| 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 |
|---|---|---|---|---|---|---|---|---|
| ENST00000242057 | aryl hydrocarbon receptor | protein coding | TCONS_00057473 | 567 | 301 | UTR3 | Trans | |
| ENST00000309060 | zinc fingers and homeoboxes 3 | protein coding | TCONS_00057473 | 606 | 300 | UTR3 | Trans | |
| ENST00000367590 | xenotropic and polytropic retrovirus receptor 1 | protein coding | TCONS_00057473 | 557 | 254 | UTR3 | Trans | |
| ENST00000375120 | OTU deubiquitinase 3 | protein coding | TCONS_00057473 | 512 | 310 | UTR3 | Trans | |
| ENST00000395811 | myosin phosphatase Rho interacting protein | protein coding | TCONS_00057473 | 506 | 305 | UTR3 | Trans | |
| ENST00000421422 | zinc fingers and homeoboxes 3 | protein coding | TCONS_00057473 | 606 | 300 | UTR3 | Trans | |
| ENST00000448214 | antisense | antisense | TCONS_00057473 | 542 | 300 | noncoding | Trans | |
| ENST00000450928 | antisense | antisense | TCONS_00057473 | 526 | 303 | noncoding | Trans | |
| ENST00000463496 | aryl hydrocarbon receptor | nonsense mediated decay | TCONS_00057473 | 567 | 301 | UTR3 | Trans | |
| ENST00000547865 | spermatogenesis associated, serine-rich 2 | protein coding | TCONS_00057473 | 515 | 309 | UTR3 | Trans | |
| ENST00000549365 | DNA-damage regulated autophagy modulator 1 | nonsense mediated decay | TCONS_00057473 | 531 | 300 | CDS_UTR | Trans | |
| ENST00000552918 | spermatogenesis associated, serine-rich 2 | protein coding | TCONS_00057473 | 566 | 280 | UTR3 | Trans | |
| ENST00000553127 | spermatogenesis associated, serine-rich 2 | protein coding | TCONS_00057473 | 591 | 297 | UTR3 | Trans | |
| ENST00000607772 | CNKSR family member 3 | protein coding | TCONS_00057473 | 548 | 303 | UTR3 | Trans | |
| TCONS_00007944 | kin of IRRE like (Drosophila) | novel protein coding | TCONS_00057473 | 505 | 305 | UTR3 | Trans | |
| TCONS_00009095 | xenotropic and polytropic retrovirus receptor 1 | novel protein coding | TCONS_00057473 | 557 | 254 | UTR3 | Trans | |
| TCONS_00030130 | calcium/calmodulin-dependent protein kinase II gamma | novel protein coding | TCONS_00057473 | 601 | 294 | UTR3 | Trans | |
| TCONS_00030165 | antisense | novel protein coding | TCONS_00057473 | 542 | 300 | UTR5 | Trans | |
| TCONS_00050741 | spermatogenesis associated, serine-rich 2 | novel protein coding | TCONS_00057473 | 547 | 237 | UTR3 | Trans | |
| TCONS_00050741 | spermatogenesis associated, serine-rich 2 | novel protein coding | TCONS_00057473 | 600 | 305 | UTR3 | Trans | |
| TCONS_00065093 | UBA domain containing 2 | novel protein coding | TCONS_00057473 | 601 | 303 | UTR5 | Trans | |
| TCONS_00065094 | UBA domain containing 2 | novel protein coding | TCONS_00057473 | 601 | 303 | UTR5 | Trans | |
| TCONS_00141667 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00057473 | 657 | 299 | UTR3 | Trans | |
| TCONS_00141670 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00057473 | 657 | 299 | UTR3 | Trans | |
| TCONS_00141673 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00057473 | 657 | 299 | UTR3 | Trans | |
| TCONS_00141679 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00057473 | 657 | 299 | UTR3 | Trans | |
| TCONS_00141681 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00057473 | 657 | 299 | UTR3 | Trans | |
| TCONS_00148048 | potassium voltage-gated channel, subfamily G, member 3 | novel protein coding | TCONS_00057473 | 627 | 295 | UTR3 | Trans | |
| TCONS_00148704 | WD repeat containing planar cell polarity effector | novel protein coding | TCONS_00057473 | 1830 | 804 | UTR3 | Trans | |
| TCONS_00148704 | WD repeat containing planar cell polarity effector | novel protein coding | TCONS_00057473 | 622 | 331 | UTR3 | Trans | |
