| 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 |
|---|---|---|---|---|---|---|---|---|
| ENST00000280800 | phospholipase B domain containing 2 | protein coding | TCONS_00053522 | 554 | 324 | UTR3 | Trans | |
| ENST00000424496 | sense_intronic | sense intronic | TCONS_00053522 | 584 | 260 | noncoding | Trans | |
| ENST00000441159 | family with sequence similarity 115, member C | protein coding | TCONS_00053522 | 1043 | 626 | UTR3 | Trans | |
| ENST00000498813 | delta(4)-desaturase, sphingolipid 1 | processed transcript | TCONS_00053522 | 540 | 270 | noncoding | Trans | |
| ENST00000512143 | platelet-derived growth factor receptor, alpha polypeptide | protein coding | TCONS_00053522 | 560 | 316 | CDS_UTR | Trans | |
| ENST00000547860 | ELK3, ETS-domain protein (SRF accessory protein 2) | protein coding | TCONS_00053522 | 504 | 274 | UTR5 | Trans | |
| ENST00000568559 | transmembrane protein 170A | nonsense mediated decay | TCONS_00053522 | 517 | 283 | UTR3 | Trans | |
| ENST00000607772 | CNKSR family member 3 | protein coding | TCONS_00053522 | 631 | 275 | UTR3 | Trans | |
| ENST00000620139 | melanoregulin | protein coding | TCONS_00053522 | 507 | 268 | UTR3 | Trans | |
| TCONS_00001594 | lincRNA | novel protein coding | TCONS_00053522 | 625 | 262 | UTR5 | Trans | |
| TCONS_00004719 | ST6 (alpha-N-acetyl-neuraminyl-2,3-beta-galactosyl-1,3)-N-acetylgalactosaminide alpha-2,6-sialyltransferase 3 | novel protein coding | TCONS_00053522 | 613 | 268 | UTR3 | Trans | |
| TCONS_00004721 | ST6 (alpha-N-acetyl-neuraminyl-2,3-beta-galactosyl-1,3)-N-acetylgalactosaminide alpha-2,6-sialyltransferase 3 | novel protein coding | TCONS_00053522 | 613 | 268 | UTR3 | Trans | |
| TCONS_00011358 | 5-methyltetrahydrofolate-homocysteine methyltransferase | novel protein coding | TCONS_00053522 | 622 | 288 | UTR5 | Trans | |
| TCONS_00011359 | 5-methyltetrahydrofolate-homocysteine methyltransferase | novel protein coding | TCONS_00053522 | 622 | 288 | UTR5 | Trans | |
| TCONS_00021902 | protein tyrosine phosphatase, non-receptor type 14 | novel protein coding | TCONS_00053522 | 534 | 455 | UTR3 | Trans | |
| TCONS_00021903 | protein tyrosine phosphatase, non-receptor type 14 | novel protein coding | TCONS_00053522 | 534 | 455 | UTR3 | Trans | |
| TCONS_00023682 | pre-mRNA processing factor 18 | novel protein coding | TCONS_00053522 | 1037 | 713 | UTR3 | Trans | |
| TCONS_00023685 | pre-mRNA processing factor 18 | novel protein coding | TCONS_00053522 | 1037 | 713 | UTR3 | Trans | |
| TCONS_00023687 | pre-mRNA processing factor 18 | novel protein coding | TCONS_00053522 | 1037 | 713 | UTR3 | Trans | |
| TCONS_00023689 | pre-mRNA processing factor 18 | novel protein coding | TCONS_00053522 | 1037 | 713 | UTR3 | Trans | |
| TCONS_00030130 | calcium/calmodulin-dependent protein kinase II gamma | novel protein coding | TCONS_00053522 | 632 | 284 | UTR3 | Trans | |
