Detailed information on TCONS_00034090

lncRNA-RNA interactions

Number of interactions: 32

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
ENST00000378004 Rho GTPase activating protein 26 protein coding TCONS_00034090 544 237 UTR3 Trans
ENST00000498813 delta(4)-desaturase, sphingolipid 1 processed transcript TCONS_00034090 545 278 noncoding Trans
TCONS_00028040 ankyrin repeat domain 16 novel protein coding TCONS_00034090 609 280 UTR3 Trans
TCONS_00030130 calcium/calmodulin-dependent protein kinase II gamma novel protein coding TCONS_00034090 644 241 UTR3 Trans
TCONS_00030130 calcium/calmodulin-dependent protein kinase II gamma novel protein coding TCONS_00034090 630 286 UTR3 Trans
TCONS_00030588 cytoplasmic polyadenylation element binding protein 3 novel protein coding TCONS_00034090 616 243 UTR3 Trans
TCONS_00050741 spermatogenesis associated, serine-rich 2 novel protein coding TCONS_00034090 602 285 UTR3 Trans
TCONS_00095053 epithelial membrane protein 2 novel protein coding TCONS_00034090 507 272 UTR3 Trans
TCONS_00108999 trans-golgi network vesicle protein 23 homolog C (S. cerevisiae) novel protein coding TCONS_00034090 626 242 UTR5 Trans
TCONS_00109000 trans-golgi network vesicle protein 23 homolog C (S. cerevisiae) novel protein coding TCONS_00034090 626 242 UTR5 Trans
TCONS_00109009 trans-golgi network vesicle protein 23 homolog C (S. cerevisiae) novel protein coding TCONS_00034090 626 242 UTR5 Trans
TCONS_00109011 trans-golgi network vesicle protein 23 homolog C (S. cerevisiae) novel protein coding TCONS_00034090 626 242 UTR5 Trans
TCONS_00109012 trans-golgi network vesicle protein 23 homolog C (S. cerevisiae) novel protein coding TCONS_00034090 626 242 UTR5 Trans
TCONS_00109013 trans-golgi network vesicle protein 23 homolog C (S. cerevisiae) novel protein coding TCONS_00034090 626 242 UTR5 Trans
TCONS_00109014 trans-golgi network vesicle protein 23 homolog C (S. cerevisiae) novel protein coding TCONS_00034090 626 242 UTR5 Trans
TCONS_00116668 desmoglein 3 novel protein coding TCONS_00034090 594 242 UTR3 Trans
TCONS_00116668 desmoglein 3 novel protein coding TCONS_00034090 585 243 UTR3 Trans
TCONS_00116668 desmoglein 3 novel protein coding TCONS_00034090 539 277 UTR3 Trans
TCONS_00148704 WD repeat containing planar cell polarity effector novel protein coding TCONS_00034090 2157 1038 UTR3 Trans
TCONS_00148705 WD repeat containing planar cell polarity effector novel protein coding TCONS_00034090 2157 1038 UTR3 Trans
TCONS_00165085 SPECC1L-ADORA2A readthrough (NMD candidate) novel protein coding TCONS_00034090 621 234 UTR3 Trans
TCONS_00165089 SPECC1L-ADORA2A readthrough (NMD candidate) novel protein coding TCONS_00034090 621 234 UTR3 Trans
TCONS_00165090 SPECC1L-ADORA2A readthrough (NMD candidate) novel protein coding TCONS_00034090 621 234 UTR3 Trans
TCONS_00193640 hematopoietic prostaglandin D synthase novel protein coding TCONS_00034090 598 324 UTR3 Trans
TCONS_00193640 hematopoietic prostaglandin D synthase novel protein coding TCONS_00034090 2230 1024 CDS_UTR Trans
TCONS_00194682 E74-like factor 2 (ets domain transcription factor) novel protein coding TCONS_00034090 621 242 UTR3 Trans
TCONS_00194682 E74-like factor 2 (ets domain transcription factor) novel protein coding TCONS_00034090 629 287 UTR3 Trans
TCONS_00194686 E74-like factor 2 (ets domain transcription factor) novel protein coding TCONS_00034090 621 242 UTR3 Trans
TCONS_00194686 E74-like factor 2 (ets domain transcription factor) novel protein coding TCONS_00034090 629 287 UTR3 Trans
TCONS_00227594 GLI family zinc finger 3 novel protein coding TCONS_00034090 544 211 UTR3 Trans
TCONS_00243068 lincRNA novel protein coding TCONS_00034090 561 276 UTR3 Trans
TCONS_00245543 long intergenic non-protein coding RNA 963 novel protein coding TCONS_00034090 618 288 UTR3 Trans