| TCONS_00148704 | WD repeat containing planar cell polarity effector | novel protein coding | TCONS_00057473 | 688 | 349 | UTR3 | Trans | |
| TCONS_00148705 | WD repeat containing planar cell polarity effector | novel protein coding | TCONS_00057473 | 1830 | 804 | UTR3 | Trans | |
| TCONS_00161482 | BTB and CNC homology 1, basic leucine zipper transcription factor 1 | novel protein coding | TCONS_00057473 | 604 | 303 | UTR3 | Trans | |
| TCONS_00184373 | neutral cholesterol ester hydrolase 1 | novel protein coding | TCONS_00057473 | 616 | 299 | UTR3 | Trans | |
| TCONS_00193640 | hematopoietic prostaglandin D synthase | novel protein coding | TCONS_00057473 | 655 | 324 | UTR3 | Trans | |
| TCONS_00193640 | hematopoietic prostaglandin D synthase | novel protein coding | TCONS_00057473 | 1748 | 810 | CDS_UTR | Trans | |
| TCONS_00196475 | F-box and leucine-rich repeat protein 7 | novel protein coding | TCONS_00057473 | 633 | 298 | UTR3 | Trans | |
| TCONS_00203985 | family with sequence similarity 169, member A | novel protein coding | TCONS_00057473 | 611 | 302 | UTR5 | Trans | |
| TCONS_00210928 | leucine rich repeat containing 1 | novel protein coding | TCONS_00057473 | 627 | 294 | UTR3 | Trans | |
| TCONS_00215909 | O-acyl-ADP-ribose deacylase 1 | novel protein coding | TCONS_00057473 | 533 | 303 | UTR3 | Trans | |
| TCONS_00220258 | aryl hydrocarbon receptor | novel protein coding | TCONS_00057473 | 567 | 301 | UTR3 | Trans | |
| TCONS_00229218 | leucine-rich repeats and death domain containing 1 | novel protein coding | TCONS_00057473 | 659 | 305 | UTR3 | Trans | |
| TCONS_00229219 | leucine-rich repeats and death domain containing 1 | novel protein coding | TCONS_00057473 | 659 | 305 | UTR3 | Trans | |
| TCONS_00235393 | processing of precursor 1, ribonuclease P/MRP subunit (S. cerevisiae) | novel protein coding | TCONS_00057473 | 646 | 291 | UTR5 | Trans | |
| TCONS_00243477 | osteoclast stimulating factor 1 | novel protein coding | TCONS_00057473 | 600 | 306 | UTR5 | Trans | |
| TCONS_00243482 | osteoclast stimulating factor 1 | novel protein coding | TCONS_00057473 | 600 | 306 | UTR5 | Trans | |
| TCONS_00247297 | family with sequence similarity 166, member B | novel protein coding | TCONS_00057473 | 634 | 303 | UTR5 | Trans | |
| TCONS_00252827 | discs, large homolog 3 (Drosophila) | novel protein coding | TCONS_00057473 | 653 | 300 | UTR5 | Trans |
>TCONS_00252827 (23230 nt)
GCCCCCCGCCCGGCCAGCCGCCCTGTCTGGGAGGTGAGGGGCGCCTCTGCCCAGCCGCCCCTACTGGGAAGTGAGGAGCCCCTCTGCCCGGCCACCACCC
CGTCTGGGAGGTGTACCCAACAGCTCATTGAGAACAGGCCATGATGACAATGGCGGTTTTGTGGAATAGAAAGGGGGGAAAGGTGGGGAAAAGATTGAGA
AATCGGATGGTTGCTGTGTCTGTGTAGAAAGAGGTAGACATGGGAGACTTTTCATTTTGTTCTGTACTAAGAAAAATTCTTATCCTGTTGATCTGTGACC
TTACCCCCAACCCTGTGCTCTCTGAATCATGTGCTGTGTCCACTCAGGGTTAAATGGATTAAGGGCGGTGCAAGATGTGCTTTGTTAAACAGATGCTTGA
AGGCAGCATGCTCGTTAAGAGTCATCACCACTCCCTAATCTCAAGTACCCAGGGACACAAACACTGCGGAAGGCCGCAGGGTCCTCTGCCTAGGAAAACC
AGAGACCTTTGTTCACTTGTTTATCTGCTGACCTTCCCTCCACTATTGTCCTATGACCCTGCCAAATCCCCCTCTGCGAGAAACACCCAAGAATAATCAA
TAAAAATAAATAAATAAATAAATAAAAAGAAACATAGAAAAGCTACCACTCAAAAAAAAAAAAAAATTCACTAGAAGAGTTCAACTGCACATTTGAGCTG
GCACAAAAATCAGTGAACTTGAAGATAGGTCAATTGAGATTATCCAGGCTAAGGAACAGAATGAAAAAAGAATGAAGAAAAATAAACAGAGCATCAAAGA
CCTATAGGAAACCATCAAGCATACCAACATATGCATAATGAGAGAACCAGAAAAAGAGGAGAAAAAGGAAGGAACAGAAAGAATATTTGAAGAAACGATA
CAAGGAAACTTCTCTAATTTGATGAAAAGCATTAATCTATACATCTAAGAAGCTCAATAAACTCAAAGTAGGATAAAATTCAAGAGATCCACACTGTAAC
ACATCATAACCAAACTTTCGAAACATAAAGAGAGAATACTGAAAGCAACAAGAGAGAAGCAACTCATCAAAAATAGGGAATCGTCAAAAAGATTTCCTAT
CTGATTTCTCACTAAAAACCACGGAGGCCAGAGGCAGTGGAAAGATACATTCAAATTCCTAAAAGAAAAAGACTGCCAACTAAGAATTCTAATTCTAGCA
AAACTATTCTTTGAATATGAAGAAATTATGACTTTCTCAGATAAACAAAACCAAAGAGAATGTATGCTAGCACATCTTATCTATGAGAAATACTAACCTG
