGCTCTTAGTTAGAAACAAATTGTAGGATTTTACTAGGGTCGGAT
AGGCATTTCTGTTCTAGATTTCTGAAAATGAAAAGATTACTCATTTTGTTGAAAAGGAATAGCTGGTTGGAAAAATTAATTCGTTTGTTCCTGAATTATA
AACTCATTTAGACTAATAATGAATGAGTTAATAGATAAAAAGATCAAGAACTGACCACTCATGAGACTGTGTTATAAAGCCAGGAATGAGAAGAAGCTGA
TTCTGTAAAGCAAAGCTAACTTGCAGAGAATAGCAAGACGATTACATGTTTGAGTGGCGGCACTGGGGCCAATATGTCCCATAGTCAGATGTTTTTCTTA
ATGCAGGTGATGGATTCAAGAATGTTCACTATTGATGTAAAATTCATAACTTAAATAATTCAATAAATAAAAGGAGAGTGAATCTAATCTAAGGATGGGG
AGTGTCGTGAACCAATGTTTGAGATGAACCTAACCCTGATCATTTCATATTTATTCAGACACAGCCTGAATCTTGTTGTTTCTTACCTGTAACATCTACT
TTGTACTTCGCAGGGTTGATGTTCATGGGTGATTGATCATCCTGTAGCGACGGTGGTATTGACTGTTCCCCAGAGGACAAGGAGTGTGTTCTTATGTAAG
TCATAGTTGACATTCTTGTTTTTGATTGGGTAGTTTGCCTGTTCATTGATGTTCATAGTACTATAGAAGGTAGATAAATGGCCACATACCTAAAGAAAAT
CAAAGGGGACAAAAAGTGAGAGTCTGTTATAAACTAAGGATTATAATTAATGTAATTCAGTACAACTGTGGACAATTTTGAAAAGATAAAGATTGATGTC
ATTTTAGTCATTTTATAGATAAACTAAAAATGGGACATTTTTAATATCCCATTTTAGCATTTTTCATAGTTTACACAAACGTTCCTATATTGCTAGATAG
CCTAGTCTGTGAACTCCCTGAGGAAGGAGCACATGTGAAGTAAATACTTGTCATTATCATAGTGGGTTCAAGTGGAATATTCTTCCGGCTTATTGTTACA
TCTTCATAGACTATATAATTTAAACAAAACGGTTCAAGCATGGACCATGACATAACTGAAATCAAATCTAGACAAACATGATTATTATTATATTTCACAA
CATTTTTGTAGTTCGTTACAAAAAAAGACCTAGCCTATTATATTACCTTGTCTATTATCTCTCTTGGAAATGAACCCATTGACAGATATTAAGACTATTC
AAGAAACTTGCTTAGGGGCTATGGTGGATTGTTAACACATACTAATTTTATTATCAGTGGATAAGTATGCATAAACATCTTGTAAGTTAATATAGATACA
TATGTCTAAGTGTGGTCTCATTTTGAGTATATTTACTGGAACAAGAATTATTATGACATGTCTTAAATGTTATGATCCATTAATAAAAATAGACCAAGCT
TGTGACCCAAGTCAGTAACCTGCATATACACATATGTGAATACTCATTGTCTTTATTTCTGGAGCTTTTTAGTTTATACTTGTTTTTGTTTTCTCTTTTA
GTAAATTGAAAACATTATATAAATACATAAATCAAAACATAGGTAAGGAAGTTAGAGGAAGCTAAGCATGGACTACTTATGAGGATGTGTTTTTAAGCAG
GGATTATAACTTAATCCATTTTAGTACAATGGAGCACGATTTAAAAAGAGATCAGTGTTTTCCATTCTCTTTTCATAGCTATGTATTATTCCATTTTGGG
TTTTACTCCTGTTTATGCAACATTCCTTGATGGATAACAATCTATGGGTTAGATCCAAGGCTTAAATTTTACGTAGTTGTGTTTTTATAAGTCATTATCA
GGGTTTTAGATGTTGAATGGGGTGATGACTTGATGGTTGTTCGTTGTTCCATCTTAAACGTATGTACATGTTAAATGAAGAAAAGGCCAAGCACCAATCA