Sequence

>TCONS_00245543 (9861 nt)
CCACATTTTCATAATTATGTTGATACTATCTGAAAAAAGACCAAGAGTGTAAATGAATAAATGATACTTAAAACTTTGAACTATTTTCTGAGAGGATAAG
TCTAATGAATTATGTCTGTTGAGTGTCACAGAAACTAAACAGTAAATTCAATAATCTCTGATTTAATTTATTATATTTTCACCATTTAACCTCCTGCAGG
CTCCCTAATGTCTATTCAGATCTATATTAAATTAAGCACCAATGCTAATGAAGGGCAATAAACGTGGCTGTCAGTGGATTTTTCTTTCATTAAGCACATT
ATCCTCTTACTGAGCTGTAAATGCGTAAACATTAGTTTTGTTAAACCATGCAAAAAAGACAGGATGAAAATCATTTTTTAATTGCACCCCTTAAGCAATT
CAGTATGTGTGGGGGTAGGGTATTTTTTAGATCTTTTTTACCTTTAATTTTTTTGAATGGATTTAAAAAGGGCTCTCCCGTTGAAACATAAACATCGGCT
TCATGGGGTATATCTTCAGGTTCGAGGGCTTCCTTGCCGTCTGCCAAGAACACTCGTCTTGCGGCCATGTTCAGATTCAGCTTTTCTGTGCACTCCTCCA
GCAGCTAGAAGAAAGCAAGAGGTAAGTCAAAGTGATTTACTACAAAGAAAGTAATATATTTCCCTCAAAACAAAAGGTTCTAATGATCAAAATAGAAACC
CAATTGAGTCACTTGCCAATACAGTTATTTTCTAGCAGTTGAAAATATAGAAATAAAAGGTAAGTCACAGCATGAAGCATATCTAATTATTGACTAAATT
TAACATTTAAATGATCTGTCATTTTAATAACTCTACAAGGTATTGTAGAGTTTCATCTGTTTAAATACACTGTTTATATATTGAATTTTTTTAAAAAAGG
AGAGGAGTGAAATTCCTATGAAATCTACGTATATATAAGCAATCGGTAGATTCAGATTCTCAAAAAGAAAATATTAACAATAATTTTCTCATTTTTTATA
TTATAAAGAGAGTAAGGGAAAAAAAATAAAGCACAGAAAACTTTGGAACACTAGTTACCAAGGTGATGGTTGGTACAGTAACTCTGGCAAAGACTGTTCT
AGATCCATTTTTGTAAGCTGTTACTTTAATCACTCTTGGTTGAAGTTTGTGTCTTTGAGACAATTTCTGCCAATTCCGGGCTGACTGAAATTTTAAAGAA
GAGAACTCTGCAACCCTGAAGAAAAAGAAAAACAGAAAAATTGATGCATGCTAATTAGTGAAAGCTTTTAAATAAATATTATCCTGGATTTTTTTAAACA
GATATAAGCACTAAAGATTGTTCCTATGTATATAAGTATACCTAACAAAACTTTTTATAGGATAAGATTGTTGTTACAGAGTAACACTCTCACTATTTAA
ATATTCAAAAAAATTTAAAACACAGTGTTTGCCAAAACTGCTCATATAAAACATATATATCAGAATAAATGATTCTTATCACTTTACTTATAAAACACAA
CAGTCCTTTTAAAATATATATATATTATATGCAACTAAAAATTATATATATGAGATATGTTCTGATAGCAAAAAATAGTAATATGGTCTTAATATCATGA
AACAGCAAATGGCTAAGATTCTATCCAAGTTTTCAGGTTTATCAAAGTTCTTTAACTTTTTTAAAAAATGTTTAAAATTCAAAAATATTTGATTTTAAAA
TTTTGATTCCAAGGTTAATTGTATTGCTCTCATTTCAAACTGTTCGGAAGTGGTAACGGTGAAGATTTCTAAGTTTTGTCTTCAGGCAAAACTAATTTTG
ATATTTATGATTTTTCTCAGCAAAAGTATGTGGTAAACTGACTAACGTCAAATTTTCTTCATAATTCTCTAACTAACCAAGTTAATTTGTAATGCCACAG
AAGAAGAGTAAATATTTTAAAATAAAAATGTCACACAAATTAAAAACACAACATATCCACATATTCAAACATTTGAAAATAGTGGGGTATTAGTTTCTTG
