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 |
---|---|---|---|---|---|---|---|---|
ENST00000339732 | polypeptide N-acetylgalactosaminyltransferase 15 | protein coding | TCONS_00243278 | 610 | 293 | UTR3 | Trans | |
ENST00000409359 | Rho guanine nucleotide exchange factor (GEF) 4 | protein coding | TCONS_00243278 | 552 | 282 | UTR3 | Trans | |
ENST00000424496 | sense_intronic | sense intronic | TCONS_00243278 | 644 | 288 | noncoding | Trans | |
ENST00000448214 | antisense | antisense | TCONS_00243278 | 603 | 289 | noncoding | Trans | |
ENST00000463496 | aryl hydrocarbon receptor | nonsense mediated decay | TCONS_00243278 | 595 | 289 | UTR3 | Trans | |
ENST00000463899 | N-acetylneuraminate pyruvate lyase (dihydrodipicolinate synthase) | processed transcript | TCONS_00243278 | 513 | 290 | noncoding | Trans | |
ENST00000498813 | delta(4)-desaturase, sphingolipid 1 | processed transcript | TCONS_00243278 | 553 | 294 | noncoding | Trans | |
ENST00000552918 | spermatogenesis associated, serine-rich 2 | protein coding | TCONS_00243278 | 575 | 282 | UTR3 | Trans | |
ENST00000560870 | sense_intronic | sense intronic | TCONS_00243278 | 512 | 268 | noncoding | Trans | |
ENST00000608958 | SET domain containing (lysine methyltransferase) 7 | protein coding | TCONS_00243278 | 507 | 295 | UTR3 | Trans | |
ENST00000620788 | pleckstrin homology-like domain, family B, member 1 | retained intron | TCONS_00243278 | 630 | 290 | noncoding | Trans | |
ENST00000621141 | G protein-coupled receptor 1 | protein coding | TCONS_00243278 | 526 | 278 | UTR3 | Trans | |
TCONS_00001821 | low density lipoprotein receptor adaptor protein 1 | novel protein coding | TCONS_00243278 | 663 | 289 | UTR3 | Trans | |
TCONS_00001823 | low density lipoprotein receptor adaptor protein 1 | novel protein coding | TCONS_00243278 | 663 | 289 | UTR3 | Trans | |
TCONS_00030165 | antisense | novel protein coding | TCONS_00243278 | 603 | 289 | UTR5 | Trans | |
TCONS_00037377 | NAD synthetase 1 | novel protein coding | TCONS_00243278 | 532 | 304 | UTR3 | Trans | |
TCONS_00041296 | RIC3 acetylcholine receptor chaperone | novel protein coding | TCONS_00243278 | 600 | 289 | UTR5 | Trans | |
TCONS_00041298 | RIC3 acetylcholine receptor chaperone | novel protein coding | TCONS_00243278 | 600 | 289 | UTR5 | Trans | |
TCONS_00050741 | spermatogenesis associated, serine-rich 2 | novel protein coding | TCONS_00243278 | 605 | 299 | UTR3 | Trans | |
TCONS_00090929 | nucleoporin 93kDa | novel protein coding | TCONS_00243278 | 605 | 289 | UTR3 | Trans | |
TCONS_00090941 | nucleoporin 93kDa | novel protein coding | TCONS_00243278 | 605 | 289 | UTR5 | Trans | |
TCONS_00095053 | epithelial membrane protein 2 | novel protein coding | TCONS_00243278 | 542 | 284 | UTR3 | Trans | |
