Detailed information on ENST00000444051

lncRNA-RNA interactions

Number of interactions: 27

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 ENST00000444051 561 296 noncoding Trans
ENST00000482603 glyoxylate reductase/hydroxypyruvate reductase processed transcript ENST00000444051 538 276 noncoding Trans
ENST00000498813 delta(4)-desaturase, sphingolipid 1 processed transcript ENST00000444051 558 303 noncoding Trans
ENST00000553127 spermatogenesis associated, serine-rich 2 protein coding ENST00000444051 620 299 UTR3 Trans
ENST00000620139 melanoregulin protein coding ENST00000444051 595 301 UTR3 Trans
TCONS_00001821 low density lipoprotein receptor adaptor protein 1 novel protein coding ENST00000444051 605 294 UTR3 Trans
TCONS_00001823 low density lipoprotein receptor adaptor protein 1 novel protein coding ENST00000444051 605 294 UTR3 Trans
TCONS_00030165 antisense novel protein coding ENST00000444051 561 296 UTR5 Trans
TCONS_00050741 spermatogenesis associated, serine-rich 2 novel protein coding ENST00000444051 620 299 UTR3 Trans
TCONS_00067572 DCN1, defective in cullin neddylation 1, domain containing 2 novel protein coding ENST00000444051 623 301 UTR3 Trans
TCONS_00090929 nucleoporin 93kDa novel protein coding ENST00000444051 612 297 UTR3 Trans
TCONS_00141667 Rho guanine nucleotide exchange factor (GEF) 4 novel protein coding ENST00000444051 635 307 UTR3 Trans
TCONS_00141670 Rho guanine nucleotide exchange factor (GEF) 4 novel protein coding ENST00000444051 635 307 UTR3 Trans
TCONS_00141673 Rho guanine nucleotide exchange factor (GEF) 4 novel protein coding ENST00000444051 635 307 UTR3 Trans
TCONS_00141679 Rho guanine nucleotide exchange factor (GEF) 4 novel protein coding ENST00000444051 635 307 UTR3 Trans
TCONS_00141681 Rho guanine nucleotide exchange factor (GEF) 4 novel protein coding ENST00000444051 635 307 UTR3 Trans
TCONS_00186316 KIAA0232 novel protein coding ENST00000444051 621 300 UTR3 Trans
TCONS_00192322 tec protein tyrosine kinase novel protein coding ENST00000444051 645 302 UTR5 Trans
TCONS_00194652 E74-like factor 2 (ets domain transcription factor) novel protein coding ENST00000444051 615 300 UTR5 Trans
TCONS_00194655 E74-like factor 2 (ets domain transcription factor) novel protein coding ENST00000444051 615 300 UTR5 Trans
TCONS_00196475 F-box and leucine-rich repeat protein 7 novel protein coding ENST00000444051 647 299 UTR3 Trans
TCONS_00210928 leucine rich repeat containing 1 novel protein coding ENST00000444051 600 294 UTR3 Trans
TCONS_00235393 processing of precursor 1, ribonuclease P/MRP subunit (S. cerevisiae) novel protein coding ENST00000444051 649 295 UTR5 Trans
TCONS_00243477 osteoclast stimulating factor 1 novel protein coding ENST00000444051 643 297 UTR5 Trans
TCONS_00243482 osteoclast stimulating factor 1 novel protein coding ENST00000444051 643 297 UTR5 Trans
TCONS_00247297 family with sequence similarity 166, member B novel protein coding ENST00000444051 604 277 UTR5 Trans
TCONS_00252827 discs, large homolog 3 (Drosophila) novel protein coding ENST00000444051 611 300 UTR5 Trans