GTTTGATTTTTGTTTTTACTAATATTTTCTTCTGTCTATGAACTCTCATGTTAACAGTTTATGATAACAATTTGATGTGAAAACATATTTACAAAATTGT
TTTATAATAATTTCATTCAATTCAATTCTGTTTCAAACTATTGGTTAAATATCAAAAGAAAGCATTTTTATTTTTAAATAAGTTCGTGTGAGCAAAGATA
TTTCATGATCCTAGCCTGATTCTGCTTCAAATATTCTTTTCAGAGTTTCTGATTGCCCGGGTTGAAGTGTATCTCATATTTCCCACAGTGTAATTAACAA
CATTCTACTCTGGTGCTTTCAAAGAAAAAAACAAAAACAAAAACAAAACCCGAGAGATGTGTTACATTTTAATGTCTGAGATAGTCAATTGAAACATTAT
AAACTCTGCTCAAAGGAAAGAACTTCAACAATAGGTTAAAAAGAACAGAGAACAGCTTTGATTACCTCAGTTGACCCACTGGAGCACTGACAGGTCTGTT
TCTCTTGGATGCTGATATAGAACAAGAATTGTTTTTACTGTTTGATTTGTAGCTATCTAGGTCTGATATTTCATCATGGCTGTGATCTGATGCTGTTTGA
TGTGTGGAGCAATCTTGAAGTCCTGACCCTTCTGATACTGCTGCTGAATGCACGAGTCTGTTGGGGCCAAACTGAGACTGCAAATAATCATCAGTAGTTT
TAATAACTGCTTTTGCCTGGGATGACATAAACTCTCTGGAAGAAACAATGCATGGAAGAATACAATTAATTGATTTGTAATCATTTATTAACAAATACCA
TATAATAACGAGTTGTGTGCTATGTGCTACACAAAATACTACACACTTAGCCATTATTTTGTTTAATGCCTACAATATTCCTGGGAAGTGGTTATTATTT
TTATTCCCATTTTACAGATTTAAGAAATTGAGAATCAGTGAGGTTAATTAACTTGCCCACTGTCACATAATCAATAACTGACAGGATGGGAATTTGAACC
CAAGCCTGTCCTGAAATAAAATCCACATTCATAACCATTAAGCTTCATTGCTTTACTTAATTCAACCAAAAGGAAGCTTGCATAATGTTTAAAACAATGT
AAGTATAACTTTTAAATTCTTAGATCCACTTTATTTTCTAATACTTACTTAGCACTCTGCTGTTAAAAATATGTGGGTCCTACCCTCAAGAAACTTGCAA
ACAATCCCCCAATAGAGAATATATGTTAAATAAACTGAAACTGAGTGTGTATTAGCCTTAAAGATGAAAATAATTCATTGAAGGCCATTTTAGAATGGGT
GGGAATAAAGTCGGTAAAGGCTTCACAGCAGACCTGAGATTAGCCTAACTCATCTCTGTTCAGGACTATCCTGGTTTTGGCACTGAGGGTCACACATTCC
AGGAACTCCCTCAGTCTCAGATAAACTGGGTCAGTTGGTCACCCTACTGGTATTTAGGCTGGAAGAGTAGTATGTGGATGAACTATGATGTGTGAACAGG
GAACCACATGACCTGGAAGAATATATTAATCTATATAGACACCAAGTTGGGAAGATGAATAGGTATAGAATATACCGGTATGATAAAATAAAATAAGTTT
TAATATATTTGCAAATATTGAGCTGTGTGGTGATCACACATAGAGGATAGTCAGGTTCCATGTATTACCATAATCGGAAGTATCTTTGCACAAACCAAAT
CTGCTTCTTTCCAATTTGCTCATTCCTCAATAGTTATTGCATAATATAACCCCCCCAAACACACCCCCAATTATAAATTAACATATGTTCAGTGTTGAAA
GCTCAGCAGGGATTGCCCCTCCTCCAAATCTTTCACATCCACAAATGTCATTATAATCACAATTATTTCTTCCAGCCTGCCCTCTTTATGGTCACAAACG
AGTAAAATGGTCAATTATTTCCTCTGAAAAAATGAATGGTAGTCACACATCAGAGGGAAAATAGATGTTTGTGTGTGTGTGTGTGTGTGTGTGTATGTGT