TCONS_00101169 | myosin phosphatase Rho interacting protein | novel protein coding | TCONS_00243278 | 607 | 286 | UTR3 | Trans | |
TCONS_00101169 | myosin phosphatase Rho interacting protein | novel protein coding | TCONS_00243278 | 602 | 292 | UTR3 | Trans | |
TCONS_00108999 | trans-golgi network vesicle protein 23 homolog C (S. cerevisiae) | novel protein coding | TCONS_00243278 | 612 | 291 | UTR5 | Trans | |
TCONS_00109000 | trans-golgi network vesicle protein 23 homolog C (S. cerevisiae) | novel protein coding | TCONS_00243278 | 612 | 291 | UTR5 | Trans | |
TCONS_00109009 | trans-golgi network vesicle protein 23 homolog C (S. cerevisiae) | novel protein coding | TCONS_00243278 | 612 | 291 | UTR5 | Trans | |
TCONS_00109011 | trans-golgi network vesicle protein 23 homolog C (S. cerevisiae) | novel protein coding | TCONS_00243278 | 612 | 291 | UTR5 | Trans | |
TCONS_00109012 | trans-golgi network vesicle protein 23 homolog C (S. cerevisiae) | novel protein coding | TCONS_00243278 | 612 | 291 | UTR5 | Trans | |
TCONS_00109013 | trans-golgi network vesicle protein 23 homolog C (S. cerevisiae) | novel protein coding | TCONS_00243278 | 612 | 291 | UTR5 | Trans | |
TCONS_00109014 | trans-golgi network vesicle protein 23 homolog C (S. cerevisiae) | novel protein coding | TCONS_00243278 | 612 | 291 | UTR5 | Trans | |
TCONS_00124891 | zinc finger protein 540 | novel protein coding | TCONS_00243278 | 614 | 295 | UTR5 | Trans | |
TCONS_00135631 | zinc finger protein 841 | novel protein coding | TCONS_00243278 | 612 | 290 | UTR3 | Trans | |
TCONS_00142157 | LY6/PLAUR domain containing 6B | novel noncoding | TCONS_00243278 | 651 | 278 | noncoding | Trans | |
TCONS_00142168 | LY6/PLAUR domain containing 6B | novel protein coding | TCONS_00243278 | 651 | 278 | UTR3 | Trans | |
TCONS_00147100 | ATPase family, AAA domain containing 2B | novel protein coding | TCONS_00243278 | 666 | 281 | UTR3 | Trans | |
TCONS_00148387 | reticulon 4 | novel protein coding | TCONS_00243278 | 538 | 288 | UTR3 | Trans | |
TCONS_00148389 | reticulon 4 | novel protein coding | TCONS_00243278 | 538 | 288 | UTR3 | Trans | |
TCONS_00148450 | coiled-coil domain containing 88A | novel protein coding | TCONS_00243278 | 629 | 285 | UTR3 | Trans | |
TCONS_00150696 | septin 10 | novel protein coding | TCONS_00243278 | 614 | 289 | UTR3 | Trans | |
TCONS_00186316 | KIAA0232 | novel protein coding | TCONS_00243278 | 615 | 289 | UTR5 | Trans | |
TCONS_00195633 | aspartylglucosaminidase | novel protein coding | TCONS_00243278 | 500 | 282 | UTR3 | Trans | |
TCONS_00196475 | F-box and leucine-rich repeat protein 7 | novel protein coding | TCONS_00243278 | 628 | 289 | UTR3 | Trans | |
TCONS_00203985 | family with sequence similarity 169, member A | novel protein coding | TCONS_00243278 | 604 | 290 | UTR5 | Trans | |