GGTCTCTCAGGCTGAACTGAAAGGACAAGAGACAGTATACTTGAATCTACATAAAGAAATTAAGAACACTGGTAAAGATAACTACATAGGTAAATATAAA
AGAAAATATAAATGTATGTTTGGTTGTGGCTCTTTTCTCCTATGTGATTGAAAAGACAGCTGCATAAATCAAGAATTATAAATCAGTGTTAATGGATACT
GTATTAATGTAGAAAGATGTAACTTACACAATAATAGCATGAAGGAAGGGGAGGGAATATATAGGAACAAAATTTGTAAACTTAAACTTAGTTAGTATTA
ATTAATATAGATTGTTATAAAATAAGGTACTATTTGTAAGTCCCAGGGCAACCACTGAGAACTCAAAAAATATTTAGTAAAAGAAACGTCAAGGCCGGGT
GCAGTGGCTCACAACTGTATTCCCAGCACTTGGAAGGCCAAGGTAAGAGGATCACTTGCGGCCAGGAGTTCAAGACCAGCTCAGGCAACAGAGTAAGAAC
CTGTCTCTACAAAAAATAAAAAAATTATCCAAGCATCGTGGCACACACCTGTAGTCCTAGCTACTAGGGAGGCTCAGGCAGGAGAATCACTTGAGCCAAG
GAGCTGGAGGCTGCAGTGAGCTATGATGGCGCCACTACACTTCAGCTTAGGCGATTCTGTCTCTTAAAAAAAAAAAAAGAGAAACATCAAGGAAATTAAA
ATGGTACATTAGAAAATATATACTTAATACAAAAAAAGGCAGAGAAAGCAATAATGTAGTAATTAAGGAATGAAAAAAATTACTTGATATACAGAAAAAA
TAGCAAAATGACAGACATAAATACTACCTTAAGCATTAGTAAATACATTAATTGTAAATGGATTCAACACTCCACTCATAAGTCAGAAATTGCTAGACTG
AATAAAAAGAGAAATAAATCTCTTCTGCATAACCAACAAGAGATAAAACTTAAAATATCTAAATATCTCATGAAAACTATCACCATTTATTAAACATTCT
TCTCATTCAGCAAAATGGAAAATAGGTATTCATTGCCACTTGTCTTCTGATTCAGGGTGGCCCATTTAATGTCATTCAGCTTTCACAGGCTTATTTTGTT
TTTCATGCCCAATTTTGGCAAACTAAGCAAAAGGTCTAACCTAATTTTAAGTTGTCTGTATAAAATTCGTAATTAAAATGATACTTAATCTCATCTTTAA
TCACTATCTTTTACTGATGTCTAAGCATGTAGTTTTTAAATAATATTCATATAAGCCCATCTGTCAGTGAAGCATATTCATAGATTAATGGATCTTGCAT
AACACTGCAGCACTGTCTTTACTACAATTGCAGAAGTTCTGAATTCTCATAATATAAAATGTAAGCAGCTTTTTAAAATGACTATGTAGACCTACTCTTT
AACCACAGGGCTGAATATAATAAAAAACATAGGAGGTGGTAGACACAGAAAAGCCAACCTTCTCTGAATACAAGGAAAAAGTGATTTCATACTTCACAAA
CTAATTATTTCATTCACATAGTCCATGTTGAAATGTAAATACCAAAATGTACATATCCTTCTAAGGAAAACAAATTGTTTTACCAGAATTATAACAGAGC
TCATTTTATAAAGTAATTAACATTATTTTTTATCTCCATTTATTAAACCTATAATTACAAAATTCTTCACATTTCAAAATAAATAAATTGTTGTATCCTC
TACTAGTCACAGTAAATATGATCCTAATTATTTAAGTAAAATTGTATGGCATATAGCCAACAATAATCTTTACGCCACTTAGAAAATAAGAATAGACTTA
AGAGGATATAAATTTGGACAAACATTTCAGAAGTACTGATAACATCTCATGCTAATTTGCTAATCTGCTTAGTAAATTTATTGTTAGCATTAAAATTAAT
ATATTCAAAATAAACATAATATATACAAAATACCTAAAATAACATAATACTCATAGTATAGCCTACAAATAAAAGCACAGATTCAGGAAGACTTGTGAAC
AAACTCAAGCTCTACCACTTACTATTAATACAACCTTAGGTAAGTTTGCTCACTTGGAGACAGTTTCCTTTGTCTATGAAATGGAAAAAAATGTTACTAC
CAAAAAGTAGCAGTTGGAATTCAATAAAACAACATACATAAAGGGTTTTACATGAAGCTAGGCACAAAGATTTCTATAATTCTTATCAAAAGAAGAGCAC
AGGTGGTATATTACATTATACGTAATTCATCAGTAATTCTGTATAGATCAGTGGAAACAAAATAGTATAGGCAGAAAAGTTATTTAATGATTACAGACTC
TAAACCGCTTAAAAAACGGTTTGAACTAGACCGATTTCTAAGGAACTCTGTTTCTGAAATTCAAAGATTCTACCTTAAGGTGATGCCCAAAAAGCCAATG
ATACTGACCCCAAATTTCTTACAATAAATAGCCTAAAGAACAAATTTCAAGAGCACCAAACAGAGGCAGTGGATATAAGAACCTGAAAAAAAAATGTATA
TACTTTGAGTGATAATCATATTTTTATAAATTACTTTGAAAAATTATCAGAGTTAAGCACAAATATTTAATGTTAATTTCAACAGGGAAAACTGAAATAC
AATTTTACTATTTAACAATAAGAAAATCATTAAATGATGGGCATATCCATATAACACAATAACCCATAACCATTACAAATCAAGTTTTCAAAATAATTCA
TGATGCAAGTACTCCCAATGTGATTCTGAGTGAAAAGGGCAAAATATAAAACAATATTAACAATTTTGTTTTTAAAATATATTTGCAAAAGAAAAGACTG
AAAGAAAAGCCACCACAATGTTTGCAGCAGTTACCTCAGATTACTGAAAATAGGGTAACTTTTTTTATAGTCTTCCTTTATTTCCAACTTTCTACTGTAA
TCAACTATCATGTTCACAATCAAAAAAAGCAATATAACATTCACTTGTGATTAAATTTTAAAGCTCTAAGCAGGAGTTAAAGAGAACTTCCTTGGCTGGG
TCAAAATGATATCCACAAAAAACTTACAGCTAACTACTCAATGGTAAAAGACTGTATACCTTCTCTACTAAGATGAAGAGCAATGCAAGGATATCTGTGC
TGATCTGACTTGTTCTAGTTAACATTAGCAAAGGTCCTAGCCAGTGCAAAGAGACAAGAAAACAAAATAAAAGGCAAACAAATGAGAAAATGTGAAATAA
AGCTGTCTCTACCAGCAGACAGCAGTAGCTACAAAAGCTACTAGAACGAACTCGTGAGTTTAACAAGGTTGTAAAATTCAAAAATTCAAGATCAATATTA
AAATACTGATTCACTTACATAAGTAATTGGAAATTTAAAAATTTTTAAAGGTTACTGTTTACAACAGAACCAAACAACATAAAACATTTAGATACAAACA
TAACAAAATATGCGCAACATTTTTATGCGGAAAGCTTAAAAACAGAGAGAAATCAAAGACCAAATAAACGTAGAAAGGTTGTTTCATTTTGTTTTCTCTC
TTGAAAGAGGCTCTCTCTGTTGCAGAGGCTAGAGTGCAGTGGCATGATCACAACTCACTGCAGCCTCTACCTCCCAGGCTCAATCAATCCTCCCACCTCA
GCCTTCCAAGTATCAGGGACTACAGGTGCATGGCAACACACCCAGCTAATTTTTCTCATTTTTGTAGAGATGCGGTTTTGCCATGTTGTCCAAGCTGCTC
