| 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 |
|---|---|---|---|---|---|---|---|---|
| ENST00000227155 | CD82 molecule | protein coding | TCONS_00116377 | 677 | 292 | UTR3 | Trans | |
| ENST00000307792 | sema domain, immunoglobulin domain (Ig), short basic domain, secreted, (semaphorin) 3E | protein coding | TCONS_00116377 | 657 | 289 | UTR3 | Trans | |
| ENST00000310045 | dermatan sulfate epimerase-like | protein coding | TCONS_00116377 | 636 | 295 | UTR3 | Trans | |
| ENST00000323816 | growth arrest-specific 7 | protein coding | TCONS_00116377 | 594 | 288 | UTR3 | Trans | |
| ENST00000327473 | tumor necrosis factor, alpha-induced protein 8-like 1 | protein coding | TCONS_00116377 | 619 | 289 | UTR3 | Trans | |
| ENST00000336787 | RAB27A, member RAS oncogene family | protein coding | TCONS_00116377 | 634 | 298 | UTR3 | Trans | |
| ENST00000378004 | Rho GTPase activating protein 26 | protein coding | TCONS_00116377 | 708 | 290 | UTR3 | Trans | |
| ENST00000381639 | retinitis pigmentosa 9 pseudogene | processed transcript | TCONS_00116377 | 500 | 292 | noncoding | Trans | |
| ENST00000396307 | RAB27A, member RAS oncogene family | protein coding | TCONS_00116377 | 634 | 298 | UTR3 | Trans | |
| ENST00000405000 | pleckstrin homology domain containing, family H (with MyTH4 domain) member 2 | retained intron | TCONS_00116377 | 632 | 293 | noncoding | Trans | |
| ENST00000424496 | sense_intronic | sense intronic | TCONS_00116377 | 685 | 290 | noncoding | Trans | |
| ENST00000437099 | growth arrest-specific 7 | protein coding | TCONS_00116377 | 594 | 288 | UTR3 | Trans | |
| ENST00000439138 | transmembrane protein 98 | protein coding | TCONS_00116377 | 560 | 291 | UTR5 | Trans | |
| ENST00000463954 | SET domain containing 6 | retained intron | TCONS_00116377 | 606 | 278 | noncoding | Trans | |
| ENST00000477205 | calcium/calmodulin-dependent protein kinase II gamma | processed transcript | TCONS_00116377 | 653 | 288 | noncoding | Trans | |
| ENST00000498813 | delta(4)-desaturase, sphingolipid 1 | processed transcript | TCONS_00116377 | 577 | 293 | noncoding | Trans | |
| ENST00000524750 | CD82 molecule | protein coding | TCONS_00116377 | 542 | 230 | UTR3 | Trans | |
| ENST00000547865 | spermatogenesis associated, serine-rich 2 | protein coding | TCONS_00116377 | 651 | 297 | UTR3 | Trans | |
| ENST00000549365 | DNA-damage regulated autophagy modulator 1 | nonsense mediated decay | TCONS_00116377 | 561 | 327 | CDS_UTR | Trans | |
| ENST00000607772 | CNKSR family member 3 | protein coding | TCONS_00116377 | 659 | 296 | UTR3 | Trans | |
| TCONS_00010077 | Ras association (RalGDS/AF-6) domain family member 5 | novel protein coding | TCONS_00116377 | 676 | 290 | UTR3 | Trans | |
| TCONS_00020768 | processed_transcript | novel protein coding | TCONS_00116377 | 600 | 291 | UTR5 | Trans | |
| TCONS_00021902 | protein tyrosine phosphatase, non-receptor type 14 | novel protein coding | TCONS_00116377 | 618 | 253 | UTR3 | Trans | |
| TCONS_00021903 | protein tyrosine phosphatase, non-receptor type 14 | novel protein coding | TCONS_00116377 | 618 | 253 | UTR3 | Trans | |
| TCONS_00028040 | ankyrin repeat domain 16 | novel protein coding | TCONS_00116377 | 639 | 291 | UTR3 | Trans | |
| TCONS_00030130 | calcium/calmodulin-dependent protein kinase II gamma | novel protein coding | TCONS_00116377 | 619 | 287 | UTR3 | Trans | |
| TCONS_00030130 | calcium/calmodulin-dependent protein kinase II gamma | novel protein coding | TCONS_00116377 | 727 | 288 | UTR3 | Trans | |
| TCONS_00030132 | calcium/calmodulin-dependent protein kinase II gamma | novel protein coding | TCONS_00116377 | 653 | 288 | CDS_UTR | Trans | |
| TCONS_00030588 | cytoplasmic polyadenylation element binding protein 3 | novel protein coding | TCONS_00116377 | 745 | 286 | UTR3 | Trans | |
| TCONS_00030591 | cytoplasmic polyadenylation element binding protein 3 | novel protein coding | TCONS_00116377 | 609 | 287 | UTR3 | Trans | |
| TCONS_00034642 | CD82 molecule | novel protein coding | TCONS_00116377 | 677 | 292 | UTR3 | Trans | |
| TCONS_00034643 | CD82 molecule | novel protein coding | TCONS_00116377 | 677 | 292 | UTR3 | Trans | |
| TCONS_00037377 | NAD synthetase 1 | novel protein coding | TCONS_00116377 | 707 | 290 | UTR5 | Trans | |
| TCONS_00039782 | GRAM domain containing 1B | novel protein coding | TCONS_00116377 | 644 | 289 | UTR5 | Trans | |