| TCONS_00030130 | calcium/calmodulin-dependent protein kinase II gamma | novel protein coding | TCONS_00053522 | 661 | 268 | UTR3 | Trans | |
| TCONS_00039782 | GRAM domain containing 1B | novel protein coding | TCONS_00053522 | 622 | 268 | UTR5 | Trans | |
| TCONS_00050741 | spermatogenesis associated, serine-rich 2 | novel protein coding | TCONS_00053522 | 621 | 270 | UTR3 | Trans | |
| TCONS_00050741 | spermatogenesis associated, serine-rich 2 | novel protein coding | TCONS_00053522 | 604 | 268 | UTR3 | Trans | |
| TCONS_00067572 | DCN1, defective in cullin neddylation 1, domain containing 2 | novel protein coding | TCONS_00053522 | 603 | 269 | UTR3 | Trans | |
| TCONS_00075813 | forkhead box N3 | novel protein coding | TCONS_00053522 | 600 | 252 | UTR5 | Trans | |
| TCONS_00075827 | forkhead box N3 | novel protein coding | TCONS_00053522 | 600 | 252 | UTR3 | Trans | |
| TCONS_00075917 | ribosomal protein S6 kinase, 90kDa, polypeptide 5 | novel noncoding | TCONS_00053522 | 606 | 268 | noncoding | Trans | |
| TCONS_00082423 | transcribed_processed_pseudogene | novel protein coding | TCONS_00053522 | 604 | 268 | UTR3 | Trans | |
| TCONS_00090929 | nucleoporin 93kDa | novel protein coding | TCONS_00053522 | 657 | 268 | UTR3 | Trans | |
| TCONS_00116668 | desmoglein 3 | novel protein coding | TCONS_00053522 | 555 | 275 | UTR3 | Trans | |
| TCONS_00119049 | GRB2 associated, regulator of MAPK1 | novel protein coding | TCONS_00053522 | 621 | 268 | UTR3 | Trans | |
| TCONS_00133831 | carcinoembryonic antigen-related cell adhesion molecule 1 (biliary glycoprotein) | novel protein coding | TCONS_00053522 | 607 | 270 | UTR3 | Trans | |
| TCONS_00140000 | long intergenic non-protein coding RNA 152 | novel protein coding | TCONS_00053522 | 527 | 297 | UTR3 | Trans | |
| TCONS_00141670 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00053522 | 604 | 272 | UTR5 | Trans | |
| TCONS_00141673 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00053522 | 604 | 272 | UTR5 | Trans | |
| TCONS_00141679 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00053522 | 604 | 272 | UTR5 | Trans | |
| TCONS_00150696 | septin 10 | novel protein coding | TCONS_00053522 | 610 | 268 | UTR3 | Trans | |
| TCONS_00155490 | serine/threonine kinase 35 | novel protein coding | TCONS_00053522 | 602 | 251 | UTR3 | Trans | |
| TCONS_00155493 | serine/threonine kinase 35 | novel protein coding | TCONS_00053522 | 602 | 251 | UTR3 | Trans | |
| TCONS_00156217 | antisense | novel protein coding | TCONS_00053522 | 1793 | 1040 | UTR5 | Trans | |
| TCONS_00156217 | antisense | novel protein coding | TCONS_00053522 | 535 | 322 | UTR5 | Trans | |
| TCONS_00165341 | TTC28 antisense RNA 1 | novel protein coding | TCONS_00053522 | 614 | 266 | UTR5 | Trans | |