TTGAACTCCTGGGCTCAAGCGATCCTCCCACCTTGACCTCCCAAAGTGCTGGGATTACAAGCATGAGCCATAGCAGTGGGACAGGAAAGGTATTTTATTA
ATGGATTAGAAAACAACATTTTTAAGATGTCAATTCTCCCCAAATGGATCCATAACTTCAATGCAATCATACTAAAAATTCCACAATGCTTTTATATAGA
AATAAAGAGATTCTAAAATGTACATGGAAAGAAAAAGAACTCGAATACTCAAAAATTTTTGGCAAACAACAACAAAGTTGGAGGACTCAGGCTTTTTGAC
TTCAAGATACACTATAACGCTACCATAATAAGGACTGAGGTTTTAGCCAAACAGACGCACAGAACAATGGAACAAAATAGAGTCCACAAAGCAAACCACA
CAAACATACTCAACTGATTTTTAACAAGGCAAGCCAAAGAAATTTAATGAAGAAAAGATAGTAATGAGAGGTGAAGCCGGCTGGACTTCCGGGTCAGGTG
GGGACTTGGAGAACTTTTCTATCTAGCTAAAGGATTGTAAATGCACCAATCAGAGTCTGTGTCTAGCTAACAGTTTGTAAACGCACCAATCAGCACTCTG
TGTCTAGCTAATCGGGTAGGGGACTTGGAGAACTTTTCTGTGTAGCTAAAGGATTGTAAATGCACCAATCAGCGCTCTGTGTCTAGCTAAAGGTTTGTAA
ATGCACCAATCAACACTCTGGCAAAACGGACCAATCAGCACTCTGTAAAACGGACCAATCAGCACTCTGTAAAATGGACCAATCAGCTCTCTGTAAATGG
ACCAATCTGCAGGATGTGAGTGGGGCCAAATAAGGGAATAAAAGCAGGCCACCCGAGCCAGCAGCAGCAACCCCTTCGGGTCCCCTTCCATGCTGTGGAA
GCTTTGTTCTTTCACTGTTCGCAATAAATCTTGCTGCTGCTCACTCTTTGGGTCCGCACTATCTTTATGAGCTGTAACACTCACAGTGAAGGTATGCAGC
TTCACTCCTGAAGCCAGCGAGACCACGAACCCACCAGGAAGAACGAACAACTCCGGACACGCCACCTTTACGAGCTATAACAATGAGCTGCAACACCCAC
CACAAAGGTCTACAGCTTCACTCCTGAGGCCAGCGAGACCACAAACCCACTGGGAGGAACAAACAACTCAGGACACGCCACCTCTATGAGCTGTAACACT
CACCGCAAAGGTCTGCAGCTTCACTCCTGAAGCCAGCAAGGCCACAAACCCACCAGGAGGAATGAACAATTTCGGATGCAGCTTCACTCCTGAAGCCAGC
AAGGCCACAAACCCACCAGGAGGAATGAACAATTTCGGATGCGCCACCTTTAAGAGCTGTATCACTCACTGCAAAGGTCTGTGGCTTTGCTCCTGAAGTC
GGCAAGACCATGGACCCACCAGAAGGAAGAAACTCCAGACACATCTGAACTTCTGGAGGAACAAACTCCGGACACACCATCTTCAAGAACTGTAACACTC
ACTGCGAGGGTCCGTGCCTTCATTCTTGAGGTCAGCAAGACCAAGAACCCACTGGAAGGAACCAATTCTGGACACAGTAAGAATAGTCTTTTTCAAGAGA
TGGTGCTGCAAGACTGGGGCATCCATACACACACACACAGAGAGAGAAAGAGAGAGAGAGAGTCTTGACCCCTACCTCACACTATATGCAAAAATTAACT
CGAAATTGGTCACAGACCTAAATCTAAAATTTAAAGCTATAAAAGTTCTGGAAGAAAACATAAGAAAAAAAATCTTTGCAACGTTGGATTAGGCAAAATT
TCTCATGATAAAAAAGCACAAATCATAAGAGAAAAAACTGATAAACTGGACTTCACCAAAATTTAAAACTTCTGCTCTTTGAAAGATACTGTTAAGAAAA
TGAAAGGACAAACTACAGACTCAGACTCGAAGGAAATGCTGTGAACATATATACGATAATGAATTTGTATCCAGACTGTATAAAACACTTGCAAACCAAT
AACAAACAACCCTATTAAAAACGAACAAACGATTTCAGCAGACACTTAATCAAAGAAGATACACAGATGGCAAATAATAGCACAGGAAAAGACGCTCAAT
ATGTTAGAAGAAAAATTCAAATTAAAACATAAATGGGTTTTCACTAAACGCATATTAGAATAGCTAACATTAAAAATAAAATGACAAGTGCTGACCAGAA
TGTGGAGCAACTGGAACATCAAACATCACTTGCGGGAATGCAAAATGAAACAGCTACCTTGGAAAACAGTTTGGTAATTTCCTTCTTTTTTTTTTTTTTG
TTTTTGAGACGGAGTTTCACTCTGTCACCAGTCTGGAGTGCAGTGGCACGATCTTAGCTCACTGTAACCTCCGACTCCCTGGTTCAAGCAGTTCTCCTGC
CTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCGCAACCACGCCCAGCTAATTTTTGTATTTTTAGTAGAGACGGAGTTTCACCATGTTGACCAGGAT
GGTCTCAATCTCCTGACCTCGTGAGCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAAGTCTGAGCCACTGCGCCCAGCTGGTAATTTCTTTTAAG
GTTAAACATGCACTTGCACACGGCCCAAGAATTCCATTCCTAGATGTGTAACCAAAAGAAATGAAAACATATGTCTACACAAAGACTTGCACCTTAATGT
ACAAAGAACAGCACATGAATGTTTACAGTACCTTCATTCCTAAATGCCAAAAATTGTTCATCAAATGGCGAATAAACATACTATGATATATTCACACAAT
GAAATACTACTCAGCTGTAAAAAACAACCAAGCATCAACAAACATGCATCAACATGGATGAATCAAAGCATTAAGTGAAAGAAACCTGAAACATAAGGCT
ACATACTGTATGATTCCATTTACATAACATACCAGAAAAGACAAAGCTATAGACAGGGACAGAGAACAGATCAGTGGTTGCTAGGACCTATGAGTGAGGG
GAGGAAACTTTAGAATGATGGGAATATTATTTGTCTGGATTGTGGCAGTGGTTCCATTATATGCATTTGTCAGACTTTATACAGCAATATAATAAAAATT
ACTTTTTTACTTATAAATCATACCTCAATAAAACTTGATTTTTTTTAAAAAAAGCAACATATGCCCTTTTTAAAAATATGCATCAGTTTAAATGAGCTAA
ACCAAACTTACTGGGTATGGGAATAGGGCAGGGAGGAACAGTAAGGAGACCAAAAATCCTTAAAATACTGGAAATCTAAAATATTAATTTATCGTTAGTA
AATAAGAAACAGATATACATAAACACCAAGAGTTAATCCAAAGAGAGATGCCTTTTTCAATTAAGTTCTCATTGTTTGGACAGAAAATAAGAAAATTTGA
TAAACTTTCAAGGAAGATTAAAAATCACAAGGAACAGGTTGACAAAGGAGTGCTGTAATTATGACCTACAGTTTGGGAACAACTTATCTAAAACATTCCC
CTTCCATTTTACTTAATGGAACCAGTCTTATCCACCCATCCACTCTACTCCACTCCCACTCCGTCTTCTACTATCTTCATTCATAACAATCATATGTAAT