| TCONS_00039782 | GRAM domain containing 1B | novel protein coding | TCONS_00116377 | 718 | 287 | UTR5 | Trans | |
| TCONS_00041296 | RIC3 acetylcholine receptor chaperone | novel protein coding | TCONS_00116377 | 686 | 290 | UTR3 | Trans | |
| TCONS_00041298 | RIC3 acetylcholine receptor chaperone | novel protein coding | TCONS_00116377 | 686 | 290 | UTR3 | Trans | |
| TCONS_00050195 | FYVE, RhoGEF and PH domain containing 4 | novel protein coding | TCONS_00116377 | 643 | 289 | UTR5 | Trans | |
| TCONS_00050741 | spermatogenesis associated, serine-rich 2 | novel protein coding | TCONS_00116377 | 672 | 284 | UTR3 | Trans | |
| TCONS_00050741 | spermatogenesis associated, serine-rich 2 | novel protein coding | TCONS_00116377 | 716 | 288 | UTR3 | Trans | |
| TCONS_00067572 | DCN1, defective in cullin neddylation 1, domain containing 2 | novel protein coding | TCONS_00116377 | 697 | 291 | UTR3 | Trans | |
| TCONS_00075813 | forkhead box N3 | novel protein coding | TCONS_00116377 | 638 | 282 | UTR5 | Trans | |
| TCONS_00075827 | forkhead box N3 | novel protein coding | TCONS_00116377 | 638 | 282 | UTR3 | Trans | |
| TCONS_00075917 | ribosomal protein S6 kinase, 90kDa, polypeptide 5 | novel noncoding | TCONS_00116377 | 704 | 287 | noncoding | Trans | |
| TCONS_00082423 | transcribed_processed_pseudogene | novel protein coding | TCONS_00116377 | 631 | 289 | UTR3 | Trans | |
| TCONS_00083866 | RAB27A, member RAS oncogene family | novel protein coding | TCONS_00116377 | 634 | 298 | UTR3 | Trans | |
| TCONS_00090939 | nucleoporin 93kDa | novel protein coding | TCONS_00116377 | 666 | 291 | UTR5 | Trans | |
| TCONS_00101152 | myosin phosphatase Rho interacting protein | novel protein coding | TCONS_00116377 | 614 | 286 | UTR5 | Trans | |
| TCONS_00101169 | myosin phosphatase Rho interacting protein | novel protein coding | TCONS_00116377 | 614 | 286 | UTR5 | Trans | |
| TCONS_00107864 | transient receptor potential cation channel, subfamily V, member 1 | novel protein coding | TCONS_00116377 | 659 | 295 | UTR3 | Trans | |
| TCONS_00107867 | transient receptor potential cation channel, subfamily V, member 1 | novel protein coding | TCONS_00116377 | 659 | 295 | UTR3 | Trans | |
| TCONS_00109427 | serine hydroxymethyltransferase 1 (soluble) | novel protein coding | TCONS_00116377 | 674 | 289 | UTR3 | Trans | |
| TCONS_00116668 | desmoglein 3 | novel protein coding | TCONS_00116377 | 666 | 296 | UTR3 | Trans | |
| TCONS_00116668 | desmoglein 3 | novel protein coding | TCONS_00116377 | 678 | 276 | UTR3 | Trans | |
| TCONS_00119049 | GRB2 associated, regulator of MAPK1 | novel protein coding | TCONS_00116377 | 730 | 274 | UTR3 | Trans | |
| TCONS_00119477 | zinc finger and BTB domain containing 7C | novel protein coding | TCONS_00116377 | 613 | 289 | UTR5 | Trans | |
| TCONS_00119961 | ring finger protein 152 | novel protein coding | TCONS_00116377 | 605 | 289 | UTR5 | Trans | |
| TCONS_00123889 | ribosomal protein SA pseudogene 58 | novel protein coding | TCONS_00116377 | 631 | 289 | UTR5 | Trans | |
| TCONS_00123889 | ribosomal protein SA pseudogene 58 | novel protein coding | TCONS_00116377 | 506 | 798 | UTR3 | Trans | |
| TCONS_00123889 | ribosomal protein SA pseudogene 58 | novel protein coding | TCONS_00116377 | 522 | 648 | UTR3 | Trans | |
| TCONS_00123899 | ribosomal protein SA pseudogene 58 | novel protein coding | TCONS_00116377 | 631 | 289 | UTR5 | Trans | |
| TCONS_00123899 | ribosomal protein SA pseudogene 58 | novel protein coding | TCONS_00116377 | 506 | 798 | UTR3 | Trans | |
| TCONS_00123899 | ribosomal protein SA pseudogene 58 | novel protein coding | TCONS_00116377 | 522 | 648 | UTR3 | Trans | |
| TCONS_00133831 | carcinoembryonic antigen-related cell adhesion molecule 1 (biliary glycoprotein) | novel protein coding | TCONS_00116377 | 648 | 292 | UTR3 | Trans | |
| TCONS_00141670 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00116377 | 662 | 292 | UTR5 | Trans | |
| TCONS_00141673 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00116377 | 662 | 292 | UTR5 | Trans | |
| TCONS_00141679 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00116377 | 662 | 292 | UTR5 | Trans | |
| TCONS_00147100 | ATPase family, AAA domain containing 2B | novel protein coding | TCONS_00116377 | 712 | 289 | UTR3 | Trans | |