TCONS_00205414 | prolyl 4-hydroxylase, alpha polypeptide II | novel protein coding | TCONS_00243278 | 599 | 287 | UTR3 | Trans | |
TCONS_00210637 | polymerase (DNA directed), eta | novel protein coding | TCONS_00243278 | 514 | 291 | UTR3 | Trans | |
TCONS_00210928 | leucine rich repeat containing 1 | novel protein coding | TCONS_00243278 | 674 | 287 | UTR3 | Trans | |
TCONS_00213181 | tubby like protein 4 | novel protein coding | TCONS_00243278 | 523 | 299 | UTR3 | Trans | |
TCONS_00213191 | tubby like protein 4 | novel protein coding | TCONS_00243278 | 523 | 299 | UTR3 | Trans | |
TCONS_00230811 | kielin/chordin-like protein | novel protein coding | TCONS_00243278 | 614 | 277 | UTR3 | Trans | |
TCONS_00235281 | NADH dehydrogenase (ubiquinone) complex I, assembly factor 6 | novel protein coding | TCONS_00243278 | 638 | 283 | UTR5 | Trans | |
TCONS_00235393 | processing of precursor 1, ribonuclease P/MRP subunit (S. cerevisiae) | novel protein coding | TCONS_00243278 | 657 | 289 | UTR5 | Trans | |
TCONS_00240688 | metastasis suppressor 1 | novel protein coding | TCONS_00243278 | 610 | 287 | UTR3 | Trans | |
TCONS_00243475 | osteoclast stimulating factor 1 | novel protein coding | TCONS_00243278 | 615 | 279 | UTR3 | Trans | |
TCONS_00243477 | osteoclast stimulating factor 1 | novel protein coding | TCONS_00243278 | 626 | 289 | UTR5 | Trans | |
TCONS_00243482 | osteoclast stimulating factor 1 | novel protein coding | TCONS_00243278 | 626 | 289 | UTR5 | Trans | |
TCONS_00243482 | osteoclast stimulating factor 1 | novel protein coding | TCONS_00243278 | 615 | 279 | UTR5 | Trans | |
TCONS_00247297 | family with sequence similarity 166, member B | novel protein coding | TCONS_00243278 | 648 | 287 | UTR5 | Trans | |
TCONS_00247576 | contactin associated protein-like 3 | novel protein coding | TCONS_00243278 | 618 | 285 | UTR3 | Trans | |
TCONS_00247594 | contactin associated protein-like 3 | novel protein coding | TCONS_00243278 | 618 | 285 | UTR3 | Trans | |
TCONS_00252827 | discs, large homolog 3 (Drosophila) | novel protein coding | TCONS_00243278 | 666 | 290 | UTR5 | Trans |
>TCONS_00252827 (14368 nt)
GCAAACATAATCATTTCATTTTAATTGTGTTCTTTAAAAATAAAACAACACATATAAATAATTACTATTGCAAAAATATTGCTTTATAGGAGTTTATTTA
AAAATAATGAACTCCCCAACTGTATTTATCCATTCTTTCATTCCATTTATGGATCAAGCATAACCTGAGTACCTGCTATGTAGCAGACATATTCTGTCAT
CTCTCAGGACCCGTCCATCCTTAAACACTTCATGTTTACCTGCCCCACCTGCACAAGCTGAGAGATTTAAAATAGGAATATTGGGACTTAATCTCCTTGA
AACTTTATCTCCCACCTTTCAAACAAAAGCATTTCTGAAGTTAGAAAATAGTAGAAGATAACCTTTAACTGCTCTTTCGAAAGTTTATCAGTCTTAAATA
CTAATATTAATCATTGGAAAGTCTTATTTGCATATATTTTCTAAGTATAAATATTGAATACAATGAGCCATATGTATTCATTTGAATCATGAGTTTCCTT
TGGTTTCAAGTTGTTTGAAAATCAAAGAATTAATTTGTTTAAAAAATGCATTATTGTTATTTCAGTGCTCTTTCCCCATAGTACCTTTAAGAACTAAAAT
GTATTTAAGTTTCAGTTACATGCCTAGAACTGCCCTAGACCTGCTGAGTATACCATATTCTACTTAATGTAAGGTCTCATGGATTGCGTGATGCCCCGAT