| TCONS_00182611 | processed_transcript | novel protein coding | TCONS_00053522 | 617 | 256 | UTR3 | Trans | |
| TCONS_00182613 | processed_transcript | novel protein coding | TCONS_00053522 | 617 | 256 | UTR3 | Trans | |
| TCONS_00182614 | processed_transcript | novel protein coding | TCONS_00053522 | 617 | 256 | UTR3 | Trans | |
| TCONS_00184373 | neutral cholesterol ester hydrolase 1 | novel protein coding | TCONS_00053522 | 664 | 259 | UTR3 | Trans | |
| TCONS_00194652 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00053522 | 607 | 258 | UTR5 | Trans | |
| TCONS_00194655 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00053522 | 607 | 258 | UTR5 | Trans | |
| TCONS_00194655 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00053522 | 634 | 269 | UTR3 | Trans | |
| TCONS_00194686 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00053522 | 659 | 337 | UTR3 | Trans | |
| TCONS_00202516 | family with sequence similarity 173, member B | novel protein coding | TCONS_00053522 | 603 | 283 | UTR5 | Trans | |
| TCONS_00222403 | protein tyrosine phosphatase, non-receptor type 12 | novel protein coding | TCONS_00053522 | 624 | 255 | UTR5 | Trans | |
| TCONS_00225245 | family with sequence similarity 115, member C | novel protein coding | TCONS_00053522 | 1183 | 771 | UTR3 | Trans | |
| TCONS_00225248 | family with sequence similarity 115, member C | novel protein coding | TCONS_00053522 | 1183 | 771 | UTR3 | Trans | |
| TCONS_00245543 | long intergenic non-protein coding RNA 963 | novel protein coding | TCONS_00053522 | 635 | 268 | UTR3 | Trans | |
| TCONS_00251973 | G protein-coupled receptor 34 | novel protein coding | TCONS_00053522 | 527 | 290 | UTR3 | Trans |
>TCONS_00251973 (14911 nt)
TGACGAGCTAGTGGGTGCAGCACACCAGCATGTCACATGTATATATATGTAACTGACCTGCACAATGTGCACATGTACCCTAAAACTTAAAGTATAATAA
TAATAATAATAAAAATTAACTCAAGATGGATTAAAGACTTAAATGTAAAACCCCAAACCATAAAAACCCTAGAAGAAAACCTAGGCAATACCATTCAGGA
CATAGGCATGGGCAAAGTCTTCATGACAAAAACGCCAAAAGCAATTGCAAGAAAAGCCAAAACTGACAAATGAGTTCTAATTAAACTAAAGAGCTTCTGC
ACAGCAAAAGAAACTATCATCAGAGTGAACAGACAATCTACAGAGCGGGAGAAATTTTTTGCAATCTAGCCATCTGACAGAAATCGAATATCCAGAATTT
ACAAGCAACTTAAAGAAATTTACAAGAGAAAAAACAACCCCATGAAAAAGTGGGCAAAGGATATAAACAGAGACTTCTCAAAAGAAGACATACATGCAGC
CAACAAACATATGAAGAAAGCTCAACATCACTGATTATTAGAGAAATGCAAATCAAAACCGTAATGAGATACCATCTAACACCAGTCAGAATGGCGATTA
TTTAAAAGTCAAGAAACAATAGATGCTGGTGAGGCTGTGGAGAAATAGGAACACTTTTACACTGTTCTTGGGAGTGTAAATTACCCCAGCCATTGTGGAA
GACAGTGTGGGGATTCCTCAAGTATCTAGAACCAGAAATACCATTTGACCCAGCAATCCCATTACTGGGTGTATACCTAAAGGAATATAAAGCATTCTAC
TGTAAAGACACATGCACACATATGTTTACTGCAGCACTGTTCACAATAGCAAAGTTGTGGAACCTACTCAAATGCCCATCAATGATAGAGTGGATAAAGA
AAATGTGGTACATATCCACTATGGAATATTATACATCCATAAAAAGGAATGAGATTATGTCCTATGCAGGGACATGTATGAAGCTGGATACCATCATCCT
CAGCAAACTAAGACAGGAACAGAAAACCAAACACTGCATGCCCTCACTCATAAGCAGGAATTGAACAATGAGAACCTATGGACACAGGGATGGAAACAAC