GCATACATCTGACACATATAGATAAGAGTACAACATAAAATGCCTATTACACCAAATTCCTGTTTGTCCATTTAAGCTCCAGACAAGCTCATTTTTAAAC
GTCTTTTTTCTCTATTTTAATGCCACCCAAAACCAAAGTGATGTCCCTCTGGAATGATTTTCTGCAGTTTCTTTTGTGTGTTATTAAGTACTAAGATGAT
CAAAATAAACAAAAATGTCTCAGAAGTTTTGAGTGGATCACTCCAATAAGAAGCTACATTTTTCCATTTAATAAAAGTTAAGAGGTAAGTTGTAACTTTC
ATCACTTTGTTTTCTTTATGTTTATTCCATTGGGCTTATACTGTTGCTAGGAAACCAGTTCATAAGATTTCCCAGCCCACAGAACACCCTCCTAGGCAGC
CTGGAGGATACCAAACTTCGTAACCAGGGCAATTCTCTACCACACAGTTTACTGGTTAGCCAACACCATGCAGGTGCACTCTGCCTGGCATGACCCTTAC
TACATTTACCTAATAGGTACAGACAGTATAACCAATCCCCTCAACGCAATAGAAATTGTAGCAGAGGGCAATCAGGTGATCATTAAGTGTAGAACTCTCC
GACAGCAGGGAACACAACAGCGAATTTGTTGTCAGTCCCTGTCACCCCACCCAACTAAATATTGTGGGGGGGGGAAGGGTTGCCTTAAATTGTGAAGTAA
AATGTCAGCCCACTCCAATAACTCCACCACGCAACATGCAAACTGCTTCCAAAAACCATCATCCAACTCCCACCCGGATTAATATTTGGAGAGAAAGGTG
GCATCAGTATCCGCACAGCTGAGAGGGGAGGGAAGGAAAGAGTCAGAATTCATAAGGGGCCGCTGAGTCACCTAAAATTGTGGCCAAGACTTTACCCTCC
AGGAAATCGAGCTCTGCCCCAACTCTCATCAAGGAAGCAAGTGAGAGTAGCAGCAGCAACATCATCCTACCAAAAAAACACCAGCGCAGCTTTTAATAGA
GTTCCACTCCTTAAAGTGAAGCCAAAAATAGGTTTCATGTCCAAAGCTTTCCTCCGCAGTAGGCGACACGCGCAGATGGAGAAAATATCTTTATTGTTGG
GAAAGGGAGGCGTGCTAACGGGGACGAAGGATACCTCACCACTTGGCAAAGTTACTGGCTCCTGCCTTGACCCTGAAATGCCACTTTTATTGCAACATGT
GGCCCAAGAAACTCTAAGGAAATGTGGCTGGCAGACGCTGTAGAGCTTTTACCCCAATGTACTTGGCAAAGTAAAAGGGGATACATAAACCAGGCGCGTT
CTGTGTAATCTAAGCAAGAATCAAGGTCTCCGTTCGGTAGGCGCTTCGGTGACACAATAATCACGTGTTCGTGGGCGTAGACTTTCGAAAACACTCGATT
CTGGGACGTGCAGATACCGGTACCCACCGGCGAGCGCAGGAACGAGTGGGCACTCCCACCCCCGGGAGCTGGCTCCGTTCCCGCAGGAGGTTGGTCACGC
CCCCTGACTCCTGGTCGCTGCGACAGCCAAGGGCGAGGCCGCAGCAGGCGGGCTGCAGGCGGCGGAAGCTCGTCCGCGCTCCTCCCCCGGTGGGGCGCTC
TCCGCTCGCCTCGCGCGGCCCCGACCCCAAGACCCAGGCCCCGGAAGGCGAGCGTTCACTTACCTGCTCCCCTCTCTCGCTCTCCGCTGCCGCCGCTGCG
CCGCTCACCCACGCTGCCCGGTGAGCCACCCCCAGCACACAGACCCCTACGCGTACACCCGAGGCACGGCCCCAGGCCCTTGAGGGGAGACCGCGGCCCA
GCCACACAGGTTGGGGTAGCCCACGCACCACCCGGCTTCGAACACCTCTGCCCCCGGAAGTTGATTTCCGCCAAGGCCCGCCCAACACAGCGCCCGTCAC
TCAACGTAAACACGCGCGTCACGTGGCCCCAGGCCGAGGCCCGGGTCGGGGCCCCATGTTCAGAGCCCTGCCACCCCAGCTTGAGCGTGGTCTTTGGAGC
GTTGCCCTGTGAAAAGGGGTGACTTTGCCATGCTCCTTCCCAGTCTACCTCCTGTTAGTTACAGTTTCTCATTCCTCTTGAGTAGCAGGCCCTGTTTCTC
CACCTAATCCCTGCAAGTAAACCGTCCCCCAAATCAAAATGAGTTCCATCTGGAACTTTGTAGGATTGGTCCTAAGAAGATCCCGCCGAATCTCTTCACC
ACTTCCTAGCAGAGCACAGTAAAACCGGGGACTAAGCAAAGTGGCTGACATGTAGTAAGTGCTCAAGAAATGGATGTTGACTAGATGCTACCTCTCATCT
TTGCCTGTCTGAACTCTCAAGCACCGGATGCAAGTAGACTGAGAGCCTCCGCCAACCAGCACAGTCTCACTCTCTTACCCAATCTGGAGTGCAGTGGTGT
GATCTCGGCTCACTGCAACCTCTGCCTCATGGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGACTCATTGCTCCAGCTGGAG
AGTTGATTATGACACAATGCCTGCCTTGAAGAGGTAAGAATTTAGTTGGAGGCAAAGGTTAGAATAAGGAAGCTATACGGTAATTACTTAAGGATTATAT
GGCAAAGCATTTCCTAAGCAAATGGCTTTCAAATTCATGGCAGTTGTTGAATCTTTTCTTAATAGAAATCTTATAAGTAAATCCAAGTTATTAGACGCAT
AAAAGAAAAATTCTTCTGATTGAAATAAGAACACAATTCCATGAGTCTCTCCTGCTGGGTTCCTTGTCTTAACCCCTTGCAGCCCTTAAGCTTCTTTTAC
AGATGCTCTTAGGGTTTTTGGAGTGAATCTCTTAATCCCTACTGTACACATACATACATTTATTTTGTCCAAATAACTGAAGACAGATATATTTAATGTA
TAATAGCCTTTGATAAGTAGCAGTATCCCACGATATGGGTTGGAATAACCATATTACAGACTAAAGTATGATTTTTAAAGTAGAAATCAATGGGGACTAG
TGAAAAGATAGCAAACAAAGAAGTGAAGGATGGCAATTGGTCTCATGATATTACAGAACTAACCAATTAATGGTTAATAGATAAACAAGCCAGACTTTCC
AAATCCTAACTTCTATGGATAAAGTTTTACGAGAACCATTGCTAGTTTTGTCCCTCAGTTCTCCCCAAATGACTGTGCTAACTGATAGGTACTATGGAAC
ACTATGCAAATGTCTCCAGATAGTTGAAGGATTCATGTATTTAGTAAGTACCACTGCATGCATTAGAATATTCTAGATAGGTCTTGGGTTGGAATAAACA
TGGTCTTATTATACAAAACGTGTTCTTAGAAATTAACCAAATTCTAAGAAACGAACTCAGTTTTATCTTACCAAATTCCACGAGGTGGGTGCCTGAGTAT
AAAACCAACCTAAAGTTTTAGATATGGAGTTTTCTTGCCACCAGATGTTGAAGCTAGGAAAGAAGATGGGGCCTCACTAACTTACTTTGCATTTACTTTC
TGCCTTGTAAACATGTGGCAAATGTAATAGAAAGTATATTTAGGATATAAGCAGGAAAATAAATTTTTATTTTTTTTTCTGACATTTTGTGACTCTAGAT
TCCCATGACACAAACACTGTTTAGATATGTAGTTCAGTGATTTAGTGCTTTGTGGGCAGGTAATTCATGGACTTCTCATCCACTTGATTTTGAGTAAGAG