GTGATATGAATGGATTGATTGATCAGTTTTATGATTAAATTCATTTCTGCACCCCTGCAATTTATTTAAAAGGGAGATTTGGTATATTAAATCTATGGAA
ATTTCAATGGAGTGATTGTCTCATGCTTTTCACACCTGTCCTATATTCCACAGAATGGACATCATGATTGGGATTGTCTTTATTAAACTTTGTCAGGAGA
GTAAAGATCAATGTGGCCACATGTTGTGGCTCATGCCTGTAATCCCAACACTGTAATCCCAGCACTGTAATCCCAGCCTGTAATCCCAGGCTGAGGTGGG
CGGATCACCTGAGGTTGGGAGTTCGAGACCAGCCTGACCAACATGGAGAAACCCCGTCTCTACTAAAAATACAAAATTAGCCGGGCATGGTGGCGCATGT
CTTTAATTCCAGCTACTCAGGAGGCTGAGGCAGGAGAAACGCTTGAACCCGAGAGGCGGAGGTTGCAGTGAGCTGAGATTGCGCCATTGCACTCCAGCCT
GGGCAACAAGAGTGAAACTCCATCTCAAAAGAAAAAAAAAAGAAAACAAAACAAAAAAAGAAAAAACCAATGTAAGTACCTGTTAAAGTTCTTGCTATGG
TTCCAGTGGTTTGCTTCCTAACTGTGTTATTTAGAAATTTGAAGTATATTTAATGAATGTCCTCCCTTCCCACTGGCCCTGCCAGGCATGCTGCCATCTG
TTCTCTGGGACTTGTGAGTAGTACACTGCTCCTGTTATTTCATGTGCTTTGCTAAGTTGTTTCTTCTGTGTCTCAACTGATCAACACACCCAGACCTAAC
TGATTTCCAGGTTGGGGCTCTCCTAGAGAGTGCCTCTCTTGGTAGGAATAAACTGGACACAGACAAGAGCCTCCATGGTGTCTGCCTGTATAACCAAGTT
TTCTATGAGAGGGACAATGGGTCATAGATTGAACACTTGGGCATTACATCTGTGAGAATAAGTCTATAGTAAATTTCAGTAAATTTGAGGGATCTAATTA
TGGGGTTTCAGTAGATCCTGGGGATTTATTGCATTATTCGAAGGAAATAAATGAAAGAATCAGCAAAACATACAGACACACATATAAATAATTAAAGATG
AAGAGGATAAAGCTGGATTAATTGAGGAAAATGCTATCAGACAGGAATTTTTGGTTCTGTAATTCTGAAACACTGCAATGCATTAAGAAACCTGTACATC
AAGGGTGTCACCTGTCTAGGGTAGGGTAATATAGAGTAGTTGTTCTCAAATGCGAGCATTGGAGTGACCTGGAGGGCTTGTAAAATACAGAAGGTCACCT
ACATTCTCAGGATTTCTGATTCAGTAGGTTTGGTGTGGGGTCTGAGAATCTAAATTTCTAATAACTTAATTTCTGTAGGTTCCAATAGTTTCCCAAATCA
TGCTGATGCTGCCTCCTGAGAAATATTTTCAGAATCACTGAGAAAAATGTATGAAATAGTTAATGTCCTTGCTCTGTGTCAGTGGTAAGTTCCAGTTTGT
TTATTTTATTGAGAAAAAGAAGGTAATTAATTAATTAAGCAATTAATATTTATTTATTTATATTTGAGATGGAGTCTCACTCTGTTTGTTGCCCAGGCAG
GAGTACAGTGACGCGATCTCAGCTCACTGAAACCTCCACCTCCCAGGTTCAAGCAATTCTCCTGCCTCTGCCTCCCGAGTAGCTGGGATCACAGGCGTGT
GCCACCACGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGCCTGGTCCTGAACTCCTGACCTCAAGTGATCCGCCCAC
CTCAGCCTCCCAAAATGCTGCAATTACAGGCATGAGCCACTGCACCCCACCCAATTAATATTTAAAAGTCTAAGTAAATGAAAGGGGAACAACATGGCTC
AATGGAGAAATGTCTAATTTATATAACATCATTGTTATATTGTACAAAATGGATGCACCTTAGGTGAGTTAAGCATTCTGAAAAGACCAGGCTTTCTAGG