ATTTTATATATCAATAAGATAATTTTTAAAATGCTACCAATTATAGTTATAACAAATCATGAATTATAAGTGGCATTCCAATGTCAGAGGTGTTAAAATG
TGACCTACTCGTTAAGTCATCTTGCAAAGTAGGTATAATTGTATCATTCTACCTAATTAAAATGGTTTTGTTAAGTAGTAGTAATAGTAATAATTATAAT
ATCTGGCTGGGTGCAGTGGCTCACACCTGTAATCCCAGAACTTTGGGAGGCTGAGGTGAGAGGATTGCTTGATGCCAGGAGTTTGAGACCAGCCTGGGCA
ACAAAGTGAGATTCTTACTCTACAAAAATTTTTAAATAAATAGCTGGGCATGCTGGTGCTCATCTGTAGTCCCAGCTACTCAGGAGGCTGGGGATGGAGG
ATCATTTGACCCAGGAGTTCCAGGTATAGTTACACCATTGCACTCCAGCCTGGGCAAAAGAGTGAGACTTTGTCTCAAAAAACAAAAATCTTACAATTAT
TGAGTTGTCGTAGGAACTGTTCTACATACTTTACATAGCTTCTCATTTAAGCATCACGATGGTGTCCTATGAGATAGCTACTATTGTCATCTTTATTAAT
GAGGAAGTTGAGGTACAGAAAGGCTAAGCAATAGTTGGTAAGTGTCAAGGCTTAAAGTAGGACTCAAGCCCTAGTTGAACCGAATCCAAAGACTGAGCTC
TTTCTACTCAAATAGGCTGCTGTTTTCATTAAGGCAGTGAGCAATAAGAGCTAGTAAGTATTGTACTTTCTTCAAAAAATTTATTTGTTTTGAAGGCAGA
GGAAAAACATGCTATTCAGTTTTTACATTACATGAATGATTGTATGTTTTGAGATATTGTACTACAGTTTCTTAAAAAATCCTCTTACTCTCATAGAACT
GCTCTACACTTGGCCTGTACCAGTGGCCATGTGCAAGTGGTCACTCTCCTGGTTAACAGAAAATGCCAGATTGATGTCTGTGACAAAGAAAACAGAACGC
CTTTGATACAGGCTGTCCATTGCCAGGAAGAGGCTTGTGCCGTTATTCTGCTGGAACATGGCGCCAATCCAAACCTTAAGGATATCTACGGCAACACTGC
TCTCCATTATGCCGTGTATAGTGAGAGCACCTCACTGGCAGAAAAACTGCTTTCCCATGGTGCACATATTGAAGCACTGGACAAGGACAATAATACCCCA
CTTTTATTTGCTATAATTTGCAAGAAAGAGAAAATGGTGGAATTTTTATTGAAAAAGAAAGCAAGTTCACATGCCGTTGATAGGCTGAGACGGTACAGTA
GTTCTTTTTTTAAAAATAAAACCTGAGTATTCTAGAGTGGTCACTCAAGTCAGAAATATTAATAAGAAGATTAACATAATTATTGGCATATAATGAAAAA
TATCACCATGAATAATCAGGTAGACCAGCAAATATTTGGACTGAGTAACATAAAGAATAGTATATAGTAGGATTCATCTTCTCTTATAATATACAGTGTT
TGGTATTTATAATCAGATGTTTTTGGTACTGTAATCTTTTATTAGCTAAAGGGTTTTGTATTAGTTTTATTAATTTTTTTTTTTTTGAGATGGAGTCTTG
CTCTGTTGCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCTCACTGCATTCTCCACCTGCCAGGTTCAAGCGATTCTCCTGCCTCGGCCTCCCAAGTAGCT
GGGACTACAGGTGCACGCCACCATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGTGATTTCACCATGTTGGCCAGGATGGTCTCGATCTCTTGACCT
CGTGATCTGCTCTCCTTGGCTTCCCAAAGTGCTGGGATTACAGGCATGAGACACTGCACCTGACAAGTTTTATTCATTTTTAAAGTGCGGACTTTTAGTT
TATGACTACTAGCATTGTCATTATTATTATTGTTGTTGTTGTTGTTTTCAGCCTGCAGATAACTCTTATCTGACCCCTAGCTGATTTGACTAGGAAAGCA
ACGGGGAAATCTTCATCTAAATCTTTGCCTACTTTAGATAAGTGACCTCAGCACAGTTTCTTGGCCATCAAAGGACTATAAGTTAGCAACTTGTATTATG
TCTTACCCCAGTGGGACAAGAGGCTTCCCTGTTGTCCCTTTCTTTTAGCCTTGGTGACAATTTACAAAGATGAACACTTGAGCACCCTAGATGCTTATAG
ACCCAAGCTAGTACATGCAAATGGTTATTACATCTATACTGACAGGCAGATATTAAACTGGTAAAGTGTATCAAACTAGCTTTTTAAAAAAGTCTTTATT
AAAGTTCTTGAGTGGAGTTATTTCTTTGTTGTTTTAGGTCAGCTCTCATGCTTGCTGTATACTATGACTCACCAGGTATTGTCAATATCCTTCTTAAGCA
AAATATTGATGTCTTCGCTCAAGACATGTGTGGACGAGATGCAGAAGATTATGCTATTTCTCATCATTTGACAAAAATTCAACAACAAATTTTGGAACAT
AAAAAGAAGATACTTAAAAAGGAGAAATCAGGTAAGACTTCTGATTGTGAATTTCTTACTTCTCTTGGTGGTCCTACTCTTGATAAGAAAATACAAAGTA
AGATGTAAGATTAAGGTAGTTTCAGTCAAAAAAGACCAGTTTAAAAATATGTGTAAATTGAATGTGTATATATGTATATACATATGTAAATTAATTTTTA