ACACAATAGGCCTGTTGGGGAGTAGGAGGGTGAGGGGATGGAAGTTAGAGGACAGGTCAATAGGAGCAGCAAACCACCATGGCACACGTATACCTATGTA
ACAAACCTGCACATCTGCACATGTATCCCAAAACTTAAATACATAAATAGAATGATAAGAGAAGCCACACATTAGGAGAAAAAAGTTTTCAAAAAATATG
GCTAGTAAAGGACATCTATATCTTGCCTCTAGAATACATAAAGAACACTCAAAACTCAGTGAATCCAAAAATCTTATTGAGCATAAGATATGAACAGACA
TTTCACAAGAGAAGATATACAGATGGCAAACAGCACACAAGATGATTTTAAATATTATTCATTAAAAAATGAGAATTAAACACGATGAGATATCACAACA
CACCCATGAGAGTGGCTAAAATTTAAAAGACTGACCATACCATGTGGAGGACCTTGAACTCTCATATGCTGCTGATGGAAATGTAAAATTGTACAACCAC
TTAAGAAAACAGTGTGGCAGTTTTTCAAAAAGTTAAATGTTCATCTACTATATGATCTAGTGGAATCACTTCTAGGTATTTGCTAAGAAAGTTAAAGCAT
ATATTGATGCAAAGTTTTGTATATGGATGTTCATAACAGCTTAATTTGTAATAGCCCCCAAACTATAAAGGACCCAAATGTCTATCATCAGGAGAATAGA
TAAACAAATTATTACATGTGATGGAATACTACTCAGCAATAAAAAGAAATGAGCTACTGATATTTGCAACAACATGAATGAATCTCAAATTATGTTGAGT
GATGAAAAAGAGTAAATGTTATATGATTCCATTTATATAAAACTCTGGAAATTTCAAACTAATTGATAGTGACAGAAAGCAGATCAGTGTTTGCCCTGGA
GATAGCACGGGGAAGGGTGGCAGATTAGAATGTGGCATGATAAAACTTTGGAGGCAATGGATATGTTTAGATTCTTAGTCGTACTGATGGTCTTATGAGT
ATATACTTATGTCGAAACATCTAATTAAACAACTTATGCTGTCTATTGTATGATTGTTATACCTCAGTAAAGCTGTTTTTAAAAAGATCTGCGCATCCCT
TCCCATTTTATGGATGAGGAAATTGAGTCCTGAGGACAAGAGAACTTTTCCAAAGTCATACCACTAGTCCAATGCAGAGGCATTAGGTTTGTCCATAATG
AAGCTTCTGAATGAAAATAGAAGAGCTCCTGGTGTAATTCCAGGGAGCTGAAGGCCATTATCCTAGGTGAATTAATGCAGTAATAGAAAAACCAAACACC
ACATGTTCTCACTTATAAGTGGGAGTTAAACATTGAGTACACATGGACAAAGAAGGGAACAGGAGACACTGGGGCCTACTTGAGGGTGGAGGGTGAGAGG
AGGATGAGGATTGGAAAACTACCTGTCAGTACTATGCTCATTACCTGGGTGACATAATAATTACACCAAATCCCCCAACACACAATTTACCCATGTCACA
AACCTGCACGTGTACTCCCTGAACCTAAAATAAAAGTTAGAAGGAAAAAAATGTTAAAAGTTAAAATGGGCAGAGAAACTGAATAGACATTTTTCCATAT
AAAACACACAAATGGCCAACAGGTATATGAAAAGGTGCTCAATATCACTAATCATCAGAGATATGCAAATCAAAACCACGGTGAAGTATCATCTCACACC
CGTTAGAATGGCTCTTATCAAAAAGTGGTAAGTGTTGGCAAGTGTGTGGAGAAAAGGAAACACTTGTGCGCTGTTAGTAGGAATGTAAATTGGTTCAGCT
GTGATGAAAAACAATATAGAGGTTCTTTAAAAAATAAAAAATGAACTACCGTATGATACAGCAATCCTACTTTTGGGTACATATCCCAAGGAATTGAAAT
CAGTATCTTGAAGAGATATCTGCACGTCCATGTTCATTGCAGCATTATTTACAATAGCCAAGATATGAAAACAACCCAAGTGTCCCCTGATGGAAGAATG
GATAAAGGAATTGTGGTACATATATACAATGGAATATTGTTCAACCATAAAAAAGAAGAAAATCCTGCCATTTGCAACATGGATGAACTTGGAAGGCATC
ATGCTAGGTGAAATAAACCAGACACAGAAAGACAAATACTGCATGATCTCACTTATGTGTAGAATCTTAAAAAGCCAAACTCTTAGAAACAGAGAGTAGA
ATAGTGGTTGCCAGGCCCTGGGGATGGGGAACATGGGGAGGTGTTGATCAAAGAGTATAAAGTTTCATTTATAAAATGAATGAGTTCTGGGGATCTAATG
TACAGCATGGGTGGAGATAGATGTGTTAATTAATGTGATTGTGGTAATCATTACATAATGTATATGCATATCAAGTCATCACATTATAAACTTTGAATAG
ATTCGATCTTTATTTGACGGTCAAATATTTTAATTTTTTTAGTGAATTTCCCAGCCCTTGATCCCAATTTCACGGCAGCAGAGCTTTTTTTCTAACTCTT
GGTGCCCCTAAGAGGGTTGATAGCCTAGATTGTTTCCTCCAAAAAGCACCACACTTATATTTGTTTTGAACATTGTGAGTATTCAAACTCTGTATTAATT
CAAATGGACTTATTTGCTGTTTTAGGTCTGAATCGTTTGCTTACCAATGGCTCCTATGAAGCTGCGTTTCCCCTGCATGAGGTATTGTGCTGTCTTTAAT
CTTTATCTTTCTTTCAATCGTTTGTTACTAAAGTCAGCTTCTAGAGATAGTCAATAATTGAATTTGTTGACATTTGCTCAGAATGAATTTAATTTGTTCA