| TCONS_00147113 | ATPase family, AAA domain containing 2B | novel protein coding | TCONS_00116377 | 712 | 289 | UTR3 | Trans | |
| TCONS_00147115 | ATPase family, AAA domain containing 2B | novel protein coding | TCONS_00116377 | 712 | 289 | UTR3 | Trans | |
| TCONS_00148387 | reticulon 4 | novel protein coding | TCONS_00116377 | 530 | 288 | UTR3 | Trans | |
| TCONS_00148389 | reticulon 4 | novel protein coding | TCONS_00116377 | 530 | 288 | UTR3 | Trans | |
| TCONS_00149280 | Uncharacterized protein {ECO:0000313|Ensembl:ENSP00000416453} | novel protein coding | TCONS_00116377 | 631 | 292 | UTR3 | Trans | |
| TCONS_00149970 | cytochrome P450, family 4, subfamily F, polypeptide 32, pseudogene | novel protein coding | TCONS_00116377 | 671 | 293 | UTR3 | Trans | |
| TCONS_00149979 | ankyrin repeat domain 20 family, member A8, pseudogene | novel protein coding | TCONS_00116377 | 671 | 293 | UTR3 | Trans | |
| TCONS_00150599 | four and a half LIM domains 2 | novel protein coding | TCONS_00116377 | 664 | 288 | UTR3 | Trans | |
| TCONS_00150599 | four and a half LIM domains 2 | novel protein coding | TCONS_00116377 | 639 | 289 | UTR3 | Trans | |
| TCONS_00150696 | septin 10 | novel protein coding | TCONS_00116377 | 718 | 292 | UTR3 | Trans | |
| TCONS_00165085 | SPECC1L-ADORA2A readthrough (NMD candidate) | novel protein coding | TCONS_00116377 | 659 | 281 | UTR3 | Trans | |
| TCONS_00165085 | SPECC1L-ADORA2A readthrough (NMD candidate) | novel protein coding | TCONS_00116377 | 715 | 289 | UTR3 | Trans | |
| TCONS_00165089 | SPECC1L-ADORA2A readthrough (NMD candidate) | novel protein coding | TCONS_00116377 | 659 | 281 | UTR3 | Trans | |
| TCONS_00165089 | SPECC1L-ADORA2A readthrough (NMD candidate) | novel protein coding | TCONS_00116377 | 715 | 289 | UTR3 | Trans | |
| TCONS_00165090 | SPECC1L-ADORA2A readthrough (NMD candidate) | novel protein coding | TCONS_00116377 | 659 | 281 | UTR3 | Trans | |
| TCONS_00165090 | SPECC1L-ADORA2A readthrough (NMD candidate) | novel protein coding | TCONS_00116377 | 715 | 289 | UTR3 | Trans | |
| TCONS_00165341 | TTC28 antisense RNA 1 | novel protein coding | TCONS_00116377 | 631 | 290 | UTR5 | Trans | |
| TCONS_00165341 | TTC28 antisense RNA 1 | novel protein coding | TCONS_00116377 | 697 | 289 | UTR5 | Trans | |
| TCONS_00184373 | neutral cholesterol ester hydrolase 1 | novel protein coding | TCONS_00116377 | 701 | 288 | UTR3 | Trans | |
| TCONS_00185516 | transcribed_unprocessed_pseudogene | novel protein coding | TCONS_00116377 | 607 | 291 | UTR5 | Trans | |
| TCONS_00185519 | transcribed_unprocessed_pseudogene | novel protein coding | TCONS_00116377 | 607 | 291 | UTR3 | Trans | |
| TCONS_00186316 | KIAA0232 | novel protein coding | TCONS_00116377 | 635 | 265 | UTR5 | Trans | |
| TCONS_00186316 | KIAA0232 | novel protein coding | TCONS_00116377 | 639 | 290 | UTR3 | Trans | |
| TCONS_00190498 | palladin, cytoskeletal associated protein | novel protein coding | TCONS_00116377 | 643 | 285 | UTR3 | Trans | |
| TCONS_00190999 | zinc finger protein 721 | novel protein coding | TCONS_00116377 | 656 | 291 | UTR5 | Trans | |
| TCONS_00190999 | zinc finger protein 721 | novel protein coding | TCONS_00116377 | 673 | 288 | UTR3 | Trans | |
| TCONS_00190999 | zinc finger protein 721 | novel protein coding | TCONS_00116377 | 604 | 292 | UTR3 | Trans | |
| TCONS_00194652 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00116377 | 634 | 289 | UTR5 | Trans | |
| TCONS_00194652 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00116377 | 700 | 289 | UTR5 | Trans | |
| TCONS_00194655 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00116377 | 634 | 289 | UTR5 | Trans | |
| TCONS_00194655 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00116377 | 700 | 289 | UTR5 | Trans | |
| TCONS_00194655 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00116377 | 649 | 295 | UTR3 | Trans | |
| TCONS_00194682 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00116377 | 716 | 289 | UTR3 | Trans | |
| TCONS_00194686 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00116377 | 628 | 284 | UTR3 | Trans | |
| TCONS_00194686 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00116377 | 716 | 289 | UTR3 | Trans | |
| TCONS_00213738 | enoyl-CoA delta isomerase 2 | novel protein coding | TCONS_00116377 | 545 | 295 | UTR3 | Trans | |