Sequence

>TCONS_00252827 (9770 nt)
CAGAGGGATGCCCAGGATGAGGTGAAGACGATCTTGGAAATCAGCCCAGATGTGCATGCACCAGTCCACGTGTGGCAGGACCAAGGGAAGTGTCTTCACA
AAGATGAGGCTTTGATTTGTTGGAGAAACTGTTACCAGAAAAACAGGTCCCGATCCCGACCCCAAAAGAGTATTCTTGGATCTTGCACAGGAAGGAATTA
AAGGTGAGTCACAGAGTGCAGTGAGAAGGAGATAGTTTATTGAAAGTTACTCAGATACAGAGTAGGTGTCCTCAGAAAGCAAAAGGAAGAATGCACCATC
TTTGTTGTAAACTCTTCTAATGTAGGGGTTTAATCTACATAAAAGCTAAGTTAAATGTCTATGTGTGGGTGCTCTGACAGCATGACAAAATTTAGGACCT
ATTGATTTAAAGAAAGTTATCCTTGGCATTTTAGTTAGTATATCAAAGCATGACTATAATAATCTTAAAAGCATATATTATAATGTGACGTCAGGACATG
TGGACATTCTGTTGTCTGTCATAGGCGTTTGTTCTTGCAGGCATTATTAAGTTGTTTAATCAGCTGTAAACCTCTTATGACCATGGGTTGTGACTGGCAA
GGAATATGCCTTGCTAGTTGAAAGATGGAGTTGACTTTAAAATGGTGTCACCCTGGCTCTCCTATGCTTCTGTTTCCCCAAAAAAGCCAGGTTACTTGTC
CTGTAGAATGATCCACATTCTGAGTTTGGCTAATGACATTCTCATGGTATTAACTTGTTTCTTTATATGTTGTTTTTTCTGTTACCCACAAAATAATTCT
TCTGATACACATTTGTAATCTTACCATGCCAGCATCTGCTACTCTTCATGTTACCAAATTTCTGTTCAAGGACCACTAAAGCCACAGTCAGTGGACATTC
TGAGACCTCTAGGGGAGGGTGGAGATGCTGTCCTTTAATATAGTCTGACCCAAGCAACCTCCCCACTTGGCATGGTGAATCTAGACAAGCTAAAGAATTT
ACTACGCCCCAGGCCTGCACCAGCCCTCTCCTAAGACCTTGGGCACTCTCATTTCCCTTTTTTTTTTTTCTAAAGGAAGTCATAGTTTCTCATAACCTTT
GCTAGTGATCCTGGACCTTGGTTGTTCCCTGAGGCTGTGTTCTCCACACTGCTGCCATCACTGCTACAGCAGAGGTGCAGAAAGCTCAGGAGAGAGAAGG
GAGGAAAAGCTGAAGATTTTGTGTTATTCATGCTTTCCTGACTCCGGCGAAAGTGCTTCCTCCACCTGCAACCATTTCTGTTTCTATACTGCTGAGTCTT
GTGTTCCCAAGACCAAGGGAAGCCCATTTTCTTTAAAGCCAGTCACAGTTTCTGTTGGCTGATGGAATATCTGTTGTCCAGCAGTTGTATTCCTGCTCAC
AAATGCAAAACAGTTTGATGCCACGCACATTCCAGGGCTTAGACTGGAAATGCTGTCCCTTGCCCCTTTGTTACCTTCTGACAGGGATCAGTCCATAGTG
TAGTTGGTGTCACAACAGTCCCGAAGAAGCCTTCCAATAGATACCCAAATGTGATTCAAAGTGGCACAGGCACACACCACGGTGCCACATGGTGCCTATG
TAAAGCAGGTATATCAGGAATGCTAAGCAGAGAAGTAGCAGAACACACTGATCCCCATGTTCTCATTGTACAGTTGGGTGCAATTAAGCTGGCACAATGG
ACTCTTCTCATGGCTACTGTTCCAGTAGTGTGGATGCCCCCAAATGCTGCATATTTACTAGGACAGCCAGGCAGAGACAGCTGTGTACTATGATACAACA
GTAGTCCCTCTTAGAGGAAGTGACCTTGTTAGAAGTGGGAGTTTCTGAAGCTCTTCAGCTGTTACTGGCCTGCTCTTCCATAGCGTTACTTCAGACCTGC
TGGCCCAGCTATCCACTCCGCTAACAGGTCTGTCTCTGCTAACAGGTCTAGCTCTGTCTCCTCAGCACATGTTCTAGGCTCTGACTGCAAGTGCTGACTT