ATGGGTAATTAGGGAGGGTCTACTTCAATTGTTATATCTCTTCCTCAGCATAGACTTATTTCTATATATCTTTTCATGTAATTGCGAGAATACTTAAATC
AATAGTCATGCAGCATGAATTCATAGGAATGGCTTAGAGACTTTAAGTCTTAAAATTAAAAAGGCATTGACAATTTGCATGAGGCACCAAATCCACAAGA
AGAATGTTCTTGAAATATATAGTCTTTGCAACAAATAAATGTATAGCTATTGCTTAAAAGAGTGGGAGGAAGCCATCTTGAAAAGTCTCTGGTAACCAAC
GGGTGACAAATAAAAATTAATAATGTTGTACTCATCATTGTTCACCTAAGATGTATAAATACTGTGACTCTATTTCCTACATAGTCTCCATCATATAAAT
TACTTTCGCAAGTGTAACTGATTACCCCAGCTCTACTTTCCACAGAATTATTTAATCCAGAATTCCCCTACACCTGGGTTTTTAGGAACATAATCCCTCA
TGATTATTGAGAAATTATTGTCATTTTCATGGTGTGGCACCCCTACTGTGGTCACTATATGGCACAGAGAATACAAAGATAAATGTCATAGCCTCTGTCC
TCTGGGACCTCACAAAGTAGCCAATGTGCAGCAACTGTTAGCTGATGTTCAGTACAGCCTGTTGGAAACAATGGTAATAATTTGTCAATAGACTTTGGAA
GACGGTTCCAACTCTCCGTAAATGGCAAGTCTTTCCAAAACATACTTTTTTTTGGCTTACAGTGGTACTTCTCTTAATTTTAAACACTAAGAGGGTGCAA
AAGATGAGGTAGATTTTTCAGAACTTTATTTATTAAGAAAACCAGAAGCTGCCATCTGAAACTCTGTTTAGACTGCCAGGAAATGTGTTTGGAATGCTCC
ATTTACTATGACAGAAGCAAACATTTTGACACAAAGGTTTGCTAGAGCCATACGCAGGTGTTTCTGAACTCTAAAGACATACTGTTCCCCAAAACATCAT
GTGGCTTCATCATGTCATTGTTAGTTGGCATTGCCCAGAAAAGGGTTTTGTGAGAACTGCATCCTCCCTGCTCTCAGCCCCAGCTCATGGTATGGGCTGT
GTCTGATATGGTAAGTGGCAGAAGCGTCTGTGCAGGGGAGTGGGTGGGTGGGCATGGGAGTGTCTGAGGAGATGCAGCTACAAAGCCCCACAGAGTGACT
CATGCCTTTCACAATGACTTTCCTATCTCAGTAAAGCCCTGTATTCTATGAGAAGTTCCAAATTGGTAATAGCAGCAGCAATCATTGCATCATTGCTTTT
CTGACTTTTTACTCTCAGTTTAACTTGATTATATTATTTAACCTCAGAGGCAAAAAGGCAGAAGGTCAGATATTGCTGCTCTTGTTTCACGTTAAAGATT
TAGATAGAGGTTTAGAGAAAGGTGAAACCTCCTTAAGTCACACAATGAGTTGGTGGTTGATCTGAGACTCACCTGAGTTTCTTTCTCCTAGCCCTGTGTT
CTTTCCATTAAGAAAGGACTTCTTATCAGGTGTGGTGGCTCAGGCCTGTAACCCCAGCACTTTGGGAGGCCAAGGTGGAAGTATTGCTTGAGTTCAGGAG
TTCGAGACCAGCCTGGGCAACATATTGAGACATTGTCTCTAGCAAAAATAAATAAATAAATAAATAAGAAAGGGCTTCTCCACTTAATATGAATAATTAG
CTTGCCTCCAGAAAGTACCGTTTCTCTTTGTGAAACTATCATTGCCACAAACTAACCTCAGAAAAACATGCACTTCTCTGGCCCTTTGTCTCCTCACTTC
TTCAATGAGGAGGTTGAATTAAATTTGAATTACAAGAATTCTGAAGTGACTTCCAGCTTTTACATTCTAGAATTTTCTTGTCGATAACATTGTGACAAGG
TTACAACTATGGCTGTTTACCAACTATCCTATCTTGAAAGAAGTGGGAAGAGAGGCCAGGCACAGTGGCTCACACCTGTAATCCCAGCACATTGGGAGGC
CGAGGGGGACAGATCGCTTGAGTCTAGGAATTCGAGACTAGCCTGGGCAATATGGCAAAACCCCATCTCTACAAAAAATACAAAAGTTAGCCGTGCATGG
TGGCACATGCCTATGGTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATTGCTTGAGCCTGGGAGTCGGAGGTTGCAGTGAGCTGAGATTGCGCCACTGC
ACTCCAGCCTGGGCAACAGAGTGAAACCCAGTCTCAAAAAATAAACAAATAAATAAATAAAAAGAAGTAGGGAAGAGAACTAATAAGCCTTGGGCATGGC
CCCTGGGCCAGACACTTTATTCATTCAAACCACATAAGAAACCAAATGGGACAAATATTAGTTCCACTATGGATTAGGAAACCAAAGCTCAGAGCATTTA
GGGAACTTGCCCAGGATCTTCTAGCTGAAAAGTAGCAGAATTGAATTTGAACTCAGTTCAAACCTTCCTGATTATAGCAAGCACGTGCATTTTACTAGAT
ATCAGCAGTAGCAAGACAATGTCCAGAATAACTCATCAAACTGCCTGCCCTTTAATAGAGAGGATTCATTTCTTTCTCATACCACTCCTATCACAACACC
TGCTGTAAGACACTTACATTACCATCAGCATTTCCTTGTGACTTTTGTGAGTACTACCTCACTGGCAGTGGTGTTTTTATCCCAGGGAAGTTATAGAAGT
AAAAACTCCATTCGAACCCATGGAGCAGAAAACCACCGACATCTACTCTATGAGTGCTGGGCCTCCTGGGGCGTGTGGTATAAATACCAACCTTTGGATC