ATACTGCTACATTTTAGGAGATTAGAAATCAGTGGAATTGGCACAGTCTTTGTCCGTTGAGTGGGTTTTCATGGGTGTTCATTGTACATCTTTAAAATGA
GTGAATGACTACATACATGAATAAAATCAAACAAGGACAAGCCTATACTAACGATGAAGAACCAAAATTTAGGATTAATTTGATTTAGTGTTATTTAGGA
TGGTTTTTAAAAAAGATCAAGTCCCTATCACAAATTGCTCTGTTTAGAATTCTACTGCAGGTTTTCCCTAAGCATTCCTCAAGTGATAAAGATGTAAGTT
ACGAAGAAGGGACACATAGGAACTAGAAGCACTTGTCAGCGTTTTCTTCTGGTGGTTGAGTCGTGTTTATGTAGAAAGAATATACAAATTATGTGAAAAA
AGGCTAAGGAAGGACCAACGATGCGAGTGGAATACATTCTGAAATGTGTTTTATGATCAAAATATCTGTGACCTACTGCGGTCCACTACAAAGAGGGATT
TAAGTGTTTATATCTGTAGGAATGCCTACAGATAGATTTCAGTGATATTCAGGAATCAGGTTCTCAGTCTTTGGTGCTTCATGGATTTTGATTTTGTTGT
TATTCAATAAGTGAAAGAATAAATAAATATGTCAGTGTATAAAAATGAATAGAATGAAGTTATCTAACTATGAAAGTATGGGGTGAGGCAAGAATTATTA
TTAATATAACATAGAACCACTGGAGTTCAGTAAGTAATGCTATCTTTACCCCAAAATGTAACCCCTTAATGCATCAAAGGGGTTACATTTTGGGGTAAGG
ATAAGTAAGCAAGATTGTGATGTATGTTCTTGCTTTGAGTCAGTGATGAGTTCAAGTGGCCACTTACTGCAGAGGGAAAAAAATAAATTATGCCATAAAA
TAATAAATACCTAAATGACTGAGCAAAGGAAATGGGGAAGGCATGTATCAGTGGAAAGAATATCTCAGCTTTCTGTTATTTGCTGTGCTTATATTCCTCA
GAATGAAAGCTCCTAGGTGATTTAAGCATTCTACTGTGGCCATGAACTCTTATGTGTTAGGAGCATAGAAACCAATGTAAGAGTCAAAGCACGTGTCTTA
GTATGAGTGGCTTGTTTAAAAATATTCACTGTACTGTTTACAAAATGTTTAGTCAAAGAAGTTGACTATGGTGTACTATGGCATTGATATGAAATGTATG
TTAATTAGTGGATATATACAACACAAATTAATTAATGAAGGTTATATTTGCTGAGTGAATTTACTCTGTAGACAGTTATGGATACTTAAGAATACTGTTC
TGTGGAATTTGTGGTTCATGTACATTTATTTTATTGTAATTAATCTATTGAAGAACTAATAAATCAACAAATATAGAAATGGATGAGGAAAAAGATGTCA
AATCCTGAACTAGTGGTGATGGCTTGTGGCATATTTAGTCACAGATGATGAATAAATACATGCCTGAGACTCTGAGGTTAGTACCTAGACAGAGATCTAG
TCTGTTATTTTTGATGGATGTAGTCCTGTAGGATGATTAGTTATACACAAAGGTGATGTTCTTGGACTTTTGTAGTTCATGAGTTTTGATTGTATTGTTA
CAAAGCAATCAATGACAAAATATATACAATTGCATGAAGATGAAGAGGGTGAAACATTGTCCAATTATGAAATGTGAGGTGAGGCCTGAAATACTATTAA
TATAATTTGAAAGTCCTAAGGTCCATAAGTAAATAAGTGGATCAAGGGTGTCACCTCTTTGGTACAGTATCATATAGACCAGGGGTCCCTAACCTCAGGG
CTGCGGACCAGTATCAGTGCCTGGTGTGTTAGGAACCAGGCCACACAGCAGGAAGTGAGTAGCAGGGGAGCAAGCATTACCACCTGAGCTCCGCCTCTTG
TCAGATCAGTAGTGGCATTAGATTCTCATAGGAGCAGAACCTGTTGTGAATGGTGCATGCCAGGGATCAAGGTCACATGCTACTTATGAGAATCTAATGC