GGGCTCCCAGCCCCACACAGACCCTCTGTTCCATGAAAGGGCCATCTATGCAAAGTGCCCCCCAAATGCCAAAGGAGCCAATAAACCAAGGAACAAGACA
GACAAATCTAGTTGTCAGTAAAGAGTGTTTTATTGGGGAACTTACAGACAGAAGCGTGGTCTTGGATGGCAGGAAGACAGGTAGGTTTCTGCACTTATTA
CCCCCACACCCAGGGCTTATATACCACAGGGGAAGAGTATACATGCTCTGTGCAAGACAAAGGCTACTACTGTCCAGAACAGGTAAGAATGCTAATGTGT
CATAGCCTAGAATTTGTATAACATCAAGGTTGACATGTTCTTACAATAGGGATGGTAAATAAAGTGGGAATCAGGAGTCAGTCCTGGGACTGGGGCTAAT
CAGAAGTCAGCATAGAGAATTAGCATCCAAGAGGGAGTCACTTTTCTCTCCACATCCCAGCCCTCTAATCCAGCTCTTACAATCTCATGGACTCACATTT
CCCCCATAGTCCCTGAGCCTTCAGAGAGGGCTGTGGGTGACATTTTGATGGTGTGAGTGACACATTTTATCAATTTGTTTTCTACTTGTTAAGCAGGGGC
CACAGCAACAACACAAACAACAGGCGATGATATGTATGCCAGGTGTAAGACACAGAATTAAAAATGCCCTTTACCATGTTTATTCAGGAACCAAACCAAG
AGGTATAGAGCAGAACAACAATAGGAACAGAAGACTATGGGTGGAATTAAAAATGTTTAGTAGGTATTTGGTGGGGCAGTTCTTCCCCATTAAACAGAAT
TACTGGTAGCTCCATCTCTGTTGATTAGGAACATAGGATTGTGGGCTGGGAGTACACACCAAACATGTTGCCTGAGGGGCAAAGGCGCTGGTATTATGTG
TAAGGTTACAGGGGCAGCAAAGGACCATGTCAAATGGCCAGCCAGGGTGCTTCTTAAAAGGGACTGTGTTCCAGTTTATTGGTATGTGGAGTGTTTTGGC
CCAGACTTCAGCAGGATCAATGGAGACCACTTTAGTTGGTAGGGAATTCCTTGCTGTCTGGAAAGAAATGCTCTATCCAACATAGGGGAAGTTGCTAGTC
CAACCCCCATTCAAGTGTCTCCTCCCTGGCTCAAGATCTTGAGGAGTTCTAAATAACCTTTGCCATTGGCCTTTTATCTGCTCAGGTCAGAGATGCATCT
GGTTGGACTTTCTTTACTATTATGGTTAATGGATCCATCTCTGTGGTGGTCCTGAGTCATTGGTGTGGTGCCAGCACCATATTTGTCTCAACTAAATTAA
GGTTTCTAATGGCTTGAGGCAAAATCTTTGTCTAACTATGAAAGATATTGGATTTTGAGAGTGCTCAAAACTGTGCCTTCAAAATACCATTTTTCCTTTC
AATCAACCCTGTTGCTTGGGGGAGTATACAGTAAGTGAAATACCCAGTCTATGTCCCTTTCATGCATCCAGTCTTGGACACCGTGTCTGGTGAAATGCAT
GCCTCGATTGCTATCAATATGTGGAGGGTATCCTTACATGACACTGAGTTGCTCCAAGCCCCTGATGGTGGCTGTTTGGTTTGCTCTTACAAGGGAAAGC
TTGCAACAATCCCATGGCAGTGTATACACATGTTAGTGCATACTTTCGTCTCAAGATTACTGGCAAGGGTCTGATGTAGTCTATCTACCAGTCTGTCACA
GGGGTGGCTGTCTTATGTATATGTCCAGGTGTATGTGGGATGTGGCAGAGGTACAGACGGGAACAAATTAAGCAGTTTGCTACCGCCACCACTAAATCTG
CATAGCAGAGAGCCAATCCTGCTCCCTTTGCTATTTGGCAGCCCATTCATGCACTGAAATCCCCACTGTGATATGTACCTAATCAACTAGCTCAGTATTC
TAATTTTTGCTAGGATGTCTGCCTCCATGTTTCTGGGAGGTGAATCTGACCAGTGTGCTGAAGCAATTAGGTCCACAGTGGGTTCCTGTAGACTTTTCCA