GTGAGCTCACACAGTGGACCCAGGGGAACTACACCTCTGGAATCCAAGCAGTTGTATTCTGCTGTTGTTGTTATCATCACATGTTTCTATCCAAGTCTGC
CCTAGACTGAGTACAGTACTGGGGAGAGGAGCAGCCTTCCCTACACATTGGATATAACCAGGCTCAAAACTGTGGCAAACAACGCCTTGAAAGGGTCTTT
GGACTAGCTCTGGCAAAAGTGGGACCTCCCTGCAGACCACCTAAGCCACTCAGATTTTGATAACGGTGGTGAGTGACGGCATGTGGCAGCAGTCATTTCA
AACTGGCAGTGTTTCTGCAGCAATAGCAATGGAGCTTCACACGGTTACCAAGCTCTTCAACCTGGGGGAAGACCAGTAAACAGCCAGGGGAAAGAATCAC
AGATTTCATAAACAGTTCCAAGTTTCCAATAAATAGTTACTTGAAGAGCAGATTCCCATATTTTTTTAAAAAAATGGAATTCCCTACTTAAAAGTAGAAT
AAGGTGTCTTTTTTAATGAATGTATTTTTTTCATTATGAAATATTCTTATAAATATACTAATGATTTTTAACATAACAATCCATTATTCTACCACCACAA
GGCAAAAGGTTTTTACTTTTTCATATTCTGAAGTTTTAATCATGTTATATCCTCAATTCTATTGCCTTCTGACTAAATACTGTTTTATAACCATTATTCA
TGTTGCTCTATGCTCTGTATGGATTTTACTGGAATATAATATTTTATCAACTATATTGATATAGCCCTCTTCTACCTAGTTATGCATGGGCTGTCTATCA
TTTTTGTTTGTCACACACATCTTCCCCATCTTCTGGTAACAGCACTTGCATTCTTTTGGGAATGCAAACTCTTCCCAACTCCACATGATCCTGATAGGGT
TAGGACAAGAGATTATAGATTTACCCAGTGAATGGTAAAAATAATTAAATTTAAATATATGGTTCAACTATATATTTGTTTATTTATTACTTGGTTTTCT
CTAGTAATTTATATCTGAAAGTGGGAGAAGGGGTAGTTTTTTATGTTAAAGAGTTAATATTATTGGTCCACTATGAATAGTCTTCAGCTTTGATATGTTT
TACAACATTGAGGACAGGTTTTCAGTAATTCTTGATTTTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGAGTATTGCTCTGTTGCCCAGGCTGGAGTGC
AGTGGCGCAATCTCAGCTCACTGCAACATCTGCCTCCCAGGTTCAAGCGATTCTTCTGCCTCAGCTTCCTGAGTAGCTGAGACTACAGGCGCATGCAACC
ACGCCCAGCTGAATTTTTTGTATTTTTAGTAGAGACGGTGTTTCACCATGTTAGCCAGGATGGTCTCAATCTCCTGACTTCATGATCCTCCCACCTTGGC
CTCTCAAAGTGCTGGGATTACACCGCGCCCAGCCTCAGTAGTTCTTACACACTCTCAAACTCATCTTTCTTATAACAATTGATAGGTGTTTCATAGCTTG
TTAGGTGTTGGAAAGGATGATTACATACCCTTGCAAAGCCAACTTGTCCCACATGGGAATTAAACCCACATAGTCAGTTTGCTAAACTGGTGCTGGAATG
AAGGGTGTTAGGTTCCTTCAGCTTTCCAGAAACAGAGAGGCACACTTAGGCTTCAAGTGATAAGGCTTATTATCAAGATACATAGAAAGTTATGAAAGTA
AATAAAACCACTCCTGCAGGGCACAAAAATTGGAAGGCCATTCATGGCTGTCAAGGATACACTAGTGACTTAATTCTAGTAGACTCCATGCTTTTTGACT
CAGCACCTCCTATCTCCTTCTGTGTCTACCTGCCTCTTCTTCATACATCATTATTGCCTGATTTACCTCTATCCTCCCCCTTTCCTCATGGCTTCTGCTA
ACTTCCTCTATGTGTCTCCTCATTTCTATGCTAAATTACTTTCTTCAGTCTCTGTCTATATGACTTACGTTCAAATTCCTCAAAGAGTTTAATTTCATCA