AGCTTTGGAATTGTGATGCAAAATTAAATTAGACTAATCACAGAAGCAGAGCATTCAATTGAGAAAAAATTGTAGGGAAATTTACAAAGAGAGGAAAGGG
TGATTAGTGATAAAGGGTAGTAAAAAATAGCTTTTGTTTAAATACTAGAGATAAACCCAAGTACCCAGCTAGATATGTGCTTGGGAGAGAACTGTATAAA
AGGAGAGATTTATTGGAAATGTTTTGTGACAGAATACTATCAGCAGATGTTCCTTGTTAGGAGAATACATATTAATGTTGATGTATTGCCTCAATTTGTT
TACATTCCCTCCAAACTGGCTGATAAAGCTGCCTTATAGAATCACTGCACATGGTTATACACTGTACAAGGAAAAATATCTAAGAATGACATTCACATCA
TAGATGTCATGGATTTGCATATTTATTATGGCAATATTCTCTACTGAAATAAAGTCATGAGGAAGGGGCACTTTTTTCCCATTTACAAAAAGGTGCCACC
TGTGCTAGCAACAATCTAGTGTTAATTCTTCCGTAGAATCACTTCAACTCTAAGATGTTCCTTGGCCAGATGAACAGATGAATCATTCCTCATTTCCTTT
TCTTATCATGCTCATAAATGAGATCTAAAATGCTCATTAGGTCTTTGGACTCTTTTGGCACCAAAAAGATGGTTGGCATTCAAAAGACTGGGAAGGAACC
CAAAACTAGTTGTTTCACTAACACAAATTGGGGATTGGGTAGTCACAGACGGAAAACAAATAAGCGGATTTGGTGAAGAAAATTATACTTCTTTTTTCTT
TCTTGTTTACTGCCTGGTGCATAGCAGCTACTCAAGAAAATATTTTGGGAATGAATTAATGTCCATAGGGACCATCATCTCTAGAACCATCCAAAGTCTC
CTTTACTTTCAGGATCAGTCCAAAGGCTAAGTATTTATGACTTCATGGAGGATAAATATTAGTAACAGTGATGATGAAACTGATTATACATTGTAGTTCT
TTACATAGATTCTACCAACTGATACTCCTATACTCCTTACTTTACTATACTCCTGTGATTTTCTAAAACATACTCCTTCCTTTATACTCCTTACTTTATA
CTCCTTCCTTTATACTCCTTACTTACTCCTTACATACTCCTTACTTTATACTCCTTACTTTACTGTACTCCTGTGATTTTCTAAAACATACTTATTCTAT
TATATCCAGGCAGCTGTTCTCCATTCTCACTACGTAACCCAATGTCCACTTTCTGGCCAGGTTCTCAGGCACACTTGACATTTTCATCAAGAGAAGGAAA
ATCATTTCAAGTCCAAAGGATAAGCACCATCATGGTAAAAAGGTCATAAAACACTAGGAGTTGCTCTTTAGCAATAGATTTTTGAAGGTAAGGCCAAAGA
AAACATGGGACATGGTTTGGAACAAGCTTGCGTATACTTCATCATCAGGGCTGTGGTACACAGTATGAGAAGGCTTCAGGGGAATTAAAACACCACTGGA
AAGGAGGGTTTTGCTTGCATTGGCTATAATAAATATGTTTTTACAATAAACAAATGGGTGGCCATAAGACATGCATGTCTGATGTTGAAGGGAAAGCCTG
TTTGCACCAAATAAATTACAGAAACAGTTCAAGAGCAGTTCATCCTAGTGAAAATATTATCCCTGAACTACTAGCAGGGTTAGTGTCAGGTTAGGTTATC
TTTTGTATGAATGCCAACTACACTCACTAAACCTGCCTAAGGGTAGTTTGTTGAAACCATTATACGCTTTTTCAGTAATCTTACACACTTCTACTTTAAT
CACAGCCAAATCTTACTTTTTTCATCTCAGGATCAACTTTTTCAGGGGGCTATCTTACAGCTTGAAAATCATTCTTCCCTGCCCCGGCATGCTCCCTGCC
CCTGCCCTATCCTATGTGACTGCATTCCAAATGAATGTCTGAGATGAAGGCCAGGGCAATAGATGCCAATCCTGTACAAATCACAGAGCGGACAGACTGA
TCCAAAGGCCATCATTTATTCAAAGTCCAGTCCTTTAGTTCACTGGAAGGGAATGGCTTTTAAAATATGGCCAGCAAAAACAATGAAGTAAGACTCTTTG
GGGGGCATTAATTTCATCAAAACTTTTGAAACTCTTTAGATGCTCATAAACTTTGGATTTTTAGAGCACTACAGGAATATAATATATTTATATTTGTTAT
TTATTATAATTTATAAATATTTATTTTGTAACGTAAATATTTATAAGTTTTGGTCTTCCAAGCCTCTAATGCAAAAATGAACATGGAATTAATTGAATGG
CTAGCAAGGCAGATGAATACTTCTCAGCAATGGCAATTAATACTCTAATTGCTACGACTTGCAAAGGTTTGCAAAGAGAACAAAAACTTCACATCAATAG
TCTGTCACCAAGCATTCACTGAACACCCACAAATTGGAATAGGTATCTGACAGAAGCTATCTGTGGACAGTATCCTCAAATTACTCTTCTGTCTTTCCAG
ATAATTAAGGCATTTAGAAATTGATATGGTTTGAATCTGTGTCCCCATCCAAATCTCATGTCAAATTGTAATCCCCAATGTTGGAGGTGGGGTGTGGTAA
GAGGTGATTGGATTACGAGGGTGGGTCCTTCATGAATAGTTGAGCACCATTCCCTCGGTGCTGTTCTCCTGACAGTGAGTGAGTGAGATATGGTGAGATC
TGGTTGTTTAAAAGCGTGTGACACCTCCCCGCTTTTTCACTTCATCCTGTTCCTGCCACGTAAGATGTCTACTCCCACTTTGCCTTCCGCCATGAGTAAA
ATCTCCCTGAGGCCTCCCAGAAGCAGCTGCTGCCATGTTTCCTATACAACCTGTGAAACCATGAGCCAATTAAATCTCTTTTCTTTATGAATTACCCAGT
CTCACATATTTCTTTATAGCAGTGCGAGAACAGACTGCTACAGGAATATGTGTCTGTCAAATACTTGTTGTTATTGTTGTTTATAATGTTATTCACTGTA
AGTTCTTTTTAAATCATTTTTTTAAAGTAGGAATGAATGTTCTTCCTTTTCCTGCTTGCAGTACGTCAGTGTTATATGTTACAAGTCAAGAGCTTCAAGA
CAGAAAAGCAGGATTTGTGTTTCAACTCTATCACTTCATAACTGGGCAAATGATTGAAACTCTGAGTCTCAGTCCCTTCCACCATAAAATGAGGATGAAA
GTGATAGCCTCTATGCACAGTTTTTGAGAAGGATTGCAGAGAATAATGTATGAGATGAAGTAATCAAAGCTTATATAAATATAAGTTGCCATTTTTTTGT
ATATTTTTCTTCTTTTTTTATTATTATTATACTTTAAGTTTTAGAGTACATGTGCACAATGTGCAGGTTAGTTACATATGTATACATGTGCCATGCTGGG
GTGCTGCATCCATTAACTCGTCATTTAGCATTAGGTATATCTCCTAATGCTATCCCTCCTCCCTCCCCCCACCCCACAACAGTCCCCAGAGTGTGATGTT
CCCATTCCTGTGTCCATGTGTTCTCACTGTTCAATTCCCACCTATGAGTGAGAACATGCAGTGTTTGGTTTTTTGTCCTTGCGATAGTTTACTGAGAATG
ATGATTTCCAATTTCATCCATGTCCCTACAAAGGACATGAACTCATCATTTTTTATGGCTGCATGGTATTCCATGGTGTATATGTGCCACATTTTCTTAA
TCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGTGAATAGTGCCACAATAAACATACGTATGCATGTGTCTTTATAGCAGCA
TGATTTATAGTTCTTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCCAGATCCCTGAGGAATCACCGCACTGACTTCCAC
AATGGTTGAACTAGTTTACAGTCCCACCAACAGTGTAAAAGTGTTCCTATTTCTCCACATCCTCTCCAGCACCTGTTGTTTCCTGACTTTTTAATGATAG
CCATTCTAACTGGTGTGAGATGGTATCTCATTGTGGTTTTGATTTGCATTTCCCTGATGGCCAGTGATGATGAGCATTTTTTTCATGTGTCTTTTGGCTG
CATAAATGTCTTCTTTTGAGAAGTGTCTTTTGAATTGTCTTTTACAACCTGGTGAAAAGCTTATGACATGTAAGTGACCATTTAAATCAGTGATACCTGA
TGAGAACTTTGCTGCACATAAAAATCACCAATGGAGCTTAATAAAAATATAGCCCAATAGGCTATAGCCCTCACTGATTCTGACTTAGTAGACTGGGTGC
GGGCCAGTATGTCTCTTTTTAAAAGTGCCATAGGTAGACCAAGATTTGACAACTACTGTCTTAATAAACAAGAAAGCCCCTCTTCTTCAGGATGCTTCTG
GGAAAATAACTAATGTACCTTCTAGATGATTTGGCTTACAAATAGAAACTTGGATTCCAGGACAATCTGTGAAAATCCATATGCTAAAAACTCTTGTAAA
CTCTAATAATAGATTCTAAACCTCCAAATATGAGAATCTATAGAAATGTACTCTGCCTGGTGGTAGAAATTTGAATTAAGGGATACTAAGGAAAGTTGAT
ATTAGTTCATTAAAGTATCTGCCATGCTATCACTACAGACAAGGAATATACGCTAATATAACTGACCAATAATTTTATAGAATCTGCAGTTCCACAAAAA
TGTTTTAGTAAATAGTGTGAAACATGAGAGGAAATGGTAATTTTTAATTTTCTTCTTCTTTACTAGAGGGGCTGAATTACTCATGGCGTCCCAAATCTCT
CTTAATGCATAGTATGAGGTCTGTAGTTGTTAAGACTGACTCAACATTTTCTTAAAAGAATTCTGAATTGAATCTTTCTGAAGAAGAAAAAAAAAAGATC
ACTTACCATTTCATTATTTTTCATCCTCATTCACCTCTGAACTTCCTGGTTCTGTCTGGGGCCAAAGTAAAAATGCCAAAACACCACGGGAAAGGCTGCT
CTCACAGTATTTCTGGCTCACCAAAAATTTCTGGAGAAAGCCAGTTTCCATGAGATTTCAGTTCCAATTTTATAGACCCAAGAAAACTCAAGATAGTTCA
GATAAAGTTCAGATAAGCATTCAAATTTTTCAGTTACTGATGCCAGAAGAACCACTAAGTCATTTGACATGTTCACATCACTGTTTTAGGACAGAAAAAA
AAAACAACTAGAATTCTGATCCAATGTGAACAATTTTAGAGGAGTACAATGTACTGAGAAGCCATTAGAATTAATAGGTAATTTTTTTAATAAAATGCAA
AAATAAAAACAATGACCCTGTGGCTTATTTTAGGTATAAATAAAATTTAAATGAAATAACCTAACAACATCAAACATTGAGCAATAGCTTGTCCAAGAAA
AGCTACTACGGCAATTAACACAAGATATGACTTGAGGTGACAACACTTTGCCCACCTGTTTATCTTTCTGAGTTCCTACCTTACCTTCCTTCCTTAAAAA
TGGAAATGATAGTACCAACATCACTATACATTACATGTTCCAGCAGGTATAATGAACTACTAATCCTAAAACCTTAAAGTTCTCTATTTCTTGCATTGGC
ATGGGATGGAGCAGGAAAGAAGAAAGTTAATTGAACTTGCAAATAATCCTCTAAAAAAATTACCTTTGGGGCCAGAAATTACCCTCTGAGGCAAGAAATA
AATTCTGAATTTTTTAAAGGGTGAGTGGTTTGGTAAATTTACTCACCAGGAGATCAAGATCTTCTCAAAAACTGTCAACAAAGAAAAACATCGCATGCAC
ACCAGAGTCTCATTATAACACTACCCACCCTGGTGTGAAGTTTGGAATAGCGAGCTTTTATTCTTGGATCCCATCCAAAGAGATTCAGTTATTGTAAGCA
CCAGAAGGAAATTGCTATAACATGGCTCCATGTATAATGCTTTTTTGTGGCATAAGCAAGACCCTATTATGCTAAAATACAGTAACTGACAAAATTAGGC
TATAGAAACTGGAAATAACTGCCATTAAAAAGGAGTTTAGTATGTTTATCATTCTACTAAAATTTTAACCAGTCTTCTCATCTCCCAAGAAATACATAAA
CCTTAGCAAATCAAATCTGTATCTTCTTCACCCAGCATAAATTATCTCTTGTTCTTAGCTAATGGGAGAATACATACTTACAAGGATAGGAAAAATACTT
TGGACTCTTCCTTTACTAAGTTTATAGCTAAAGGAACATTTTTAAAGAATGTTTCCAATGTAGACAACCATTTTGAAATATTTAGGTAAGGAAAAATTAA
TTAATACCTACCATTTTAAAGTACTACTTTATTTCCTTTCTTTTTCTTCTACCATCTTGCCACTCAACTTGGGAACTTAATTACTCAAATTATTTGTGTA
TATTTACCCCCATGATATGGTTTGGCTGTGCCCCCACCCAAATCTCATCTTGAATTTTAGCTCCCATAATTCCCACATGTTGTGGGAGGGACCCCTGGTG
GGGGATACTTGAATCATGGAAGGAGTTTCTTCCAGACTGTTCTCCTGGTAGTGAATAAGTCTCACGAGATCTGATGTTTTTATAAGGGGTTTCCCCTTTT
GCTTGGCTCTCGTTCTCTCTCTTGCCTGCTGCCATATAAAACATGTCTTTCACCTTCCACCATGATTGTGAGACCTTCCCAGCCACATGGAACTGTGAGT
CCATTAAACCTCTTTTTCTTTATAATTTACTCAATCTCGGGTATGTCTTTATCAGCAGTGTGAAAATGGACTAATACACCCCACTTACTAAATAATTATT
GATTTGTACTTTAGAAGGAGATATCAGGCTTCTAAGTAGGGGTCAAGTTTCCTCTTAATTTTGTCAATCAATTCTTCAATTTTCAGGAAAATGAAGAAAT
TTTCTCTGGTCATATATTATCCCTAATAACTATTAAACAAAAGCATAAATTATTAGTAATTTTATTAATCAAAATTTGTATCTAAACTCTAACTCAATAC
CCATATTTAGAAAGGAGCAAATTCCTCCAAAAGAAAATATACCTAGTTAATATGCTATAAAAATATCAAGTCTGAATCTTAGCACTCAGTAGACTGAAAA
TTACTCAAAAGTAAGGGATTAGAGAAACAAAAAGTCTTGGCAAATATACACGTAGAGGTGTCCCACCCATATTTAAATCATTAGTTATCTTTTAATATGG
TACCTACTATTTGTTTAATGTCACTAAGTATGAGGTACTATCCTAGGCATTGTACATGTGTTTTATCACTTAATGTACTTTAATCTAAACGGTGCAAGAG
CAACTTCAATACAGGTATTAGTATTACCCCTATTTACAGATAAGAAATGGAGACTGAGAAGAATGAAGTTAACCTATATGTGTGCATACATCTCGCAAAA