AAATTTAACTTCTTTAGTTTGAAATTCAGATTTATTTAAGAAGGTAGTTGTAGCTAATTTATAATCTCAAACATTATTGTCTGAAAACATTCATTTATTA
ATTATGATCCCTAAAATCCTATATAATATTTTTGCATAAATAAGAAAAAAGATTTTTAAGTTAGTATGTTGTATGTTTCCTCTATAGTCACATTATAACA
AATTGGACTTGTTATACAAATGGATCTTCGATTTCATTTTTATAATAAATTGTTTATATTTAGTAAACAAATAACTACAGTTGACCCATGAATAATGTGG
GGGTGAGGGACTCTGATCCCTGTGCAGTTGAAAATCTGAGTATAACTTTTGATTCCTTCACCTTAGCTACTAATAGCCCACAATTGACTGGAAGCCTTCC
TGATAACATAAACAGTTGATGAACACCTATTTTGTTTGTGCTGCATTATTATATACTGTGTTCGTACAATAAAATAAGCTAGAGAAATGAAGCTGTTAGA
AAGGAAATCATCAGGAGAAACATATTGACTTTTCATAAAGCATAAGTAGTCCTGACAAAGGTCTTCATGATCTTCAGGTTGATTAGGCTGAGGAGGAAGA
GGAGAGGTGGATCTTGCTGTCTCTCTGTTGCAGAGGCAGAAGAAAATCTGCATATAAGTGAATCCCTGCAGTTGAAACCCTTGCTGTTCAAGGGTGAACT
GTATTACATATTGATTTGTGTCACTAAGAAAGTAACTATCTTTAGAACCAGGAACTCAGCAATCCCTTTCTGGTACCATAAGTAAATGGCAATAAGAACT
GTAGAACTGAACCAGTGTGCACCCATACAAATAGGAGATTATTTTTTGAAGACAGCTACTGAGCACAGGAGACGGAAAAGCAATTCCTTTGTGAGAAGCA
CAAGTTATATTACATATTCGTACACAAGCAAAATGATTTTATCTGTCATAGTTTACATACATACACATACACACACGCACATGTGCACACACCTGTGCAC
ACAGACACAAAGTTAAAAGTCCTGCTGATTCTTAATGACCAAATCCAACTGTTCACAGAGAGCGGTGGATAGCGCATCCTACTGTTTGGATGCAATTCTT
TTGACTTTTTGACTTGTTTTGTGATGAACTGCCTTTAATGGGTTTAAATCATGTTTTCAGTTTTATGAGAAATGAAGAAAAAGATTAGAAGCAAGTAAAC
AGGAACTCTATGGTCAGTGGTAGACTATAATAGTATATTCAATAGTCATATGTTTTTCTCCAGTTATACAATTTACTTGAATGATGCACAATTAATCAAT
TATTATTATCATAGGAGATGGGGTCTCTCTATGTTGCCTAGGCTAGAATACAGTGTCTATTCATTGGTGCAATCATAGCTCACTGTAGCCTTGAACTCCT
GGGCTCAAGCAGTCCTCCTACTTCATCCTCCTGAGTAGCTGGGACTACAGTTTTGTGTGGTTACATCTGGCCTGATACACAATTATTTATTTGTTTATTT
ATTTTTAATACAGGGTCTCCCTCTGTTGTCAGTACTGGTGTGCAGTGGTGCCATCTTGGCTCACTGCAACTTCTGCTTGCTGGCCTTAAATGATCCTTTC
ACCTTAGCCTCCCAAGTAGCTTGGACTACAGGCATGCACTACCACACTTGGCTAATTTTCTTTTTAAGGGATTTTTGTTTGTTTGTTTGTTTAATAGATG
AGGTCTCACTATATTGCCGAGGCCGGTCTGGAACTTCCGGGCTCAAGTGATCCTCCTGCCTCAACCTCCCAAAATGCTCGGATTTACAAGTGTGAGCCAC
TGCACCTGGCCTTCAAAATTATTATAAAAAGGAATGAAGCCCAGTTGAGTTGCAGAAAATTGACCACTTTTTCATTTTTTTTCTAGAAACATTCATATTG
TAGAACATATTGTCAATCACCCAGATTCTCTATTTTTTATTCAGATAAAAGAGGATTGCTGCTCATTTCACATTATTTTCTGACATTATTTTTTCATTTA
TTCCTTCTATGGCTTTATTCAATTGGATAGATATAGAAATACAAGAATCTCCAAGTCAAATATCAAGGCAAAAAAAGAAAAGAAAAACAGATTAGGTAAA
GTTATTCTGTGAAATAACCATCTGATTACAGTTACACGTATCATATCAACTTAATACAAATCTTACACAATGAATTTGTGTCAAGGTTTCCCAAGACCAC
CCCAGGTTTGGTGGTTCATTAGAAGGACTCACAGGACTCAACAAATAGTCATACTCAGATCTTTAATTGATAACAAGGAAGGGGACAAGCAAAATTAGTA
GAGGAAAAAGGTGCATGTGGTCAATTCTGGAGGAAACAAGGCACAAGCCTCCAGGAGTTCTGTCCTGTGGAGTTCCCGGGATCTGCTTAATTCTCCCAGG
CTCACATTTTGACAACATATGTGCAGTGATGTCTACCAGTACCAGAGTTTCATTAGAGACTAAGTGCCCAAGTTTTTCTATGGAGGTTACTCTCCCTCAC
ATGTACCCAAATTCCAGACTCTTACAAGGAAAGCAGCTGTTTAGAGTAAATACACTGTTTCTATAAGCACTTTAGACACAGTGAGCCACTCTTCTCAGGG
AATGGTGGAAACCCTCCCATTTCCAATTTCCTAAACACCAGCCAAGGGCCAGCCTTGCATGCAGGCCTTTCTAAGGATGGCAGCCTCTTGCCTGCTATAT
GAAATCTTTTCTGCACAACACTTGTAACCCCAACTTAATTTTTGGTGTTGTTTTAAAATTTCATTTTAATAACATAATATTATAAGATAAGGTAACTTGG