TTGTAAGGCGGTACTTTGGAGAGAAGATTGGGTTATATTTTGCCTGGTTGGGCTGGTACACCGGCATGCTCTTCCCAGCTGCCTTCATTGGATTGTTTGT
CTTTTTGTATGGCGTCACCACTCTGGATCACAGCCAAGTCAGTAAAGAAGTCTGCCAAGCTACAGATATCATCATGTGTCCTGTGTGTGATAAATACTGT
CCATTCATGAGGCTGTCAGACAGCTGTGTATATGCCAAGGTAACCCACCTTTTTGACAATGGAGCCACTGTCTTCTTTGCTGTTTTCATGGCAGTCTGGG
GTAAGTGTTCTATAACCATAAAACTTGAGTTTTCCTCATATGCCCTATGATATATTCCTTTAGAAGTTTCACTTTGGATGTGAAAGAAAGAAGCTTGAGT
AAATGGAATTAGCTTTCCTATTAGTAGAAAGTTGGTAAATAATTTATTGGGTTTATTTTAAACGATATTGTAGAAGAGAGACATGTCTGATTTCTCTTAA
ACCTTCAACAATGTCATTAGCACTCTGTTATTAGAGTAGAATTTACTTTCTGTTGGACACAGAAATAAAGCTTATGGTACAACTTTAGTTTAGGTCAGGG
GAGAACTGAAACACCATCTCAGTATATATAGGACTTTCTATTGTAAGTGGCTAATGTGTGAGTACCCACCTTTAGCTTTCTTCTAGCTCTGTACAAAATT
ACCCCTAAAAACAAGGTCTATTCACAGGACTGATTTGAGCTTTTTGATATAATTTCAAGCTAACAGCCCCATCACACAAGGTGTGATGGAAACAGTCAAA
TATTTGGAAGTAACAGGACTTGATTGAAATCTCAACTCCCTTTACACACTAGGCTGTGTGATTTTTGGCAAGTTATTTAACCTACCTCTTTGTAAAATGG
GTTAATATATAATAGTCAAATAATTATAAAGCTTCAATTTAATGATATAGAAAAACATCTCACAAATTCATGGAAAGCAGTTAATGGCAGTTACCTTTGG
AAAGGAAGATTCATGGAAGAGTAAGTGAACAACGAGGAGAGACAAACTTTATGCTATATATTTTTAGTCTGGTTTGAATTTTTTACAATTATACTTTTCT
CCTATAACTTTAATTGCCAAAATCTGAATTTTGATGTAACAAAATTCTACTACCTTTAGACTTAGGCTCATCTTGTTCATTATGTCTGCTATGAATATTG
GAATCTTCCCCATCTTTCAGGCCCCAGCTGAAATGTCATCTGCTCCAGCCAAAAGATGTCTTTCTCCTTTGAATTTCCATGGCATTTTGTTCTTAGGGCA
CTTAAAATTATTTTCACAGATAACTTGTCTTGCCTAGTAGATTTATGGTCCTTGAGGACCATTATGATTATCAGAGATCTCATATTTTTTTTTTTTTTGA
GATAGATGGAATCAGTAAGTTTCTGTTGGATGGATGGGTGGGTCAATGGATAGATAGGTGGATGGATGGATGGATGGATGGATGGAAGGAAAGAAGGAAA
AAGAGAAGAAGAAAGAAAAAGAAATTACCAAAAGTATTTATTTATGATACAGTGAATGTATTTAAGAGGTCTTTTTTGATAAGTGGAAACATAAAACCTT
GTTCACTTGAGGGAGCTTGTTCTTGATATATTGTGTCTTTTGTACCTAGAGACTGTCAAAGGAAAATTGTCCCACCCATCACAGCTCTGTTGAAGGGACA
TGTTTTGAACCCCATGACTCCAGTCCCTCTCAGCCAGTAAGCATTTGAACCAAGATCAGTCAAACCACAGGTTGGTGAGTGGCCTGGGAAAAGGCCTGAG
GTTCTGCCCAGACAAGGACTGGTAGGGCCACCCAGATTCTTATTCTCCAGAATGTGGACTAGAAAATGTAAAGGGAAATAGGGAGTTAGCAGCAGGAATG
GACACTGAAAAATACAGAGGGCAGGAGGGAGGGAGAAAAAGAAAGATTAAAATTGACCATTGGGTAGAAGTAGGGACCAGGAGGAATTAGGAGGCTGAAG
TTATGAGAATCAGAACCTAGAAATAGATAGAAGCAAAGAACTAGTGGAAAAATTAGAGGGCGAAAAAGCCAACTGGGAGAAAATGTAAGACAACCAGAGG
GAAGCAAAGAGAGAATATAGCCAAGTCATGTTACTAGTGGAGTGTCAGGATGAAGACCCAGACTCTCTTGTGGCTGAGGCCTCTCTCAAGCTTCGGGCTT
CCATATCCTGTCTCTGAACAGGCCATGTATTTTTTCCTGTAGGATTCCTGCCTCCCTTGGTGGACCTTGTGAAAAGCTTTCACTGTTCATGCTACCCTTA
ATGCTTCTCTGTCCCTTGCAAACAAACTAACCCTAACAGAATTTTGATTACAGGCCTGAGCTCTCAGATAAAGAATGCGTATATAGTTTTACTAGAATCT
ATTAGTATCATACACCGTGATTCGGATAAGCCATATAATGCTTAAGCTTTGCCATGGTCACAAATGAGGGGACTCTGGAAATATATTCATTTCCTAAACC
AGTATTATAAATACTAAATGTATTCTGTAAACCTTAATGTATATAGTATTCTGTAAACGTAAATACTAAATGTATATTGTAAACCTAAATGTATTCATTT
CCTAAACTTTTCAGGTCATAGCACACATAAAAATGAAAATATTTACACAGCAGCTGCTGTACATGGAGGAGCCTCCTCATGGCCATGGATAGGGCTGTCC
CAAACACCCCAGCCTCAGAAGCCACAAGGGTTGAAAGGGGCATTATTGTTATTCCTGGCATAGGCATTTGGAAGTTCTGCCTTGGGCTGCTAATTTACTG