CTGATGATCTGAGGTAGAACAGTGATCTGGAAACCACCCCTCCCTGCCCTGGTCCGTGGGAAGATTCTCTTCTACAAAACCCATCCTGGGTGCCAAAAAT
GTTGGGGACCATTGGTATAGACAGTGATAAGTAACAGTCAGTGTTATTGTTCTGCATCAATGGCAAGTACCATCCTGTCCTATTTTTAGAAGAGACAAAT
AATAACATCAATTAGTAAACATTTACGTGAATAAATAAATGAAAGTTGGAAAGCCATTGTCAATGGAGAGAATGTCTCAACTTTTTAATCACTGGTTCTC
CTTTATATTCCTCAAGGTGGAGGCTGTCTGCAGTAGGAGCATGGAGACCAACAATGGATGCTCTTAAACTGATTTAAGCACGCTTCCATGGTCAGAAGCC
TTATGGTTGCCACAGGGTATTAGGAGCATGGAGACCAATAATGGATGTCCTTGTTCTGATTTGAGGATGCCTCCAAGGTCACATACTCTGTTTGCACCAC
GCTTAGGAAGGAGCGTGAAGACCAAGGGGAGTAATAGTCAAAGTCCTTACCTTTGTTTGGGTGGTTTGTTTAAGAGTAATCAACGTATTATTTAAAAGTG
TGAAATACAGTCAAAGATGGCCAATGTTATTCCAGTGATATGGGAGTGACATGAAGTATTATATTGATGATGCATATATAAAAAACAGGATAGTTAATGA
AACACCCAATGTTTGAGTGATTCTGTATACTGATAGGGAATATCAAGAGTGTTACTGGGTTTTGTGAATCACGGGCCTTGAAAGTATTATTAATGAATAA
ATGACATAATCAATAGACAAGGTAGAAATGAATAGCAAAAAAAAAGAAGATCAATGATGACTACTGTTAGTGTATGAGTTACACATGATGAATACATGTC
TGAAACTCTGAGGTCCATCACAAAAGAAATCTGGCCCATTCCTTCTGATTCAGGTGATCCTATGAATATACAATGTGTTTGCTTTTGGTCTTTGGGTTTG
TTCACTTCACTGTATTATTATAATTGGATCAATGAAATAATTTATACGTATACATGTACGTATATGAAGGGGATGAAGTATTGTCCAATTATAAAATAAG
TGGTGAGGCAAGATGTATTATTATTATTATATTAAAGCATTATATTAAAGCTTTAATATATTAAATAAAAATCTAATATTAATATATAATTAATGCAATA
TTTAATATATATTAAATATGATAACATATTAAAATATTATATTAAAGCATTGAAGTCCTAAGGGAAATAAATGGTACCCCACTGTAACGTCTTTGACTAA
GGATGATACAGGTGGTAGTTATAGATAATGGTCAACCTCTGGGTCAAGGAAAGTTGCACAAAGTGTTCATTTTCTTAAGAGAAAATGAAATAATTATCCT
TCAGATAGTGATTTCTCAAATGTTTTCCTAAAGGGAAGATGATAAACACAGATCATGGAGGACTGTTTTATCTGTTTGTGATCTGCCGTCCTCTGTGAGC
CTCAGGATGGATGTTTGCCAGCCGATTCCATGGTTACAAGCTCTATAGCTGCATCTATGTGTTAGGAGCATGAAGACCAATAATGGATGCACTGAGCTGA
TTATGAATTTAGCCCTGATGAAGACTTGTGTTGCTGTCATGATATGAAAGATTCCAGTAATGAACGCACTTGAGTTGATTCAAGCACGCTTCCATGGTCA
TGAGCTCTGTGGTTGCATCTGTGTGTTAGGAGCATGCAGACCAATAGTGATAATCTCGAGGTGATTTATGCATTCTTCCATGGCCACCAGCCTTATGATT
GCATCTGTGCGTCACAGCTTAGAGATCAATAATGGATGCAACAAGCTCTTTGAATCATTCTGTTGGGATCAAGATTGTTGTGTTCCCTCTGTTTGGAAAG
AGACCAAGAATGGATACGCTCAGGTGATTTAAGCAGTCTTCCATGGCCACGAGCTCTGTGGTTGCCTCTGTATATTAAGAGCACAGAGATTAAAAATGGG