TACTAATTTCTGTTGTATGATCCATCTTAAGTTGCAGTGCTTGTTACTTTTTTGACTTTTGGTGATGAACAGCTATTTGTATATAAGTTACCATAGCAAT
GTTAGGTAATTATAATCTGTCCTATTTATCTCATTAACCTTTCAGTAAAATTGTTAAATTAAATAAGCAAAATAATTTCTGAGTTAACATTAGAATAAAA
ATTGTCTTTTATTTTGATTACATGAATAGTCTAGTTTTCATATTGTGCTAAATCCCTGTTTAGAATTATGAAATAAGATAAAATATTCAATTATTTTTAT
CAATATTTTCTTACCTAAGCATGCAATTAAATTTATTTATTTTATATATTTTATATAGTTCAATTTGAGAAGTAATGACCACATGTTGTTACTTTGGTCT
TCAATGATCTCTAATTTTTAGGGTCACCGTGTCTTGCTTAAATATATCATAGTAACAGGTTCAGTGAATATCTTTATTTTTTATTTTATTTACTTATTTT
TTTGAGACGGAGTTTTGCTCTTGTTGCCCAGGCTGCAGTACAATGACATAATCTTGGCTCATTGCAACCTCCACCTCCCAGTTTCAAATGATTCTCCTGC
CTCAGCCTCCTAGGTACCTGGAACTACAGGCATGCACAATCATGCCTGGCTAATTTTTTGTATTTAGTAGAGATGGGGTTTCACCATGTTAGTCAGGCTG
GTCTCGAACTCCTGACCTCAGGTGATCCACCTACCTCGGCCTCTCAAAGTGCTGGGATTACAGGCATGAGCCACTGCCCCCAGCCATTTATTTATTTATT
TATTTATTTATTTATTTATTGTAATTGTTCTGGAGATCCTGGGATGCATAGACAGTGAATATCTTTTTGTTTTTTGAGATGGAGTCTCACTCTGTCTCCC
AGGCTGCATTGCAGTGGTGCGATCTCAGTTAACTGCAACCTCCACCTTCTAGGCTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAAATTACAG
GTGCCAGCCACCATGCCCAGCTAATTTTTGTATTTTTATTAGAGACGAGGTTTTGCCATGTTGGCCAGGCCGGTCTTGAACTCCTGACCTCAGGTGATCC
ACCCATCTTTGCCTCCCAAAGTGCTGAGATGACAGGCATGAGCCACTGAGCCCAGCTGAATATCTTTTTTTAAATCAATAACCTTATTTCTTAGAGCAGT
TTTAGGTTCACAGCAAAATTGAGAGGAAGGTACAGAGATTTCTCATATATCCCATGCCTCCCACACATGCATAGCCTCCCCCATTATTACTATTTTCCAC
CAGAGAGTGGTACATTTGTTACAACTGATGAACTTACATTGACACATTATAATCATTCAAAGTTCATAGTTTACATCAGGCTTCACTCTTGATGCTGTAC
ATTCTGTGAATTTGGACAAGTGTATAATGACATGACATGTATCTATTACTGTAATATTATCGACAGAACAGTTTCACAGCCCTAAAAACTCTCTGTGCTA
TGCCTGTTCATCTTTCCCTTTCTCCCTAGTAACTCGTGGCAACCATTGATGTTTACTCTGTCTTCATAGTTTTACTTTTTTCAGAAGAGTCACATAGTTG
GAATAATACAGTGGATATCTTTTTGAATAGTTAAAAAATTAAAGCTCCATGGCAGTTGAATGTAGTCATTTAAGATGTTCTTTGTCCTTTTGTTTTTCTT
TTGCTTCTTTATCATTGTAAAGAATGATATATTCTGATGACATATGCTTTACATACTTAGAAAACATGATTTGTATAGATATGTGGCACATAATAGAAAG
GGTTGAGGAAAAGGACACCATGCTGTACCACACAGCACAAACTGGAGCATCTTGCTCTGTGAGGTGGGTCCAGATAGATTCTCTATCAATGGAAGGGGAC
AAGTGCAAGGGGTTGTACTTTATAAAACTGGAATCACAAAGTCTTTCATACTTACCTTCGGTTGGAAATAAGACCAGACAGTGAATGCTATAGGTAAGTA
CATAGGTTCCTCACTGATCCTCTTCCTTTGAGGGATGAGGTTGACAACAGCCTGTATTATGATGATGTGACTCACCTACAACTAGATTCTGTCATGAGGG
ATAGCAAGAGAGTTTTGCTTTCTGTGAGGTGAAAAAGAATTTTTTTCCCCTACTAGGGAGAAGGGCAAGCACTGGAACATTCTGGTAGTAAAAGGGCATT
GATGGTTTTCTTTCTATATATTTTTCACATCATATAGTACTGTCCAGCAGCCTGCCACACCTCCCTGGTGTTTCTTCAGCTTCTCTCTGAATGTGAGGTG
TGGTTCCTAGCGTATAAGCTCTTAAAGGAGTGATCTTTCCAGTGGTTTTTCTGTGGGAGGTAAAATGGCAGGTGAATTTGGGCCTTGCTATATGTAGGGC
AGAGCAAATAGCTACAACTAAGTAAACCACCCAGCACCTTCCCCAAAGAGTAGTAGCCAGAGTAATACATTGATCTCTTTTGAGCTCTTTTCCACTAGCG
GCTGGAAAGTCTTTGCAAGGATTCCTGTTTCTGGTCTGATTCCTATGTTTTGCTGACATCTGGTGTTAGGGTGTTTTATTCTAAACTGAGCAGTTTGAAC
TGAAGAGCTAGAGAGGCTGTGTTGTGTTATAACAAAATAAGTGCAGTAGCTCCCCCTTAACTGTGGGAGATACATTCCAAGACCCCCAAGTGGATGCATG
AAACCATGAATAGTACTGAATCACAAACTGTTTTTCCCTATACATACATATCTATGCTAAAGTTTAATTTATAAATTAAATTGAATCTGATGTTACCAGC