CTACACAGGATAGGACACCCCTGTTGGGTAGAACTCTTATGTGAGGCAACCTCATGCTACTGGCAAGCCTGCATATGGGAAAGTACCTAGCAACGGCCCA
GCTGGAGATAGGACAGCAGGATGCACAATGGAGGTACACAGGAGGTAGGGTAATATGGGCTGTCAGTGCCTTCCAAACAGGGAAAATATAATTGGGTGGG
GACTTGCATGGCCTGTCTGGCACACTAAGATGAGCAGAGACACTATATATTGATTGATTTTTAAAGTATTCACTAAAATACATCATACAATTTAAATTTC
TGTCAGAAGTGTTTAAATGTAACAACTGCTGAAACACTGCTCTGATTCTTTTGATTATTTTAATATTAGTTTTTCACTTCTAATCACAGAGGAATATAAG
AATACAGTGCCATGATTGCAGGCCCAGTCTCTGGACCATCTGGCCCAACAGTCTATGTCAATGTTGGCCCAAAGAGATGTGGATCAAAAGGAAGGATTGT
GCTCCTCGACAATCCTAAAGATGCCAATCTTGAGGGTGAAGAATTTAACACAAACAACTGCCAGCATGATAACCTGATCATCATAATACAGGAATTTATT
ACTCCCTCAAAATCCTCCCCATTTATTTCTGAGAGTCCTCAAAGTGGTACATTATAAATTTCTGAAAGTATCTCCTATGTCCCTATAAAAATATGTTGGT
AAGAGTCACAGCTGTTTCCACTCTCTTCTCTCACTGCCTCTCTGCTGCCACGACCAGTCACAAGAACAATGAGGTCCATGCCAAGGTACTACCTCAGAGT
GTTCCCAAAGATTCTAGTGCTTGGGGCCAGAAGAATCTAGTATAGGGATGATGAAAAGAGACACCTCTCCAACCCTGTCCTATTAAGTCACCGAAACTCT
GAAGCAGCTCAACTTGTGGGTAGAGCCCTAAGGAGTCTTCTCTCAACAGTTCCATCAGCTTTTGGTCCTTACTTGCCCAATTATAGGGACTCTCATCCAG
GCTAGGCAAGGTATAAATCATATATCATGCCCTCCATATTGACAATGATAGTAACAATACTAATAGCTAATGCCTACATAGCATTTATGTCAGACACTGT
TCTAAGCATTTTATATATATTTATAATTTAATCCTCACAACAGCCCTGTATTATTATTCCCCTTTTCCAGATGAGTAAACCAAGGGCTTACGGTATTTGA
ACTTATGTCTACAATCTTGCTGTGATGATTAATTTTATGTATCAACTTGACTAGGCAACAGGATGCCCAGATATCTGAGGAAACATTATTTCTGGGTGTG
TCTGTGAGGATGTTTCCAGAAGAGATTAGCATTTGAACTGGTGGACCAAGTAAAGCAGATGGCCCTCCCCAGGGCAGGTGGGCATCATTCAATCTGTTGA
GGGCCTGATTAGACCGAAAAGGCAAAGAAGGTTGGAATCTGGCTTCCTCTGCCTTACTGCTTCAGCTAGGACATTAATCTTCCCTGTTCTGGTCACTCTT
GTTTCTCAGGCCTTCAGACTCAGATTGGAAACTACAGCAATGGCCCTCTGTCTCTCAGGCCTTTGAACCACACCACTGGTTTTCCTGGGTCTCCAGCTTG
TAGATGACTAATCATGAGACTTCACAGCCTCCATAATCGGGTCCAGAGTCTGGGCAAAGCTTAGCTGGATCCTCTGTTCAGAATCTCACAGAGCTGAAAT
CAAGGTGTCAGCTGGGGCTGCAGTCTCATCTGATGCTCAGGGTCCTCTTCCAAGCTCATTCAGGTTGGTGCCAGAATTCAGTTCTTGACTGCTATAGAAC
TTATACTGACTATCATCTTTTTTGAGGCCAGGAATAGCTTAGCTTTCTAAGTTATCAATCTATGATCGCTATCATTTAAGAGTTTATCTGATTAGGTCAG
GCACACCCAGAATAATCTCCCTTTTAATTAACTTAAAGATAACTGATTATGTCACTTAACGACATCTGCAGAAATCTTTTCTCTTTTGCCATATAATGAA
ACTTAATCATGATGGTGATATCTCATTATATTTACAGGTCCTAAAGATCTTAAACATGGTGGAATTTACAACCCTCTTGATATTTCAGGGTAGCATTTAA