| TCONS_00219453 | WD repeat domain 27 | novel protein coding | TCONS_00116377 | 654 | 289 | UTR3 | Trans | |
| TCONS_00222403 | protein tyrosine phosphatase, non-receptor type 12 | novel protein coding | TCONS_00116377 | 681 | 290 | UTR5 | Trans | |
| TCONS_00226753 | cell division cycle associated 7-like | novel protein coding | TCONS_00116377 | 629 | 290 | UTR3 | Trans | |
| TCONS_00234854 | zinc finger and BTB domain containing 10 | novel protein coding | TCONS_00116377 | 634 | 288 | UTR3 | Trans | |
| TCONS_00235281 | NADH dehydrogenase (ubiquinone) complex I, assembly factor 6 | novel protein coding | TCONS_00116377 | 659 | 293 | UTR5 | Trans | |
| TCONS_00235685 | oxidation resistance 1 | novel protein coding | TCONS_00116377 | 654 | 290 | UTR3 | Trans | |
| TCONS_00235708 | oxidation resistance 1 | novel protein coding | TCONS_00116377 | 698 | 289 | UTR3 | Trans | |
| TCONS_00235708 | oxidation resistance 1 | novel protein coding | TCONS_00116377 | 618 | 296 | UTR3 | Trans | |
| TCONS_00239255 | tumor protein D52 | novel protein coding | TCONS_00116377 | 673 | 292 | UTR3 | Trans | |
| TCONS_00240688 | metastasis suppressor 1 | novel protein coding | TCONS_00116377 | 603 | 291 | UTR3 | Trans | |
| TCONS_00247058 | UDP-Gal:betaGlcNAc beta 1,4- galactosyltransferase, polypeptide 1 | novel protein coding | TCONS_00116377 | 697 | 291 | UTR3 | Trans | |
| TCONS_00247576 | contactin associated protein-like 3 | novel protein coding | TCONS_00116377 | 662 | 281 | UTR3 | Trans | |
| TCONS_00247594 | contactin associated protein-like 3 | novel protein coding | TCONS_00116377 | 662 | 281 | UTR3 | Trans | |
| TCONS_00247617 | unprocessed_pseudogene | novel protein coding | TCONS_00116377 | 620 | 284 | UTR5 | Trans | |
| TCONS_00256068 | shroom family member 4 | novel protein coding | TCONS_00116377 | 637 | 296 | UTR3 | Trans |
>TCONS_00256068 (19872 nt)
AGCAGATTCTGATAAGGTATATAAGGGCTAGAGAAAACAAGGAAGTAACTTCAAAAACATGAACAATTATATAAATTAAAAGATTATATGGAAAGTAATA
AGAAAGCAGTAAAGGAAGAATAAAGAAAAATACGTGAGACATAAAAATAGAAAGCAAAATGATGCAAATTCAACTATACTGATAATATTACAGGCTATAA
ATAGATTAAATAATCAAATCCATTATTTGGAGTTTATCAGAAGTATAGAAACTTCTATACTCCAATGTAAATAATGGGCAGAAAAAGTGGGAAGATCAAC
AGGAAAACATAACACTTGAACACTGTAAACAAATATGAACTGATAGAATTCTCAAATTTATAGAATTTTCCACTCAAAATTAGAAGTACACATAAATCAT
TCTCCAGGATAGACCATATGCTAGGCCATACAGCAGGAAAACGTCAATAAAATTAACAGGATCAAAATAATCCAAAGTATTTTCCCTGACTTTAGTAAAA
GGAAATTAAAAATAAATGAATGCAGAAAATGGGGGGAACTCACAAATATATGGAAATTAAAAATACTCCTAATTAATGTGTTAAAGAAAAAATGAAACTG
GAAAATATTTTCAGATAAATGAAAATGAAGTTATGACATATCGAAACATGAGATGCAGCAAACTGTTCAGAGAAATTCATAGCAGTAAACACCTACATTA
AAAACAAACAATTTTAAATTAATAACCTAATGTTTGGTAAAAATAGCTAAGGGCTAATTAACTACTCAACACACCTTGGGGAACTTGTTAGAGTAACAAG
TAATAACTTATGGAATCAACATTCTCCAAACTATTTGGAGTTTAATACCACTAAGGGTAAAAAAATGCTAAAGACAGCATGAACTAGACATACCCGATAG
TATATCATTACCATTTACTACCTGGAATCTTGAGCAAGGTGGAATAAGTTAACATTTTTGTCAGGATAAGACATTATTCAATAAGCAACAGTGTTAACAA
ATTAAAAGACATTTCATTTTATTCTTAAAAAAAAATTAAGTTTACAGACTGAATAAAGCATTTCAAAATCCAGTTTCCTCAATCATCAAAATTACAGACT
GCAAACATTCAAAAAGCATTCTTATTCTGATACCATGACCTATGTTAAAAAAATGTGTTCTCTCTTTTCTTAAACTGAGCCTAAGTATTTAGAGGATTGA
ATTAATAATCTATGTTCTACCAGAGAGAAGTTATTTGCACCACTCTCTGATATTTGTGATTTCTTTATTGTTATCACAGTAACATTCAGGACTTCTAACT
TGCTGCTATGAAGATACATTAGAATATTAATGGACTAGCAAGACCTTTTAATGGGTAGTTGGTAAAACTATTCATATCTAAAACTCAGAGTGTTTCTGTC
TCACACTTTAATGCAGAACAATAATATTCTGAACACCTAACTCATATATGACTTATATTCAGTGTTGTAAGTCAAACAAAAAGAGCAACTCCATTTAGAT
TTCATCATACATCCTATATGCCAATGCTCTTAGTCTTCCATGGGAAACTTGTGAATGACGTCATGAGACATGTGAATGATGACATGTGAATGAGACATGT
GAATGATGCCTACCTAACGTAGAAGGGACTCTCATGTCAGAGACAGCAATAATCAACCACAGTGGGGAAAAAAAAGGTTAATTTGAATTTAATTACATCA
ATAATACTTTCTCAATCATGAATACTGTGATTACAAAAATAAGTGAACATTGAATATAATTATGCCTCTCCATCAATGTCGTCCCTCTTTTTAAACATAC
AATTTAATTATCTAATTGAGTTTGAATTATTTGTTATAATAAACACACTGATTCAGAGTAATTTACGGAAGTGCTAGCACCTTAGTTCTTTCTAAAGTGA
CACTTCTAATTTTTATTTAATCTTCATTTTGATGTTTCAAAAATCATTACACATATGGGATTTCTATCCAGTATTGATTTTCTAATGTTGAGTAAGGTGT
GAGCTCCTGGTAAAAGCTTTGCCACATTCTTTACATTTGAAGAATTTCTCTCCAGTATGGACTCTCTGATGTTGAGTAAGGTGTGAGCCCCAGATAAAAG
CTTTGCCACATTCTTCACATTTGAAAGACTTCTCTCCAGTATGGATTCTTTGATGTCGAGTAAGGTGTGAGCCCCTGTTAAAGGCTTTGCCACATTCTTT
ACATTTGAAGTGTTTCTCTCCAGTATGGATTCTCTGATGTTGAGTAAGGTGTGAAGCTCTGTTAAAAGCTTTGCCACATTCCTTACACTTGAAAGGTTTC
TCTCCAGTATGCATTCTCTGATGCTGAGTAACGTATGAGCTTCTATTAAAGGCTTTGCCACATTCCTTACATCTGAAAGGTTTCTCTCCGGTATGGATTC