TGCACTTGAGCCGATTGAAACATTCCTCCTTGCATCTTTCTTCTGTGATTGCATCTATTTGTTAGTAGCATAGAGACCAATGTGAGTAATCATTAAAATT
CTTCTCTTGGTTTGAGTGGTTATTTCAAAATACTCAATGAATTACTAAAAAAGTGCATACTATAATCAAAGATGTCGAGTAGTATTCTAGCAATAAATGT
GGGACTCATGTGAAGCATTGTATTGATAATGCATCTATGAAAAACTGAGGATAGTGAATGAAACAGCTGTATCCATATTAGAATGATTCATTGTAGGGAT
TAGGAATCTCTAGGTTCTTACTGGGATTTCATGAACCATGATTTTAAAATTTATGGTCAGTGGATTAATAAATCATTAATAAGCAATTAGAAGTGAGTGG
AGAGAAAGAGCACCTGTCCTGTGGATCGATGATGACTACTGGTGGCGTATGAGTCATCTACAGTGAATACGTCTCTGGAACTCTGAGGTCTGTCACAAAA
GAAATCTAGCCCATTTTCTATGTTTGATACAATCCTTTAGATGGGTATCATGAACATAGACTGGGTTTGTTTTTGGTCTTTGTGCTCATACATTTTCATT
CTATTTTTATTATTGGGTTAATGTGAGAATCAATAAACAAATATAAAAATAAAGATATATTGGTTGAAGTGTTGCTCAATTATAAAAATAGGTGGTGAGA
CAAGAAATACTATTAATATGTATTGGAAATAGTGAAGTTCAAGGAGGAATAAATGGTACGTGTCTGTCACCTCTTTGGCTAATGATGATATAGAGAGGAT
AATTATAGACAGTGTTTTTATTCTGGGTCAGTGGCAAATTCAGAATTGTTCATCTTTTTAAGACAAAGTGAAATAAATATACTGTACTCTAAATAATGGT
AGCCTAAATGACTAAAGAAATGTGAAAAGCAAGGATCAATGGTGATAATATGTCAAATTTGTTATCATCTTCTTTGCGCTGTACTCCTCAGAACGGACAT
CCTTGTTCTGTCTTGAGAATTCCTCTAGGGTCACATGCTCTGTTTGCACCGTGCTTAGGAAGGAGCGTGCAGACCAATGTGTAATGGTCAAAGTCCTTAT
TGTGGTTTGTTTAAGAGTAATCAATGTATTATTAAAAAGTGTGAAATACAGTCAAAGATGGTCAATGTTATCCCGATGGTAGACATGGCAGTGACATGAA
GTATTAATATAATACTGAGGATAATTAATGAAACAGATAATATCAATGTTAGAATGATTCTGGATACAGATCAGAAATATCAAGGCTGTTCTTGGAGTTT
TTTGAATCATAGGCTTTGAAATTATTATTAGTGATTTAATGAGGCAACCAACAGACAATGTAAAACTGAATAGAAAAAAGGAGGGCCATTCCTGGATCAA
TGATGACCACTGGTGGCGTATGAGTCATATGTGATGAATACGTGTCTGGAACTCTGAGGTCCACCACAAAAGATACCTAGTCCATTCCCTCTGTTTTACA
TGAATCTATAGACTGATGTCAGGAATATAGAATGAAGTTGTTTTGGTTTCATTTTCATTCTAATGCAAGAATCAATAAACATATAAATAAAGATAAAATG
CGTGAACAGTGTACAACTATAAAAATATGTGTTGAGCAAGAAATACTATTAATGTATATTGAAATCGGTGAAGTACAAAGAGATATTGTACATACCTGTT
ACTTCTTTGGCTTATAATAATGTAGACAGAATAAATTACAGATAATGTTCAAATTCTTATTCACTTGCAAGATCAAATTGTTCTTTTTCTTAGGAGAAAA
TGAAATAAATATTAGTCCACCTAATGAATGCTTAAAGGACAGGCTAAAGGCAAGGTGAAAAGCAAGG
In silico ORF/peptide predictions
Nothing found.
RiboTaper predictions from Ribo-Seq data (HEK293 cell line)
Nothing found.