TTATGCTTACTCTCTGAGATTTTCATTAAATCTAGTTTACAATTTTTGCTTCACAAAGCAACAACTAAGTAATCTTTAAGGTCTAAAAATATAAGAAAAT
ATTCTTAGGAAGGAGTACAGAAAAAAACAGGTAAGTAGACCATAAGAATTAAGGAGATGACTACAGATTTGACAAGAACAATTTTTCTCATTTCCTCTCC
TTAATGGCATTAGTAAACCTTAGTGACTTTTTATAGCAATTTGAAGAAAACTCCTAGTAAAATCATACTTCTTGGTCTCACATTCAACAATTTCTACCAA
GTGGTGCTGCTCATTACTCCCCTGTAATATCCCTCAGCTATAACTACACCACATTGCCTTCCATAGTTCCTATTTGCATACCCTTTTTTTTTTTTTTTTT
TTTTTTTTTTTTGAGACAGAGTCTCGCTCTGTCACCCAGGCTGGAGTACAGTGGTACAGTCTCGGCTCACTGGTACAGTCTCGGCTCACTGCAAGCTCCA
CCTCCCAGGTTCACGCCATCCTCCTGCCTCAGCCTCCCGAGTAGCTGAGACTACAGGTGCACGCTGCCATGCCCGGCTAATTTTTTGTATTTTTAGTAGA
GAGGGGGTTTCACCGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTTGTGATCCGCCCACCTGGGCCTCCCAAATTGCTGGGATTACAGGCGTGAGCCA
CCATGCCCGGCCATCTGCATACCTTTTTTTTTTTTTTTTTTTTTATTAAACTCTAAGTTTTAGGGTACATGTGCATATTGTGCAGGTTAGTTACATATGT
ATACATGTGCCATGCTGGTGCGCTGCACCCACTAATGTGTCATCTAGCATTAGGTATATCTCCCAATGCTATCCCTCTCCCCTCCCCCGACCCCACCACA
GTCCCCAGAGTGTGATATTCCCCTTCCTGTGTCCATGTGATCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGCGGTGTTTGGTTTTTTGTTCTTG
CAATAGTTTACTGAGAATGATGGTTTCCAATTTCATCCATGTCCCTACAAAGGATATGAACTCATCATTTTTTATGGCTGCATAGTATTCCACGGTGTAT
ATGTGCCACATTTTCTTAATCCATCTATCATTGTTGGACATTTCGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCGCAATAAACATACGTGTGCA
TGTGTCTTTATAGCAGCATGATTTATAGTCCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATCCCTGAGGAAT
CGCCACACTGACTTCCACAATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTC
CTGACTTTGTAATGATTGCCATTCTAACTGGTGTGAAATGATATCTCATAGTGGTTTTGATTTGCATTTCTCTGATGGCCAGTGATGATGAGCATTTCTT
CATGTGTTTTTTGGCTGCATAAATGTCTTCTTTTGAGAAGTGTCTGTTCATGTCCTTCGCCCACTTTTTGATGGGGTTGTTTGTTTTTTTCTTGTAAATT
TGTTTGAGTTCATTGTAGATTCTGGATATTAGCCCTTTGTCAGATGAGTAGGTTGCGAAAATTTTCTCCCATGTTGTAGGTTGCCTGTTCACTCTGATGG
TAGTTTCTTTTGCTGTGCAGAAGCTCTTTAGTTTAATTAGATCCCATTTGTCAATTTTGGCT

Expression



Full and truncated open reading frames discovered in TCONS_00245543

In silico ORF/peptide predictions
Nothing found.


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

BLAST search results

No hits found.