TCTGGTGTTGAGTAAGGTATGACCCCCTGTTAAAGGCTTTGCCACATTCTTCACATTTGAAAGCTCTCTCTCCAGTATGGATTCTCTGATGTTGAGTAAG
GTATGAGCCTCTGTTAAAAGCTTTGCCACATTCCTTACACTTGAAAGGCTTCTCTCCAGTATGGATTCTCTGATGTTGAGCAAGGTGTGAACTCTTGTTA
AAGGCTTTGTCACATTTTTTACATTTGTAAGGTTTCTCTCCAGTATGAATTTTCTGATGTCCAAGATGTAAGCCCCTGGTAAAAGCTTTGCCACGTTCTT
TATATTTCACTGATTTTTCTCCAGTGTTAATTATCTTATGTCCCTTTAGATGTGATTGACTAAAGACTATTATACATTTTTTATTACATCTTTGTGAGCT
CTCTCCAATATAAATTCTTTGATGTTGAGTAAGCTTTGAGAATGGGTCAGAAGTTTCACCACATTCATTAGAGTTGTAAGGCTTTTTTTGAATATGGATA
TTTTCAGGGAAAATAAGCTTTGAGGATTGGTAAAATACTTTTTCACATTCATTACAATTGTAATAGTTTTCTAGAAAATGAGTACTATGATGTTTACTAA
TATTTGAGTCATGGTTAAAATTTATCTGATTTTTATTACAAAAGACAGATTTCAAAAATTTATGTTGATATTTATTCATAGGAATACATGGTTCTGTAGG
AGCAGCTGACAGAAACTGAGGCTTCTTCTGAAATATTCTATATTCTTTGTCTCCTTTCACAGTTAAATGTTTGTTATGACTAGTTGTCAAATATTGGCTA
CATAGATTATAACATTCCTTTTGTCCTTCACCTTCACCTATACTTTCCCAGTTTTTCCATAAGCATATATTTTCAAGGCCACAGCTCCCATATCTTCCCA
GTGTTGCTTTTTTGAATGAATCTTGTATGCCTTGCTCTGGTAAAATGCCTTGGTTGTAATAAGAATACACAGCTGAAAGAAGTAAAAATAACTAATTATT
CTACATACTGATTTCAGTTGAATATACTTTACAAATCTAATATGAAATTTTGCCAAGCTGAGAACATCAGCACAATGCCATAGTAGAAAACCAAGAAAGG
ACAGAGCAAGATGGCTAAATAGAAGGCTCCAGTGATCATTTCCCCTGCAAGGTCACCAATTTTACAATGATCTATTAAAAAAGAAAAAGAAAAAGAAAAC
CTTCATAAGAATAAAGGTGAGCACTCACAGTACCTGGTTTTAACCTTGTACTACTCACTAAAAGAGGGTAGGAAAGACCGTCTTGAATCACTAATGCCAC
CCCTCACTCATGCCCTGGCAGCTGTCACATACTATGTAGATAGAAGCTGTACACTTGGGAGATAGAGAACACTGGGATTGTGAGCACTGAACTCAGTGCT
GCCCTATCACAGCAGAAAGCAAAACTGGAATGCACTCAGCTGACGCCTGCCCACAGAGGGAGTATTTCAACTGGCCCTGGGCAGAGAGGAATCACCCTTC
CCGGTGATTGGAACTTGAGTTCTGGCAAGCCTCATCGACATAGTCTAAAATGCTCTGGGCCCTAAAAAACTTGAAAGGCAGTTTAGGTCACAAGGACTGC
AACTCCCAGGTGAGTCCTAGTGCTGAACTGGGCTTAGAGCCAGTGGACTTGGGGGCCACATTACCTACTGAGATACAAACTGGTGCAGCTAAGAGAGTGC
TTACACCACCCCTCCTCCAAACTAAGGCTGCACGGTTCACAGATTCAAGAGACCAAGTCCATCTACTTAAGAAGACAGAAAAGAGTAAACAGGACTTTGT
CTTGCATTTTGGATACCAGCAAGGCCACCAGTCAGAGTTGTGAAACCCCTTTTCAGCCACTAGCTCCTAGTTAAAATTTCTAGGTACATGCTGGGCCAGA
AAGAAATCTGCTGCCTTGAATGAAAAATTTTGGCACTGACAAGACCCATCAACTGCTAAGTAAAGAGCCCTCGACCTGGAATAATCTGCAGTGATAACCA
GGTAGTTTGCTATGAGCTTTCATTGGGACTCTGAGGCTTGCTAGAATCAGGTGAGACTCAGCACATTCACAACTGTGGTGGCTACAGGGAGTCACTGAAA
AGGGTAGAGGAAAAACTATAGAGGATTTCATCTTGCCAACTTAGGTCCCAGCATGGCCAAAGGGAGGAAGAGCATCAAGTGGGCTCTTGGGGTCCCTTAT
TCCAGGCCTTGGCACTTGGATGGCACTTCTGGACCTGCGCTGAGACAAAAGGGACACCACTGACAAAAAGGGTGAGTACCAGGCCAAGCATCATTCACTA
CAAGTGAACTAAAGAGCCTTGAATCTTAAGGGAACATTGGTGGTAGCCTGGCGGTATTCCCCATGGGCCTGTGGTGATGGTAGCAATGGGATGAGGCTCT
TCTGCCTGTGGAATAAGGACGGAAAAATGGGAAGAACTGAATCTTACGGTTTAATTGCTAGCTCTACCACAGTACAACAGAAAACGAAGTAGACTCCTAA
GGTTATTGACTAGCCCCTGGCTCCTGGATGGCACCGATGGGCTTGCCGAGAGCCTGAGGGAACTCACTACTCTGAAGGAAAGGATACAACGCTGGCAAGC
CCTTTGTAGGATACCACCTACAAATTATAAAGCCCCAGGACCTTGAGCAATTACTGGTGGTACCAGGTAGTGGTTACAGCTCACCTTGGGTGTGATCAAC
TGCTGTGCTGGTTTCAGGTCTGACCCACTGCAGTCCTACTGATAGTGACAGAAGACAAACTCCTAGGCAGGCAGGGATGGGTCCTTGGTGAAACTCGACC
TTCGAGGAAAGGACAGTCTAAAGCCTGAAAACTGAGCTACCAGTTCCAGGAAGAATTCATGGACTGGAGTGAGAACTTCCATCCCTAACCCACTCTCTCT
ATTAGTTCTTTGAGAATGATTCCTTTTAATCAATTGAATGGTGCCTTTTCCAAGTCCACCCATGAACCAGTCAGCATGCATTCCCCCATTCTAAACCCAT
AAAAATCCTGGACTCAGCCTCACAGATGGCTACCCACTTTCAGGTCCCCTCTTGCTGTTGATAGCAAGACAAGAAAACAACAAAATGGAAGGAGTAAATC
TTTATATAATCAATAACAACACTGAATGTAAATCGACTAAACTCTCCAATCAAAAGACATAGAGTGGCTAAATGGATAAAAAAAAAAAAGACTGATTTGT
TGCCTACAAGAAACACACTTCACCTATAAACACATAGATTAAAAAGATTTAAAAAATTCCATGTGAATGAAAACAAACAGAAAAAGCAGTAGTAGCTATA
CTTATATCAGACAAAATAGATTTCAAGACAAAACTATAAGAAGAGACAAAGACGGTTATCTATATAATGAGGGCTGGGCACAGTGGCTCATGCTTGTAAT
CTCAGCACTTTGGGAGGCCGAGGTGGGTGGATCACCTGAGGTTGGGAGTTTGAGACCAGCCTGATTAACATGGAGAAACCCCATCTCTACTAAAAATACA
AAACAACAACAACAACAAAATTATCCGGGCATGGTGGCACATGCCTGTAATCCCAGCTACTCAGGAGGCTGAGACAGGAGAATCACTTGAACCTGGGAGG
CAGAGGTTGCAGGGAGCCCAGATTGCACCATTGTACTCCAGCCTGGGCAACAAGAGCGAAACTCAGAGAAACTCCGTCTCAAAAAAAAAAAAAAAAAATA
ATAATGAGGTTAATTCATCAAGAAGATATAAGAATGTTACATACATATGCACCTAACACTGGAGTACTCAGATATATTAAGCCAGTATTATTAGAGCTAA
AGAGACAGGCCCCAATATAATAATACCTAGAGACTGCAACACCCCACTTTCAGCATTGAATAAATCTTCCAGACAGAAAAACCAACGAAGAAATATCAGG
CCTAATCTGTGCTATAAACCAAATGGACATAATGGATATTTACAGAACATTTTATCGAATGGCTTCAGAATACACATTTTTCTCTGCAGTGCATGAATCA
TTCTCATTGATAGACCATATGTTAGGTCACAAAACAAGTCTTAAAACATTTTAAAAATTAAAATAATATCAAGCATCTTTTCTGACTACAATGAAAAAAC
CTAGAAATTAATAACCAGAAAAAGTTTTGAAATTATATAAATACATAGAATTTAAACAATATGCTCCTGAAAGGCCAATGGGTCAATGAGGAAATTAATA
AATGAATTGAAATATTTCTGAAATATGTGATCATGGAAATACATGAAAACTTAGGATATACAGTAAAAGCAGTACTAAAAGTTTATAACTAAAAGTGTCT