AATGTCTTTCCACATATCAGCTCCCCATAAGGATTTTTAAATTATATACCAATCATCTCAGGCCCTTTGGGCAAGCCAAATTGTAAGACCCTTAAGTACT
GCCAGACTGTCTGTACAGAGAACTATAGGTGGTGGCTCACGGGTACAAACCAACCATGTAGCTTGGAGTTCTGCCCATTGACTGCTCTGTTGCATTCCCA
TCTCAAACCAGATACTGTCTGTGGTTGTGCAGCTACTACTGTCCATACACAGGGTTACCTTGGCTCAATGCATCTAAGTACCAAGCATTATCAGGAATGA
GGGCCATGCCTTCATGTACCATTGGAGACATCTCCTGTGAGGGCTCCACAATAGGGGCAGCACTGGACTCATAATGTACTGGCCCTAAGATAGCATGCAG
TTCATCTCTTAAGGGATGCATGGAGAAGGCACTATGTTGTTGCATGTATGCATGGCACTTTTGTAAAGTGGAAACTTGGGCAATAGCTGATACAGGCCTG
GCAAACACTCCTACCCAGTCCTTGATAGGAAACCTGTTCTCCCTGGTACCAGGAAAGCAGCAGTTATGGATTCAACTTGTGGCAAGACCTTCTATATCCC
CAGGACCTGTTATTCAACTGGGAAATAGCAGGTTTCAGTACCCTTCCATTAATTGTGACTAAAATTCTAAAGGAACTGCTTCCCTATGCTGGACTTTATA
TTTTCATCATCCAAAATTATAGTTTAGTTTTACCTTTAAAAATATGTTTTTTGTTCTCATTTGTTCCATAGGTTTCTCCTTGAAATTTATATTGTATGGT
AAGGTTTCCTATTGTTTGCATTTTGTGGATTGCACGCCAAGGTGTGGTTTAATGTATTTCTATTACCTGTATTTTCTGTAAATTGGTAGTTTGGTATAGA
GGTTTGTGTACATTCAGGGTTTTTTTTTTTCTGTAAGTATTGATGGTTCTGTAAAAGGAAAATAAAATCTTGGGGCCCCAAAATTACTAAGCTAAAGGGA
AAAGTCAAGCTGGGAACTGCTTAGGGTAAACCTGCCTCCCATCTGTTCAGAGTCGCCCCTCTGCTCACTGAGATAAACACATGTCTGATTCCCTCATTTG
GAAAGGCTAATCGGAAACTCAAAAGAATGCAACCATTTGTCTCTCATCTATCTGTGACCTGGAAGCCCCCTCCTTGCTTCGAGTTGTCCCGCCTTTCCAG
ACGGAATCAATCTTTAGCTTACATATGTTGATCACTGTCTCATGTCCCCTTAAAATGTATAAAACCAAGTTGTGCTCTGACCACCAAAGTTGTGCTGAGA
AGTGACACCAAAGAACATGGTGGCATAAGAACTCCAAGGACCCCTCCCCTCCACAGCGGCAATGTGCTTGTTGAAACACCAGTATAAAAAAACTCGATGA
GAGCTGTGATTGGATTTAGTGTTGATATATTTTTTGTAAATTGTGGTAAAACATGCATACTATATAATTTACCTTCTAACCATTTTTTCAGTGTACAATT
TGGTGGCAGTAAGCACATTTACAATGTTGTGTAACCACCGCCAATATCCATTTCCAGAACATTTTCATCATCCCAAACAGAAACTGTACCCATTAAACCA
TAACTGCCCATTCTCCCTACCCCCAGCCCCTGGTAATCTCTATTCTATTTTCTGTTTCTATGAATTTGCTTATTCTAGCTACTTTATATAAGTAAAATAT
CATATTTGTTTTTATTTCTGGCTTATTTCACTTATAGTGTTTTCAAGGCTCATCCAATTAGAATTTCATTCACTTTTAAGGCTGAATAATATTCCATGCT
TATGTGCACCGTGGGTTGTTTATCCAGTCATCCTCTGATGGACACTCGGTTGCTTCCACCTTTTGGATATTGGGTATAGTGCTGCTATGGGCCTGAGTGT
ACACATATCTGGGTGAGTTCCTGCTTTCAGTGCTTTTGGGTATGCCCAAAAGTGGAATTGTTGGCTCATATAGTAATTCTATTTTTACTTTCTTGAGGAA