TGCAATGAGTTAATGCTTCTATATAAGAGTGGTATCCTGGTGGTATCCTGGAAGAATTAAAACACAAAACTTCCTTACCCACTTCAATATTTCACCAATT
TCAAATATACTTTGAATTAAATAATGGTTTCTTCTCACAGTTTACCTCCTGAGACTACATAGAAGTAAATTTTTGTATGATGACATTTGTTCATAAGGCA
GAGGTTATTACTCTCCCCCACTACCTCCATTATAAAATGGATTGCATACCCTCTTTGCAAGTTGTGTTTTATGTTATAGATGACAAATAGGTTTTGTTTT
ATCCCCTTGCCAACCTCAGCTGATTGGTGCTGGCTGCCTGGAGCATGGAGTTGAGAAGTTTCTGAGGTTGAAAGTGGGTGGATTGGAGATTTAACAGCCC
TTGTGGTTTGGAGTATACTTTGTAAGACTCTGATGGATGTTTTATAATAAACTTTGGGCACAGAGGAACATTTTAGGGCCATTCCAGGCAAGACATGCCT
GGAATAATTCACCCTCTGAATTGCTTTGTCTTAGATGACAACTTATTGCTTAAATCCCACATTATTCCCAGAAATGTGCTAGTTTGAGAAAAAGAATGAG
TTGCCCCAAGTGTTTCTTTGTAGATAGAGATAATGCCTTTTGCAGAAATCTGAAAGAGTCAACAATATTAACAGTTATATTAATAGCATTCATTTCCGAG
GGATTACTATGTACTAAATGCAGTCCTAAGCATTGCCCATGTATCATCTCATTTAATCTCTCCAGCAAGCTTTTAAAAAGGTACTGTTCTTATCCTCATA
TGACAGATAAGGAAACTGCAGCAGTAGCTAGAAAGTGGCAAAGCCAAGAGTTAAACTGGGCAGTGTGAGCTCCTCTGCTCTACTGCTAGAATCAGGTATT
GTTTGTTACCATTTCCTTCTGTTTTAGAGACCTGAACCTTAAAATAAAGGACTGCTATGCCTGTCCTGAGCCTCATTTATCCTGCTTTGAGACAGTAATG
TTCTATAAAAATGTGTCAGTTCTAATGGAGCTCAGTTTAATGGTCTCAGGATCATCTCTTATGATCGACAAGTTACAGCATTAAAGAAAACAAATGCACT
CTATTTTCAGGAAATTGCTAGATATGGAGCTGATGAGAACAGATGTAAGTGGTTTACAAGACTTCTGAAGGGCTGGGCTTGACGTGTTCATTTTGTTACC
TTTGCTTTGTGTGTTCACCGGAAAAAAATAATAAGGCTCCATCTGTAACCAGTTTGTAGCAACTGGGAGGGCCTTGGCATTGGGTTAGGAATCCTGACAG
AACTCTACTACCTTTGTTCAGGTCACGTCTGTGTGAGTGCAGGGCTCCCTCGGGATCCCTGAGGTATGCTGTGAGCCTGGGTCTCGGCTGGAATTACAGT
GTGGCTCATTCCTCAATGCTCATTTTTGTTCAGAAAGGTCCAAGGGTCAGAATGATTATGGACTAAATAACTCCTCTCCCGAGGGAAAAAATGAGTCATC
AGGGAACTAGATGTTGGCAGAGACCTGTCGGGGAAACAGATTATTTCCCTCTGTTCTGTTTCTGGTTTGGTTTGTTTTTTTTCTCTCTCTCCCCCTTGTT
TTTCATTTTTTACTTCTAGGATTGCCAAAAGTTAAGTTATCCCCAGTAAACACACCAAGCAAGATCCACAAAGCTCTTTAATCAAAATGACAAGATGGTA
ATTATTTAGTGTGATCCTGTTAGTAATTGGTGAATGAAGTATGTCTCATTTAAAAAAATAAATTTTGCAAGAATCAGCCTTTTGTTTCTAGATATTTATG
CTAACTTTATATTTTATAGTCTTATCTACATGTTCCACAAAAAAATGGTAATTGTATGTTGAAAAAGGTACACATTTACTAAAGGCCTACCATGTTTGTA
TGCACATTCACATAGGATACCTCATCAATTTCTCATCACCCATTAGAAAGAAATTACTAACCTCATTTTATAGATGAGGATACTGAGGCTCAGAGAGGTT
ATGCAACTTGCCCAGGATTCCAGTAGCTGATAAGGTGTGGAGCCTAAACTTTAAACCAGATCTGGTCTGTTTCACTCCAGAGTCATTCCAAAGTGTGTCC
ACCATGTTGTGCATCTTCTGTGAAGTGTGTCAATTAAGATCTCATTAACTCATACACAAAAATGAGTTAGATGTGATCTCTGCTTTCAAAAATCTCAGTA
TATTAAAGAAGCGTTGATAATTATAATACAGGGCAAGTCCAATTTACAATAGGCCAATGAGGGTTTATGTAGTCAACTTCCTGAGGCAAAAGGAAAAGCA
GAAAAGGTTCACCCAAGAAGAGATATTGGAAAGAAGTCTTAGCTTTGCCAGGCAGAGTAGTGGGGTTGGAAGGAGACATAGATAACATTCTTAGGTGACA
AGAGTATTTGTAAAGCTCTGAAAAGGAAGAATTGGCTGTTCAGAGTGATAGGGAGGTTGAGTGTGTATTAGTTTCCTAGGACTGCTGTAACATAGTACTA
CAAACTGGGTAGCTTAAAACAATAGTTTATTGCATAACAGTTCTGGAGGCTCAAAGTCCAAAATCAAGGTGTCAGTGGGATTCTGAGGGCTGTGAGGGAA
GGATCTGTTCCATGCCAGTCTCCTGGATTCTGGTGATGGCTGATGGTCCTTGGCCTTCCTTGGTTTGTAGATGCATCACTCCTATCTCTGCCTCTGTCTT
CACCTGGCATTTGCCCCGTGTCTCTGTGTCTTCACATGGCTATCTTCTTCTCAAGACGGTGGTCATATTGGATTAAGGGCCCAGCCTACTCCAGTTATGA