ACATAAAAAACTCAAATAAACAACTTCATGACAGATTTACTGAAATTTCCATGAAAATACCATCAGTATTCTTCACAGAACTATAAAAAACAATCCTAAA
ATTAATGTGGATCAAAAAAGAGCCTACGTAGCCAAAGTAATACTAACCAAAACAAAATAAATAAAAAATCTGGAGGCATCACATTACCCTACTTCAAATT
ATACTACAAAGCTATAGCTACCAAAACAGCATGGTATTGCTATTAAAATAGACACATAGACCAATGAAGCATAATAGAGAATCCAGAAATTAAGCCAAAT
ACAGGCAACTCATCTTAACTAATAATCAACAAGGCATACAAATAAACAAATTGAGGAAACAACACCCTATTCAATAAACGGTGCTAGGAAAACTGGCAAG
CCACACATAGAAGAATAAAACTGGATCCCCCATCTCTGACCGTATACAAAAATCAATTCAAGATGGATCAAAGATTTAAATCTAAGGCCTGAAAGCATAC
AAATTCTAAAAGGTAACATATAAAAAAACTCTTCTGGACATTGACTTAGGCAAAAAATTCATGACTAAGACCCCAAAAGCAAATGCAACAAAAACAAACA
TAAACAAATGGGACCTTATTAAACTAAAAAGCTTCTGCACAGCAAAAGAAATAATCAGCAGAGTACATAGACAACCCACAGAGTAGCAGAAAATATTTGC
AAACTACGCACAAAAAGCTAGTATCCAGAATCTATACAGAACTCAAATAAATTAGCCAAATAATAATAATTCCATCAAAAAGTAGGCAGAGAAAATGAAT
ATATATTTGTCAAAAGAAGACATACGAACACCGAACAATAATCTAAAAATGCTCAACATCACTAATCAGAGAAATACAAATGAAAACCACAATTAGATAC
CAACTTACTCCTACAAAAATAGCCATAATTCAAAAGTCAAGAAAACAACAGATGTTGGCATGGTTGTGGTGAAATGGGAACACTTAACAAATAAAATGTC
ATTTGCAGCAACTTGGATGGAGCTGAAGGCTATTATTCTAAGTGAAGTAACTCAGAAATGGAAAACTAGATATTGTATATTCTTATAAGTGAGAGCTAAT
CTACGAGGATGCAAAGGCATAAGAGTAATGTAATAGACTTTGGGGACTTGAGGGGGAAGGCTGGGAGGCGGGTGAGGGATAAAAGCTACATATTAAGTAC
AGTGTACACTGCTCGGGTGACAGGTGCACTAAAATCTCAGAAATTACACTAAAGAACTTATCTGTGTCACGAAAAACCACCTGTATTTCCAAAACCATTG
AAAAAACCTAATGATGTATCTAGCAAACAAAGCCAAAATTAGAAGAAAAGAAATAATAAAGATCAAAGCAGAAATAAATGAATTTGAAATAAATAAAATA
CAAAAGGTCAATAAAATGCAAAGTTGTTTTCTAAAAAAAAAAAAAAAAAAACCTTTAGCCAGACTAAGAAAAAAAAAGAAAACTCAGCCAGGCACAGTGG
CTCATGCCTGTAATCCCGGCACTTTAGGAGGCTAAGGCAGGGGGATCACCTGAAGTCAGGAGTTTAAGACCAGCCTGTCCAACATGGCGAAACCCCGTCT
CTACTAAAAAATATAAAAATTAGCTGGGCACGGTGGCAGGCACCTGTAATCCCACCTACTTGGGAGGCTGAGGCAGGTAGAATTGCTGGAAGTCAGGAGA
AGGAGGTTGCAGTGAGCCAAGATCAAGCCACTGCACCCCAGCCTGGGCGACAGAGTGAGACTCCTACTCAAAAAAAAGAAAAAAAAAAAAAAAGAAAGAA
AGAAAAGAAAAAAGAAAAAAAGACTCAAATAAATAATAACAAAGATGAAAAAGGAGACATTTCAACTCTACAACTTATACTGCAGGAATTCAAGATCATT
AGTGGCTGCTATGAGCAGATAGATGCCATAAATTGGAAAATCTAGAACAAATGGATAAATTTCTAGACACATAGAACCTAACAAGATTGAACTGTTAAGA
AATCCAGAACCTGAATAGACAAACAAGACATGTTGAGATCCATAATAAAAAACCTCCTATGAGAGAAAAGCCTGAAATCTGATGGCTTCACTGAATTCGA
CCAAACATGTATAAAACTAATAGCAATCTGACTTAAACTATTCCAAAACAGAGGAGGAGGAAACACTTCCAACCTTGTTCTGTAAGGCAAGCATTACTCT
CATACTAAAACCAGACAAACGCCTATCAAAAAAATCTATAGGCCAATATCAGCAATAGATGCAAAATTTCTAATAAAAATACTGGCAAGTAAAATTCAGC
AACATATTAAAAAGATTATTATAGATGTAAAATTTCTAATAAAAATACTGGCAAGTAAAATTCAGCAACAGATTAAAAAGATTATTATACCTCATGATCA
AGTAGGATTTATCTCAGGGATGCAAAGATACTTCAACATATGCAAATCAATTAATGTAATACATCATATCAACAAAAGAAAGAACAAAAACCAAGATCAT
TTTGATCCTGAAAATCATTTGATAAAATTTAATATCCCCTCATGACAGAAACCCTCAAAACTATAGAAGAAACATACCTCAACATATAAAAAGCTATATA
TGACACTCACATTATATGATACTAAATGGGGAAAAATGAAAAGCTTTTCCTAAGATTGAGAACATGACAAGGATGCACACTTTCACCACTGTTATTTCAA
CATATGGCAGCTAGAGCAATTAGACAAGAGAAAAAAATAAAGGGCAACCAAATTGGAAAGGAAGAAGTCAAATTAGCTTTGCTTGCAGATGATGTGCTCT
TATATTTGGAAAATCCTAATTCACTAAAACACTATTAGAACTCATAAATTTAGTCAAGATATAGGATTAAAAAGCTAGCAGCATTTTTATATACCAACAG
TGAACAATGTGAAAAAGAAATGAAGAGAGTAATCCCATTTACGATAGCCACAAATTAAAATAAAATACCTAGGAATTAACCAAAGAAATTAAAGATCTGT
ACAATGAACACTATAAAACATTGATGCAAGAAATTTAAAAAGACAAAAAAGAAAATATATTTTTTGTTCATAAGAAAAATCAGTATTTTTAGTGTCTATA
CTACCCAATCCAATCTACAGACTTAATGCAACCCTATCAAAACATCAATGATATTCTTCACAGAAATAGGAAAAACAATCCTATAAAGTGGACAGAACCA
AAAAAGACTCAGAAGAGCCAAAGGTCTTGCAAGAAAAAATTTTGCCTTTATGTGGCTGGCTTATTTTTCTTAACATATGACCTCCAGTTCCATCCATGTT
GTTGCCAACAACAGGATCTTATTATTTATAAGTGAAAAGTACTCCTTTGTGTATATGTACATTGGCTTTATCCATTCATCTGTTTTTGATAGACACTTTG
GTTACTTCCAAATCTTGGCTAATGTAAACAATGCTGTGTGAAAGGAAAATAAATCTTTGAACCCCCAAATCACTAAGCTAAAGGGACAAGTCAAGCTGGG
AACCGCTTAGGGCAAATCTGCCTCCCATTCTATTCAGTCATCCCTCTGCTCACTGAGATAAATGCATACCTGATTGCCTCCTTTGGAAAGGCTAGTCAGA
AACTCAAAAGAATGCAACCGTTTGTCTCCCACCTACCCATGACCTGGAAACTCCCTCCCTGCTTTGAGTTGTCCCACCTTTCCAGACTGAACCAACGTAC
AACTTACACATACTGAAGTCTCATGTCTCCCTAAAATGTATAAAACCAAGCTGTGCCCTGACCTCTTGAGGCTGTGTCATAGGTGTGCATCCTTCACTTT
GGTAAAATAAACTACTTAAATTGGATGAGACCTGTCTCAGATATTTTGTGTTCACAGCTACAATAAAAATGGAGGTGCAAATCTCTCTCTGATGTCCTGA
TTTCCCTTGTGTACATACCTAGGATTGGGGTTGCTAGGTAGTATAGTAGCTCTATTTTTTTTTTTTTTTGAGGAACTCTAAACTGTTCTCCATAGTAGCT
GTAATAATTTACATCCCCACCAAGAGAGTACTAGAGTTCCCTTTTCTCCACATACTCACCAGCATTTGTTATTGCCTGACTTTTGGAGAACAGCCATTGT
AACTGGGATGAGATAACATCTCACTGTCATTTTGATTTGCATTTCTCTGATGACCACATGTTGAGCACCTTGTCACATGCACTGTTATTCGTATGCCCTC
TTTAGAGAAATGTCTATTCACATTTTTTGCTCATTTTTAATCAGATTATTAAATTTTATCCTATAGAGTTGTTTGTGTGCCTTACATAATCTGGTTATCA