TCACTATTCTGTTTTCCATGGTGGCTGCACCACTGTATACTCTCACCAGCAGTGTACAAGTGTTCCAGTTTCTCCATATCTTCACCAACACTTGGCCTAG
TGAAGTTTACCATATTTTTATGTCCTTATTGGCATTCCTTTTTTTTTTTTTTTTGTGAAACAGAGTCTTGCTCTGTTGCCAGGCTGGAGTGCAGTGGCAC
AATCTCGGCTCGCTGTAACCTCCACTTCCCAGGTTCAAGTGATTCTCCTACCTCAGCCTCCTGAGTAGCTGGGACTACAGGTACCTGCCACCATGCCCAA
CTAATATTTGTATTTTTTTGGTACAGACGGGGTTTCACCATGTTGGCCGGGATGGTCTTGATCTCTTGACCTCGTGATCCGCCCACCTCGGCCTCCCAAA
GTACTGGGATTACAGGCATGAGCCACCATGCCTGACCAGCATTCCTTATTTTTATGTCCTTATTGTATATCTTCTTTGGAGAATTGTCTATTCATGTCTT
TTACTTATTTTTGAATGAGATTGTTTTGCTATTGTTGAATTGTAGTTCTTTACATATTCTGGATATTAATTCTTTATCAGATATGTGATTGGCAAATATT
TCCTCCTGGTCTGTGCATTTTCTTTTGATTCTCTTAATAGTGTCCTTTGATGCAAAAAAGTTTTTAAATTTTGATGCATTCTAATTTGTCATTTTTCTTA
TATTACTTGTACTATTGGTCACCAGCCAAGAAACCACTACCAATTCTAATGTCCATAAGATTTTCCTCAGTATTTTCTTGAGGGTTTTACAGGTTCAATT
CTTAAGATTAGTTCTTTGAGTCATTCTGACTTAATTTTTGAAAAGGGTGTAATGGAAGGACATGAATTTTTTCCAGCATCATTCTTTTGCATGTTGATAT
CCAGGTTTCCAGCACCATTTGTTGATGCACCATCTGTTGCAGTGGGGCTGACACATTTGTAAGATGCAGTGAGCATTAATACATGGGAGCACCATGCATT
TATTTACCTGTCTTTACTTCACAGTTGTTTTGAGAAGGCTTTCACTGACAGACTCAACAGAAATGAATATATATGACTTCTTATAAAATCATATTCAAGT
AAAATTATAAATTTTAAAATGTTAAGACTGGAGCAAGACTGGAACATCACTAGACAAGCTGAAACATAGGCTGAAATGAAGGGTTATGTTTACCTTGCTA
CAAATTCTGTTGGCCCACAATCTCTTATGCTTATTGCTTAAGAGAGCCACAGAGTGGGGTGATAGCTCACATAACCAGTCCCTGGTTTTCTGCTTCAGAA
AGAAGTTTAAATATTCTGCTTAGACAGAGTAAGGAAATTAACTGAAAGATGTCTAATGTGAAGTTGGCATCTACAAAGTGAAGGAGTGAGTAGTAAGTGT
AAACATCAGGAATCCCAGGAGATTCTATCTTTTTGCACGGAAATGGCCTCACTATGCACTGCTGAAGGGAGAAGGTCCCTTCAGGGGACCTTCATGATGA
AGAAGAACACAATATGATATAGGAATTTTCTGCTGCAGCCCTAAACTGAATTGTCCTTCTCTCTAACTACAGGTCTCACAAAGTTTTATAGCTTCAATGA
TTTCACCTGGGCCAAGATTTTGGTTTTTTTTGATGTTATTTGTTTGAACTGCTGCCTGGGGCTTAGAAAAGTGACTTGGATATTTTGTCAAAATGGATTT
TCTTTGATGGAATGTGAAATCCGTAAACACTCTGCTTTCCTGCTGTATCCCCAGAGCAGGTTGAGTACCTTGCACTTCTTCTCAGCACTTCGCTAGAAGT
GGTAGAAGATTTGGAGTTAGGGCCTCCCTCAATCCCTACCCTTTCTTTAATTCAGAGGATCACAAACTGTTGGGAGAAGAGTGGTATCTTGGGCCTCTAG
CTGATCTGATGAATATTAATATCCAATGTCCTGTAGTGAAGTCATGTGTGCGTGTAACATCACTTCTTCACGCAGTGTCATAGGAAAGTGGGTTCCTGGA