CCCCATCTTAACTAATTACATGTGCACTGACCCTACTTCCAAATAAGGTCACATTGTGAGGTACTGGGACCTTTTTTGAGGGGACACAGTTCAACCCATA
GCAGAGTACCTGTTGAAGGCTGAGAGCTACTTATCACAGACCACTTGAGCTACAACAGAACATGGCTTCACGCTGTAAGCAACAGAAAGCCAACTGGAGT
TATAATCCGGGAAGGGACATCATCAATTGTATTTGGGAAATAACTCTGGCAACAGTGCAGGGAGAGGTGAAAGTGGAGGCCAACTGGTGGCAGGCAGGCC
CCTTAGAAGGCATTCTAGTACTCAGTCAAAATATTACGCAGAACTTGGCTTCAGAAAAGATCCAATTTCCAGAATAAAAACCACACGTGTAAAATGTTTT
CCTAGCTTTAGTTATTTATAATATGCAAAATTTGTGAACAACGTAAATGTCCAACAATAGAAGAACGGTTTGGTAAATTATAAGCAGCTATTATAAATTG
CTCTTTCAAAGCATGTTGATAATACAAAGCTTGTATTTAAATTTTTTTAAAGTAGGGTATAAAGTATACAAGTAAAACACGATTTTGAGTATATTAAATG
TAAATGAAAACAGAAAGAAATGATGCCATAATATTAATGGTGGTTTGCTTTATGTGGTGGGATTGTGGGAAGATTTTTTTCAACTTTAAGTATAATTTAT
GTGCAATAAAATCCAGCAACTTTAAGTGAACAATTCAACAAATTAGGTCAAATATATATAGTCATGGAAGCATCACCATAATGATGATATATAAGAGAAC
TTTTTTTCTTTTTTTTGAGACGGAGTCTCGCTCTGTCCCCCAGGCTGGAGTGCAGTGGCACAATCTCGGCTCATTGCAAGCTCCGCCTCCCGGCTTCACG
CCATTCTCCTGCGTCAGCCTCTCGAGTAGCTGGGATTACAGGCGCCCGCCACCACGCCCAGCTAATTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACT
GTGTTAGCCAGAATGGTCTGGATCTTCTGACCTTGTGATCCGCCCGCCTTGGCCTCCCAAAGTGTGGGAGCCACCGTGCCCGGCCTAAGAGAACATTTTT
ATCCTCTCAAAAGTTTCCTCATGCCTCTGCAGTCAGTCCCTTGGCAACCTGAAACCTGCTTTTTACCACTGTAGTTTCAGCTGTTCTAGAATTTCATGCA
GATTAAATTATTCAATATATAGCATTTTGTGTCTGGCTACTTTCACTTCAGTTAATGCTGTTGAGATTCATTTATGCTGTTGCCTGTGTCAGTAGCTGGT
TTCTTTTTAGTACAGAGTAGTATTCCAGAGCCTGGCTATGTCATAATTTGTTCGTCTACTTACCAGTTAATGAATATTTGGGTTCAGTATGGTTTTTAAC
TACTATAAATAAACCTAGAAACTATTGGCTCTTCTAGTTTTTTGTTTTTGTAAATTTTCATAAAAGCCTTTGTAGCCATTCATCTTGGATGAATAATTAA
AAGTGGCATTGCTGGATCATGTGATAAGTGAATGCCTAACTTAGTAAGAAATTGTTTCCCAAAGTGGCCATATCGTTTTGTAGTCAATATCAGCATGATA
TGAGAATTCCAGGTGTTCCACATTCTCACAAGCACTTGGAATTGTCAGTCTTTATAATTTTAGTCATTTTAGTGGGTATATGGTATTATCCCATTGCAGT
TTTAATTTGCATTTCCCTAATGAGTAGCGATGTTGAACATCTTTTCATGAGCTTATTTGCAATCTGCACATCTTACTTGGTGAAGTGTTTGCTCAGATCA
TTTGTCCATTTGTTATTGGGTTGTCTGTCTTATTTTTAAGTTAAAAGAGTACTTTTATATATTCTAGGTAGAAATGCTTCATCTTACAGGTGTTTGCAAA
TTTTTTTCCCTGTCTGAGTCTTGCATTTTTATTTTTTAATGGTGCCTTTTGAAAACCAAGAGTTTTTTCTTTTTATATAGTCTAATTTAAATTTTCTTCT
GCACTCATTTTTTGTTTTATTTATGAAATCTTTGCCAAACTCAAAGTTTCTAAGATTTTCGTCTATATTGTCTTCTAAAAAGCTTATCGTTTTAGCTCAT
ATGTTTAGGTTTATGACTTATTTCAAGTTGGTTTTTGTATATGGCATAACGTAAGGGGCAGATTTATTTCTTTCCATGTAGATATCCAGTTTTCCTAGTA
CCATTTGTCAAAAACGCCGTTCTTTTCCTTTTTGAATTTTCTTGGTACATTTTGGTTGAAATCAATGGGCCATATATGTATGGGTCTGTTTTCAGAATTT
TTATTATGTTTGATGTGTATGTGTACACATGGCAATAATCCACTGTCTTGATTATTATGGCATAATAACTGTTAAAATCATATTTTTCTTTTCAAAAATT
GTTTTGCTGTTTTAGGTTCTTTGCATTTCCAAAAAAATTGTAGAATCAGCACTTAAATTTCTTCAAAAAAAGTGTTGATATTTTGATTGGGATTAAGTTG
AATCAATGTCAGTTTGGAAAGATTGAGTGTCATTTAGCTTTTTGTTTATTTACATATTCTGTAATTTCTCTAAGCAATGTCTTATTATTTTCAATGTACA
AGGCTTCCAGAT
In silico ORF/peptide predictions
Nothing found.
RiboTaper predictions from Ribo-Seq data (HEK293 cell line)
Nothing found.