ATTTTTTTTCTGATGGGCCATTTGCAAATATTTTCTTCCATTTGGTATGTTGTCTCTTCACTTTGTTGATTGTTTCACTTGCTGTTTAAAAGTTCTTTAA
CTTGATGTGATTCCATTTGTCCATTTTTGCTTTGGTTGCCTGTGCCTGCAGGGTATTATTCAAGACATCTTTACCCCATTTAATTTCCTGGTGAGTTTCT
ACAATGTTTTCTTAATAGTACTTTCATAGTTTTGGGTCTTAGTTAAGTCTCTAATCCATTTTGATTTAACTTTTTAATACAGCAAGAGATAGGGGTCTAG
TTTCATTCTTCTGAATATGGATATTTAGTTTCTGTAGCATAATTTAGACAATAAATTCCTTTCCTCAATATATATTCTTGAAACCTTTGTCGAAAATAGG
TTTGCTATAGCTATATGGATTTATCTCTGCGTTCTCTCTACTGTTTCACTGATCAATACCATGCTGTTTTAATTACTATAGCTCTGTAGTATCATTTACA
GTCAAATACTATGTTTCCTCCAGTTTCTTTTGCATGTTCTCACACATTTGCTGGAGCTAAAAATTAAATTAATTCAGTTCATGGAGGGAGAGAGCAGAAT
TGTTACCAGAGGCTGGAAAGTATAGTGGGGGGTTGGTGGGAAGTGGGGAAGGTTAATGAGCACAAAAATAATTAGAATAAGATTTAGTAGTTGCTAGTAC
AACAGAGTAACTATAGTCAAAAGCAATTTAATTGTATATTTTTAAATAACAAAAGGAACGTAATTAGATTGTAAACAAAGGATTAAATACTTGAAGTAAT
GAATACACCATTTACCCTGATGTGATTTTTATGCATTTCATGGCTACTTCAAAATATCTCATGTAACCCATAGATATATATAGCTACTACTATGTACTCA
CAAAAATTAAAAAATAAAATTTAAAAGTAAAAAATATATATAAATTTAAGTTGCAAAGCTTAAAAAAAGACCACTGGTCTTCATTTCTTCATAGATATAT
GCACTTAACACCACGTTGATCACATTGCCTTTGTGGGAATTCCAAAACACAGTTAAGAATTTGTACTACTTCAGTTGCTGTAGCTTTATCCATTCCAAAA
GCATGTAGAAGAGAAGGAAAATTTTATTACATGTGCCCAGCACAGCTTTATCTTCTCCCAGTACAGCATGGTACAACCAGGAGAAACTCCCAACTCTATG
TTTCTTCCTCAGGAGAGAAAGAAGTGTGGAGTATGTGTCCACATCTCTGGTTTCCGAGGGGCTATCCAAAGATGGGGTTTGGCTCCCCTGACAGAGTGCT
GAAGGAAATGGTGGTATACTCTGGATGATGGCTATACATATTTTACATCAATATAAGAAGCAATCCTAAAAATTATATCAGAACTAAAGAGACCACAAGT
GTTCAACAATTGTCAAAAAGAGAAATATTGGAGGCATACACCCTGATTTTAAAAACCTATTATAAAGTTATATTAATCAAAATAGTTTATAACCGGATTA
AAAAGAGACAATACCAGTGAAACAGAACAGAGCACATCAATAATCCCTTGCATATATTATCAAATGAAGAGTAATCTGCACATCCATATTCACTGTAGTA
TTATTTACAGAAGCAAGTAAGTGGAAAGAACCAACTTAATAAATGAATAAAGACAATTTCAAATATACAAATAAATAATATTCAGGTTTTTAAAAGCAGA
AAATGTTGTTATATTCACAATAAATACATTTTTTAAGACTTTATGTGCAAAAAGCCAGGCACAAAAAGACAAATACTATACAATTTTACTTATGTAAGAT
ACCTAAAGTAGTTAAACTCCTAGAAACAGAAAACAGACTGAACTGTGTCAGGGGCTAAGTGGAGAAAATGGGTAGTTGTTGTTTCATGGACAACCTGTTA
GGACACAAAGCAACTCTTATTCTTTTTAACTTTTAAGTTTGGGGTTATATGTACAGGTTTGTTATATAGGTAAACTTGTGTCATGTGGGTTTGTTGTACA
GATTATTTTTTCACCAAGGTATTAAGCCTAGTACACACTAAAGATTGAATCATATAATGTATCCTTTCTTACCACATGGAATAAAACTAGAAATCAAAAG
CAGAAGCAAAATTGCCAAATTGAAAAATCTGTGAAACTTAACAAACTCTTTAAGATACTCTTCTTTAAGTGTCAGGAGATTTAATATTGTTAAATGACAA
TAGTATCCCCAGTGATATTCAAATTCAATGTAGTCTCAATGAAAATCCAAAAGATATTTTTTGAAGAAATATATTTTTAAATTATTACATTTACACAGAA
TTTCAAAGGACCATTGATGGCCCAAACATTCTTAGAAAAAAAGAACAAAATTAGAGGCACCACACTTCCTGTTTTTAGAATAGATTACAAAGCTACATAA
ATAAAAACAGTGCGGTACTTGCAGGAAGACAGATGATGGAACAGAATGGAGAACTCAAAAACAAAGCATTGTGTATATGGTCAAATGATCTTCAACAAGG
TTACTATAACAACATATTAAGGAAAAGATAGTCTCTTCAATAAATGGTGTTGGAAAACTCTATATCCACATGGGAAAAATTGAGGTTGGATCCTTCCCCT
AAACCATACACAAAAACTGTCTTGAATGAGTTAAATATTTAAATGTAAGAATTATAACTCTACAATTTTTGGAGGAAAATATAGGGTGACTGGGTGTGGT
GGCTCACACCTGTAATCCTAGCACTTTGGGAGCCCAAGGCAGGCAGATTACTTGAGGTCAGGAGTTCAAAACCAGCCTGACCAACAGGGTGAAACCCTGT
CTCTACTAAAAATATTTTTAAAAATTAGCCAGGTGTGGTGGTACATGCCTGTAATCCCACCTACTCAGGAGGCTGAGGCAGGAGAATCGCTTGAACCCAG
GAGGGGAAGGTTGCAGTGAACCAAGATCATGCCATTGCACTCCAGCATGGGCAACGAGAGCAAAACTCCATCTCAAAATAATAATAATATAGGGAGAAAG
ATTATGACATTGGTCTCAGCAATGTTTTCTTGCATATAACATCAAATACATGAGCAACAAATTTAAAAACACAGAAAAATGGGACTACATTAAATTTATC
TCTGCACGCTAAACATTTAGTGAAGTAAGCAGAAGAAGAAAAAAAAATTGTATGTTTGACAGAAGTTAACACCCAGAATATATAAACTTTGAAAAATCAA
CAACAAAGAGTAAGTAACATGATTAACAAATGGACAAGAGATTAAAATGTTTCTCCAAAGATGAAATAATACACATAGCAATTACTGAAAACATTTCTAG
TCTTTAGAAAAATGTAAAGCAAAACCACAATGAGATACTATTGTGCATTAATTAGGATGGCCAATATCAAGCAAACAAAAAATAACAAATGTTGTCAAGA
GCATAGAGGAATTGAAACCCTTGTGCACTGCTGGTAGGGAAAAAGTGACTTCTGGGCATCTAATCAAAATATGCAGAGTATACTTGAAAGAAATATTTGC
ACATCCATGTTCATTGCAGCAATATTCACTGTATTCGTTTATTATTGCACTGCTATAAATACCTGAGACTGGGTATTTTAAAAAAAAGAGGTTTAATTGG
CTCATGGTTATGCAGGCTGTACAGGAAGCATAGCAGCTTCTGCTTCTGTGTCGGCCTCAAAAAGCTTCCAATCACAGCAGAAAGCAAAGAGGGAGTGAGT
CATCTCACATGGTGGGAGCAGGAGCAAGACAGAGTGAGGGTGGGGGTGCCACATGATTTTTAAAAATAAGATCTCAGGAGAACTTACTACAGCACAGACA
GTACCAAAGGGAATGGTGTTAAACCATTCATGAGAAACCAACTCTATGATCCAATCACCTCCCACCAGGCCCCACCTCCAACATTAGAAACTGCAATCTT
AGATGAGATTTAAATGGGAACCCAGATCCAAAATATATCATTTACAAAAGACAAAAAGTGAAAAAACGCAAATGTTCTTCAATGAATAGGTAATTTTTAA
AGATGTGCCTTATATATACAATGAAATATTCTTTTTTTTGAGACAGAGTCTCGCTCTGTCGTCCAGGCTGGAGTGCAGTGGCATGGCCTCGGCTCACTGC
AAGCTCTGCCTCCTGGGTTCATACCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGCCCGCCACCACGCCCAGCTAATTTTTTTTATTT
TTAATAGAGCCGGGGTTTCACCATGTTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGATCCACCTGCCTCGGCCTACCAAAGTGCTGGGATTACAGGG