AGATAAGGTGTGAGAATTGAATTATGTCATCAGCAGGAATGATTGCTTGCTTGTTGGTGGGGAAAAACCCTCCACACATTTGGTCACAGAAGCCTTCTTT
GTTGATGATTGTTGCTGTGGTGTGACAGCAGAGAAAAATGTGTCAAGTATGTCTTTCTGCACGTATAGTGGATAAGGGGTACTACTGTGTACTCTGTTTT
AATGGCGCCTCATATTTTGGTCCAGAAATCATGCTCTTTGACACTGGTGACTCATCACACCTGTTCTGCTAACAATACCATTTTTACTCAACCTCATAGG
GTTTGGCTAAGATGACTTGCATACTGCAGTTCACTTGTAGATACCAAATTTTAATAAATTTATTCTTCTTTGCATCTAATAAATACAAAGGGAAGAGTTC
TTACTGCATTAATTACCTACCAATATGTATAACGAATGTTAATTCTAATAAGGTCCCAGGCATGCTCCCAAAGGAATGCTTTGTAACAAAGCATCAGTCT
TATGCTTTAAAAAACCAAACCAAACCAAAACAAAAACAACAACAACAAAAAACAGGATCTAAAGCATACATACAAGTGTGCACAATTTTTTTATGAAGGT
AGAGTCTTACTATGTTTCCCAAGCTGGTCTCAAACTTCTGGGCTCCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAGTAGTTTGGATTAGAGGGATGCAT
CACTGTGCATTCTTATGCTTTTAATATTCTGTACATTTGTTATTGATTTAAAATGCATTTTACCTTTTTCTTTAATAGATGTTGGAAGTTCTGATGAATC
TGCAGTCAGGTAGGATTTTATAGATTTAAAAAATTATGTTAACTAAGAAAATATAGATGGAAGAAATGAGTATCTGTTGAGTGTTGTATTCTGGGCTAGA
CATCCTAATATGTTCTATGCATTTATCATCTCATAAAGCCATCACAACATCTGTGTTCCTGTAACCTACTGTTTATTAAATAAACAACTATGGATTAGAG
CTGATTAATTGCCTCATGATCCCATAGTTAACAAAGTAGCTGGCCTACAGTTTGACCATCAGCCTGCCTGCCTTCCAAATCCTGTCTCTTGCTCCTCAGC
ATAGATTGACAGATATCTGTGCAGCCCTTGGATCAAGGTATAGGTCTGAATCAGATTAGTCAGATTGATTAATTTGATTAATGTCTAAATTAATGAGAGT
TTAAATACCTTGAACTCTCATTTAAGTTTATCATTAGAATGTGGTTAGTCCAAGAGTTTGTCCTAATAAATTTGACAATTTCAGTGGTAACCAGTATCTT
ATTTTTACCATCAAAGGCTCTAGGGCAGATCTTACTTAGCTTTGCCATAGGGGTGTAAGTTTTACAAAAGCAAGTTTAGGCAAGTCTTAGAGACAAATTA
TTTGACTTCCCAGTTTGGTTTTCCATTTAGGCAAGTATTTCTGCTTACTTCCATAATACATTTTTTAGTCTTGTTGCTTTTTCCGTGACTTTTCTATAAT
CTTGCCTTCATTTTTTAAAACTTTCTTCTCTGCTTTTCTTGGTATTTCTTTTGTTCTATTATTTTTTCAAACTCTGCTGGCTATGTATTCTAAGTTTTTC
TATAGACAGAATCAAGAGGACATAGAATTACAGAATTTTAAGGAATCTTGGAATGAATTAAAATACCTTCTAGTATTTTTACCTGTGTTGAACATTCTGG
TCAAATGATTCTCTAGATAGAGAATGTGAGGCTCAAAGAGTTTAGGATGCTTTTTTTTAGACATAGGAATTGGCAGAAATGAGATTTGAACTCATGTTAA
AGCCCAGTACTCTTGCTTCTTTTTATATCCTATTGGCGTGTGTTTTAATAATACAAACAGGAGTGAGTCTGTGGGTAGAATGAGAATGGAATTAGCTGGG
GAACCCAATGGAAGTAGATAAGAATGGAATGAGCAGGGAAGTCCAAGTTTGAAGATAAACAACACTGGATTGGATAGGAGTACAGACTCTTCTATAAGAG
ATCAAAATATTGGGGTTTATGACAAGTTTGATAAAGATAAATTATAAAAATGAAGGACACAAGATGTTGGGAATTATCTACGAAGGCACATTAAAATAGA
AGGTTCAAGGGAGCTCTAAAAAGTTTGCTGCTTTTTTTTAAATCAAGGACTGACAAACTTGAAGATTTTTACTGAAAGATGCTAAAACATTTTGAGACAC
TGGGAGGAGCGTCTGCAGCAGATAGAAATGTGGTGTCATCTACTTCCATCCTGACTTAGAAAGGGGTGGCTTAGAGCCCCTGGAGTACTAAGGGGCTGGA
GATTGCTGAACTACATAGATCTGTGGCCCAGTACAGGTGTCTCCTCACCTCTGCCTCTTTTCCCGATTCACTGATGTCCTTCCCATGTCCATGTGGGCTG
GGTCAGGGGCATGATTGGCTGGCAAATCAGTCATGGAGTTCAGTTGGGTAGTTGGTAGTGTGTCTAGCTGGGGACAGGTGATGGAGACTCCAGTTAGCTT
GTTTTTCAGGAGCAGGGATATAGAGAGCTCCTAGTCCTGGTCATTTGAGGCCATCCTTTCAGGAATCTGTGCTTTCATAGACAGAAGATTTAAAGATTGG
AGACTTCTGTGGAGCCCTGCAGAAGTGGAATCTGGAAGTGGGAGCCCATAGGAAGACAGATACTTAGAGAGTACTTAGGGAAATAGAGGTACACCTACCA