CCCCAGGTTAAGAGCCTAAGCACTAAAGGCACAGAGCTAGAGCTCTAGGAGGGGAGGGATGGCTGGGGTGGAACCTCGTCTTGTCATTTAGTCCTGGGGC
CTTTTCACTCCTTACATGGTGGGTGGTGGGCGTCTGGCAGGTGCCGATGTTGATGGAGTCAAGGGAGGGAACTAGCCGGGACAGGGAAAAACAGGGTTGG
AGAGATAATTAAGGTGGACGTTATTTTTTCTGAGCGTAAGTCGTGGCTGGAAATCTGGAGAGCCTGAAAGAGTATCCCCCTACCCAAACCTGTTTTTTCC
TTTTCCCTCAAGCCTCATTTGGCCACAGGCCCAGTGTCAACACCAGGGGGCGCCACAGACCATGAAGGCACCGTGCAGCTGGGATTGTTTGTGGTCGGCT
ACTGGGTCCCTGACTTAACCAGGGGAGCCAAGACCCTGTAGCCAAGTGGCCTGGATTCAACCTGCAGCTCAGGTCTTACTGACACTTCTCCCCCTGGTGC
CTCAGTTTCTTAATCTGTGAAATGGTGAGGACATTACAGCATTTACCTCTGGGGCGGGTTTCTCAACAGCAGCACTATTAACAATTTGGGACAGAGAATC
TTGTGGAGTGGTCTGTCCTGTGCATTGTGGGAGGTTTGCCAGCAACACCCCACTCACCCCCTCCCACCAATCCCCATGTGACAACCGAAAATGTCCCAGG
ATTTTTAGGTCTCCCTTGGGTCTAGAAGCTGCACTTAGGCATTTTCCCACCTGACACTTGAGTTCATCTCTGCTTTGGTCCACATAAGGCCACTTTAAAA
AAATGTTGTTTCTTTAAAGATTCTAACCATCTTTTAAACAAATCCATTTTCTTCCTCTATTTCTGCATTCAGTTAATCCTTCCAAACCCTTTGTTTAGTA
TATCTTGAAATGTATCAATTCCTGTTCTAGTAATTAACATATGTGACTTGCATGATATCTGCTATGACCCTTAGTAGAGCTCTGATTCCTTTAGCACAGG
GAATGTGTTCTCGATTCTGCTCTGGATGATGTAAATCAATTTATTTTACTTTACTTGTCTGGGATGTTGCTCCTCATCTGTAAGATGTAAATGTGGATAT
GGCTTGGATTACTAAGTGGTTTTATTTCTTAATTCACCTGACATTTGTTGTGTGCCTGCTGCAAGTCAAATACATGGCATGGTATTGTTTCCTTGTTCAC
ACCACAGCAAATGAGAAAATGAGACATTATAGCCAGGTGTGGCGGCACAGGCTTGTGGTCCTAGCTACTCGGAAGGCTGAGGCAGGAGAATTGCTCCAGC
CCAGGAGTTTGAGGTTACAGTAAGGTATGATATCACCATTGCATTTCAACCTGGGCAACAGACCCTGTCTCTGAAAAAAGGGAAAAAGACCTTGTGAGCT
GTCTACGTGTACTCTATGTCTCAGGAGACTCATATCCTGTAATTTTTCTAAATGGCGTCTCCATGTGGTCTTTCATGAATGTTTGTCTGGTATTCTCTAT
CCTTTTACTTTCAACTTTTCTTTACCTTCTACTGAAATTATGTCTTTTGTAAACAGCCCATGATTATTTATTTAGTTATTTATTTTTACCCCCCTGCACT
ATTTGTCTTGTAATTGGAGTGTCTGAGTCCATTATGTTTAATGTAATTATTGACCTCATTGGGTTTAAGTCTGTCCATTGTCATTTGCTGCCTTCTAATA
TTATCTCTTTCTTGCTCAACTATTTTTCTTATGTTACCTTCTTTAGATGAATAAAAACCTTTGCATTATTG

Expression



Full and truncated open reading frames discovered in TCONS_00252827

In silico ORF/peptide predictions
Nothing found.


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

BLAST search results

No hits found.