AATAGAACTGACTTTTAATCTAGGTCTGTTTGACTTAAAAGTCTATTTACTTTTCACTATGAAGTTTGTTCTAAATGAGAATAATGTACTTTATCACCCT
ATAAATATTATAACAGTAAACATTGAAGTGGTATAAACTACAATGGAAGTTATCTAAGCCAGAAATTATTGTATAATTTAACACTAACTCACTTTTTAAA
ATTTTATATTTGCACTAATGAACTCCTTGCTCATATAGTTCTCATTACTTCCTCTACATAAATGCATCCAGATTTACATTCAGATCCAGCCACTTACTCT
GTTATCAGATTAGATCAGTCTCTTGCAAAGTACCACCAAAAATGTGAAATATAATGTGTTGAAAGTTGCAAATATTTTTCCCATTGGGAAAGTCACACCT
ACTACTGTATATACTGTATATACTGTCATTACTGTATATACTGTATATACTGTCATTACTGTATGCACTCTATTTTAAATTTTAAATTTTCTTCCTGCTG
AAAAAAGAAGGAAAAAAACACAAATAAGGCAATGATTAGAGTACTGGAGTGATTAATGAAGCTGATAACCTTAGCTAAGAAGGTCAAAAAATGAATTGGA
CACAGAAGCTAAAAAGATGATGAAGTGGAAGATTCCCTGGGGTGCAGACCTTTGAGATATCTTGATTATATTCAGTCAATCCTGGAGCAGCAGTGATAAG
AAAAAAAACAGGATTCTGGTGATGATGGCAGCCTTTAAGACCACGGAGATGATAGAGAAACCAGTCCCAGGGGCTAAATTGGCTTGACTCAAGAAGAGAA
CCAGCCTGGACATAAAGTTGTTGAACAGACCACAGACATCTTTAATAGTACAGAGAAACAGTCAATGACAAGAAGAATTATTTGCAGGAGGTGGAAGAGG
TGAAAGGGACTTGCAGGGGGAGTGCCAAGTAAAGATCCCTGGGATAGGCTGAGTGGACTAAGTCCACGCTGAGCAGAGAATTGTTTCCCTCCTAAGCCCA
GGAGAGAAATATTTGAAAAAAAAAATCCAGAAATTCCTTCTGCATTCAGGGAGCAGGAGCTCTCACAGAGCCTTGAGGAAATAGAAGGCAAAAGGGCAGG
GAAACCTGGTATGAAGGCAACCACCAGAGAGCTCACATGCAGAGAACAGGAAAACTGAAAGCTGCTATTGGCAGAGGAAGGATTTCACCAAATCTGCGTG
CAGTGGGGATAACCAGAAGCTCGCTACCATACTGGTGTGTGTAAGATTGATGTCCAAACTGCTGGTAAACACAAGCAAAGGAAAGAAACTAAAATCCAAG
TGTCCCATTAGGTGTTCCAAACAAACTATAATGTGAAACTGATGTTAAGTACATTTTGATAAGAGATCAGTACTGAAAAACTCATGTTGTGGTACGTTTT
AAATTTTCTAGTAGATTTTTTATTGGTGTAGGCAAAAGGTTACTATGCAAGAACTTTAAGAAAATGTTTGATATTGTCTTTAATGAGTAGAAAAGAAAAG
GAATTTGTTCACCTGTCTACCAAACGAAAAAAAACAGCTGAAGGCCCCTAGTGATTGGGTAGTGTGGCGGTAGTGGTGGTGGTGGCTATCTTGAAGTGAA
ATATCTATAAATCTCCAAGGTTCACTTTGGAAGGAAAACCTCAGGTGGAAAGAGGCAGCTGATCAAACAGCTTCTAGCCTTTCTCTCTGGCTTTCCCTCT
TCCTCTGTGAGTCTCTCACTTAGAGTACTATTGCATTTCCAAAGTATAAGATGGACTATTGCCAGGGCCAACAGTTTCCAGTAGAACTGAACACTCCCCT
CCATTAAAACAGGGAGATAGTTTCAAAGGGTATATTTATTGAGCCCATTAGCTCCTTTGGCACAGCAGCCCAACTGAAAAGTCAGGGACAGAGGTTCTGA
GTTTTGTTATAATAAAGAAGGGAAGTTGTTGCTGCTGCTGTTGTTTCTTCTCATCAGCACCTTTCTATAGAATCAGAAGGAAAACTGTTAAAAAAAAAAA
AAAAAAACCAATAAAAAAAGTGCAGCAAGAAGAGATTTGGTGAAATGTCAGGATTCCTTGTAGATGGGGATAGCTATGATGTACTACTCCTTTCCATTTG
CCTCACACACAAAAACTGCATCGATAAACTAAGTGTCGTATTTACTTCTACACATGAATTCAATATAATGTTGAATGATATCTGAAAACATTTTGCAAAT
CACAGATGCAGTCCGGAGTCTCTCAGTAGTCTCCACCTCAGTTCTCACACTGAAGGAATATATAACTATAACGTGTGAGGATGCACTCAGATGTTAACTC
TCAAGCCCAGTCCACATGGATCTAGATTTCATTTCTGAGAGAGAAATCAGGAAGTTTCTTCTAACTGATTTTGCTACCTTTGGAGTAGAAGGAGATAGAG
GAAACAAAGAATAACTTGAGTTCTGACAATGCAAGGACAAACAGACTAAATTAATTAAAATAGATGCTTACAAAATCTAAAAGTACAAACCGTGCTTTTG
AAAACTATTTGGCTTTTCTATGCAGGATGGACAACATGTTCATATTGGACTATAATGTATGTTATTGAGCACCTAAAATATGCTATTGGCACTGCTAATT
AATACTCATGCAATAGGCACTTGCAGTGATTTGTGTATCCTCATCTTGCCTTCCTAAATTCCTCCAAAGCCAAAACTGCTTTATGTTTTTTCTGTAGTCC
CTCTGCTCAAGAGTTGCTTTTCCAGGCCTGGTGCAGTGGCTCATGCCTGTAATCCCAACACTTTGAGAGGCCAAGGCGGGTGGATCATCTGAGGTCAGGA
GTTCAAGACCAGCCTGGCCAACATGGTGAAACCCCCATCTCTACTAAAAAAAAAAAAAAATAGCCACACATGATGGCGAGTGCCTGTAATCCCAGCTACT
TGGGAGGCTGAGGCAGGAGAACTGCTTGAACCCAGGAGGCGGAGGTTACAATGAGCTGAGATCATGCCACTGCACTCCAGTCTGGGCAACAGAGCAAGAC
TCCGTCTCAAAAAAAAAAAAAAAAAGAGTTGCTTCTCTAAACTTGCACAAGACATCCTTACTCATATACTCCTGGGAACATTCTATTTGTATTGTAGTGC
CTGCCAAAGTGTCCAGAACAACCCAAGACACAGAGAAGGCACTTGAAATGTGTTGGTATCTGGAATGTGATTGGCTGACTTGGGAGCCAGTGGTGTGCTG
GGCCTGCTCCTATGAGCTCTGCAGATCAGACTGTGACACGTCTCTACATTCAATCACCTCATCTTCATAGTTTGAAATTGGCTATGGTGGGAGGGAGCAT
TTATACCACAGAAATTGTCCAATTGGTTTTAAGCATTCTGAATATAAGCAATCTGTCTTCCATTTCTCTTTTATTCCATCTAGCTTTTAAGCTGTTTTGA
ATTTAGCAGTCAAGAATTTCATGTGAGAATTGTACTTTGAGTAACTACATTTATCTTTTAAAAAAATCATTTTTAGTTTTTGAAGAAAAGCAATTATTTT
GTACATACCTTTTTATATCATTTTAGACAAT
In silico ORF/peptide predictions
Nothing found.
RiboTaper predictions from Ribo-Seq data (HEK293 cell line)
Nothing found.