GGACTCTGTTTTTTTCTGACAGTCTCTCTCCTTGGGTGTCTGAGTGCCTATGAAAAGTTTTAAGGGCTTGCTAGTTTATGTGGACCTGAATAAGGTAGGA
CCTATAGGGTGAAAATAATGGGATTTTATAATTGTTAATATTTCAATCTTTCTGGGAAAAGTATTCTCAATAAGAACATACACCTTTGTTATTTGACTTC
TGTACATTTAGCTTTCATACATTTCAAATATTGTAGGGGCTTTCCTGTACTGATTTAGGGCAAAGGAAAGCAATAGGACCTTCCTAAGTGGGTTCCATGC
TGAGGAATCAAGACTGCCATATTGAAGTGATGCAGATTAGTCTTTTATCCAGAGACAGATCATGGAAAAGAGACAGTGGATCTTTCTACCTTGTTTTAGG
TTATTAATTTTCTTCCAGTTTAGGTAACAAAATTTATGTCATCCATTAATTGAATTTTAAGTTCAGCTTCAGGACAGATAATTTGTGAGGGCAAATCATT
GTCAGGCTCTGCCAATTTATTGACTGTCACTATTTGTTATAAAGCTCAAGGTTAGTTTTCATTGAATATTTTATAGATTTAGACAAGTGGAGGCAGAAAT
AGGTAACTAAAATCTATTTTTAGAAGAGGACATATTTTAATTATATCAAGAATCACTATTTAATATATAGATTGCTGACCTTTCCCTAGATTATGGTTTC
CTTTTTTGAGGGGGAAGCTGGATATAAACTGGCAGTTAAAAAAATTGTAAAGAAATCAACTTGCTCATTTTCGTTGTGTGTTTTTGCTCTCAAGCATTTT
CCATGAACTGCGTGTGGATTCATTGCCTGCATCGGATGACAAAGACTTGAATGTTGCTACTAAGGTAAAGTGGTCTCTTGTAAAATTAATTTTCTCACTC
TGAATGTACTTTTGCATAGTATTTACTTTTCAAATTTAGCAGTGGTTTACCTATCATTGTTTTATGGTGGTAATGGAAAGTTGGTCAGAGAAAAACATAC
ATATGGCTAGTTGATTCAAAAAATGTGTTTAACTTTGGTAACTAACAAAGATTGATAAGTACTGTGACAGGGTGGGAGCTGAAAAAAAATGAACTGGAAA
ATTAGTAGTGACAGGAAAATCACATTAGGAAATGCTTTCTCCAATAGAGGAAATATGAAATTTGCTTAAGGTTTATTTGGATAAATACTAATACTTTGAC
TTTTAAATCATACGAGTGTGACTTTCTTAATATTTATGCCTGTATAAATCTTCAGTGGATCAAATTATTTGCAGTAATCATGGGATCCTCCTGGTGATTT
TTAGTGGCAAGAATATTCAGCACATAGCATATAGCTTTTGTTCTTGGAAACTTATTATTTTGGTATCATATTGTTTTTACGAGAGATTGTTTTTCTACTT
ATATTATTGGTTCTGTAGTGAGACAAAAAAATTAATAATTGTAGAAAAATAACTGAGTGTGGTGGTGTACACCTGTAGTCCCTGCTACTTGGGAATTTGA
GGCAGGAAGATTGCTTGAACCCAGGAGTTTGAGAACAGCCTGGGCAACATCGTATCTGATTTAAAAATATAAATTGTGGAAATATAGAAATTTAAATTTA
TGTTCTCAAAATGTGTATTGCAAAGGAATTTTTGTGTGGTTTATGAGTTGTCCATGAAGAGTTTATATAAGGCACTTCATCTAATTGAATAACATGTATT
TTGCTGCAAATAACCAGTTCTAGAAGCAGAGACTCTTAATACCAATGGATGGTAAGACTTTATCATCATAATTTTGTCATTGTAGTTTATTTAAAATATT
TACTTCACCAGGCGTGGAGACTCACCTGTAATCCCAGCAGTTTTGGAGGCCGAGGTCGGTAGATCACCTGAGGTCAGGAGTTCAAGATCAGCCTGGCCAA
CGTGGTGAAACCCTGTCTCTAAAAAAAACCAAAACCAAAACAAAACAAAACAAAAGCAGAAAAATTAACCAGGCGTGATGGTGCATGCCTGTAACCCCAG
CTGCTCAGGAGGCCAAGGTGGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCAAGATCGCACCATTGCACTCCAGCCTGGGTGACAGAGC
AAGACTACATCTTAAAAAATAAAATAACCACTCAAAGTCCTCATATCATATTCTGAAATTTTGAATTTCAGAAGGTTTTCTATTTAGTTGTTTAAATAAT
CATTGGAAGCTCCTGCATACCGTAAGCTACTGGAGGTCAGTAAACATATTTGTGTGTATCCTGGAGTACCTAGAATACAGTCTTCCATGTAAGAAGCATT
TTACTTGTTGTTTTTTGAGATGGGGTTTCACTCTGTCCCCCAGGCTGGAGGGCACTGGTGAGATCTTGGCTCACTCCAATCTCCATTTCCTGGGCTCAGG
TGATCCTCACACCTCAGCCATCCAAGTAGTTTAAACAATAGAGCTATGTCACCATAGACCTGTGTCACCATGCTCAGCTGAGTTTTGTAGAGACAGGGTT
TTGCCTTGTTGCCCAGGCTGGTCTTTAACTGTTGGGCTCAAGTGTTCTGCCTGCCTCAGCCTCTCAAAGTGCTGGGTTACAGGCATAAGATATTCAGCCT
TAATAATGTTTAATCTGAATAAATAGACAAATGAATTTTTATATAATGGAATGTTATAAGTAATATAAT
In silico ORF/peptide predictions
Nothing found.
RiboTaper predictions from Ribo-Seq data (HEK293 cell line)
Nothing found.