GTGAGCCACTGCGCCTGGCCACAATGAATTATTCTTTAGCCTCAAATGAAAATATCTTGTCAGATGCTACAATAAGAATAAATCTTTAAGCCATTATTTT
AAGTGAAATAAGACACTAATGAAGTGACAGTATATGATTCCACTTACATAAGACATCTTATGTCATAAACTTACAGAAACAGGCAGTAGAAAGATGACTG
CCTATGGTTGGGGTTGTGAAACCTTTGTGGAGCCAAAGATCAAGGAGGGTCATTTGGAAAAAGCAGGCCCTCACCCAGGTGGCAAACTGAAGAGCCCATG
GACATGGCTACAGACAAGGAAATGGCGCACCGAACTTGGTCTTACTGAGGATCCTGAAGCAGTTCTGCAACCTGTCTCAAACTCCTCTCAGCTATAGTTC
AGAAATAGTCCTCCTATCAAGAGAGATGCAGGAAGACACACCCAGCCATGGCCCTAGAGGCAGGCCTGTAGATCTTGGCCTCAGCTGTGGTCCCGGAAGC
AGCCCTGTAACTCAGTTCTAGCCCTCACAGCCACAGTCCATGGCCAGTTATAGGCACCCAGTTAGAGACCTGTGAAAACTGCTTCAAGGTAGCTAGTAGA
AGACAAACCCATTCATACACCTGGTATATGGCTCATCATATGCAGACAAATTTCAAAACCCTACCCTAGTGCCTGCTGTATAGATTAATGTCCACAAGGA
AATCTCTACCCTAGTGCCTGCCATATAGATTAATGTCCTAAAGGAAATCTAATCTTTCCAGGTCCCAAAAAGAATCCATGACTATCCTAATCTCTGGTAA
CAGGACCATCAAAGGCAGACCCCACAGTGACCCAGCAGCACCCTTGTGACCCAGCTTTACAACGCTTCTTCTCTGCAACCCCAGAGGTAACCTCATCAGC
CTGGGAACCCAACAAAAGGAGATCTTTACCTGCCAAAAACAGTTTACAGAAACTGTAACCATTGTTAGATCCTTCAAATGTACAGAAACAGGGCTGCTTC
AGGGACCACAGCTGAGGTCACGGTCTGTAGGTCTGCCTCCAGGGCCATGGGTAGTTATACTGTGCCACTATCAATGCTTCTACCTTAACATATTACTGAA
AGTTTGTATCAGAACAATTAGGCAAGGAAAGAACAAGGCTCTCCCGTTTGGAAAAGAAGTAAAAATGTTACTGTTTGTAGATGATATGATCATACATATG
TATATAAAACCTTAGAGTACAACAACAAAAACTGTTTGAACTAATAAATGCATTTATTAAAGTATCAGGATAATCAACATACAAATACTTCTGGGGTTTT
TTGAGACAGGGTGTCACTCTGTTGCCCAGGCTCACCTCAAACTGCTGGGCTCAAATGATCCACCTGCCTCAGCCTCTGAAAGCACTGAGATTACAGAAAT
GCAGCACTGCACCAGGCTCAGCATACAAATATTTGTTGCATTTCCATACAGTAACAACAAACTTTCCACAAAAAAAGAAACAATTTTTATTTACAATTGT
ATAAAAGAAGTTTAATCAAAATAAATTTAACTGATGATATAAAAAATTTATACATTAAATACAGTAAGATATTGATGACAGACATTAAAGTAGACCCAAA
TAAATAGAAACATATTCCATTGGATAATTAATACTGTCAAAGTACCATATTATCCAAAGTAATCTACGGATTTAAAGTTTTAGTGGAATTTTCAACAGTA
ATAGAAAATAAAATTGTAAAATTTAAGTGTAACCTAAAACAACTTGAAATAACCTGAGCAATATTGAAAAAGAACAAAGCTGGGGGCATCATACTTTCTA
ATTTCAAACTTTATTTAAAGGTTATAGTAATGAAAAGAGTGTGGTATGTGCATAAAAACAGATACAAAAACCAATGGAACATAATAGAGAGCCCAGAAGC
AATCCATGCATACAAGGTCAACTAATCTTTGACAAGAGCACCAAGAATATACAATGCAGAAAGTATAGTCTTGTCAATACACGGTGCCAGAAAAACTAGA
TATCCACAAGCAAAAGAATATAATTAGATTATTTTCTTTGACCATACCCTAAAATTAACTAAAAATAAAAGACTTACATGTAAGACATAAAACCTTAAAA
CTCCTGAAGAAAACATATTGGAAAACCTTGTTGATATTGGTCTTGGCAACAGCTTTTTGCATATAACACCAAAAGCATAACATTGAAAGAAAATATAAAC
AAGTGGGACTGCATCAAAGTAAACAGCTTCTGCACAGGAAAGGAAAAAAAAATTTTTTTAAACCTTACAGGACAGAAAAATATTTGCAAGCCATGTATAA
GAAGTTAATATCCAAAATGTGTAAGAAACTTCTGCAATTCAAAGCAAAACAATGATGATGATAACCTATTCAAAAATAGACAAAAGATTATTTTTCCCCA
AAGAAGACATACATACAAGGGAAATCCTGTATGTTGTCAGTGAGATGTAAATTGATACAGTCATCATAAAAACCAATAAAAATAAAAATAGAAGTATCAT
ATAATCCAGTAATATCACTTCTAGGCATACTACTACCAAAGGAAATAAAATTAGCACCTTGAAGAAGTATCTTCAGCCCCCATGTTCGTTGTAGTATTGT
TTACAACAGACAAAATATGGTGTGTGTGTGTGTACATACACACACACAGAGAAGAATACTATTCAGCCATAAGAGAAGGAAATCTAGCCATTTACAACAT
GGATACACCTGGAGGACATTATGCTAAATGAAATAAGGCAAACACAGAAAGACAAACTGTATGTTCTCAATTAGATGGGGAATCTAAAAATGTAAACTCA
TAGAAGCAGAGAGTAGAAGGGTGGTTGTTAGTGCCTGAGGGTGGGAATATGAGATGTTGTTCAAAGAATACAAATTTAGTTACAAATTGAGCAAGTCTGA
GAAATCTAATGTACATTAGCATTAGATTAGCCAGATAGCATTGTTTATAGTAAGTAATACTGTAACATATGCTTAAAATTTGCCACAACAGTAGACCTTA
AGTATACTTACTATAAAAAAAAAAGGTTATCCATGTAAGGTAATAGATGTGTTCATCAACTTGACTATATTTTATTTCACAACGTATACACATATCAAAT
CATTACATTGTACACATTAAATATATAGTTATACAATTTTTATTTATCTGAAAAATCCATGCCACACAAACACAGTCATAGAGTAAGTCCTCACTTAATG
TTCAAAATAGGTTCTTGAAAACTGTGGGCTTTTTTTTAAATGAAACAACACTGCTATATGCCATTCAAATACCTTTCTTTTGTATCAGTTAAACTATGGT
AAAATTCATTTTCTTAAACAATATGTTGCTTCACTTACAGTTACAGCTTCTAAGAACTATCAACATTAAGAACTGAGTATACACATATACGATTTATATA
GGTATGTGTATGTGTATCACTTTACACATTTATACATATAGATATATCTCAATGACACAGTCCCAGCAGGCTCCCTACTAAATAAGACAAAATTATAAGA
TAATAGTTATTAAAAAATAAGATAATAGATGGCTTAATATTTGCTTAGCAATGTTCTAAGCTCATTAATGACACAGGGCATTTAAAAAATCTAGAAGGTG
AGTAGATACTTTTAATCAGTGGTGTCCAACCAGCTCTTTGAATGAGAGGACTTTTTGCTTATCTGTGGTGACGAATATCATGAAAACTGCATGAACCTTT
TTTCTTTTTAGCACATCAGCTATCATTAGTGTTCGTGTATTTTATGTGTGGCCCAAGACAATGTTTCTTCTTCCAATGTGACCCGGGGAAGCCAAAAGGT
TGGACACTCATTCTTTGAACTATAATTTGAAAATCTGCACATATAGAGTTTAAATTACAAATCTCAATTTATTCTAAAGCAGTAACACTTTGAGGTAAAA
TAACATTACATTTTTTCATATTTAGAAAAATGCTTATTGTTCTGATAAAATTGCTGAGTAAGGATTTTTGTAGAATCACATTTGCAACCTCTACAGGATT
AAAAATTATTAAGCGGAAAAGATGCAACATCTGTCCCTGGTGTTGCTGGGATTTCTGAACCAAATCCCAGTATGTCCCCTACTCACCTTACACATTTTAG
ACATGATGCAAAAAGAATATCTGAAAAAGATACTTTAACATAGAACTCCTCAAAAATACAAATATTCCTATGTATCCAAAACCAATGGAAAAGCAGACAG
ATCATGCAGCCCTTTATAAGTGATAAAGGGGACATTGGGTCTCACTGTAAACTTGAAGGGAGATCACTAAAGAAAAAAAAAAATTCTTAGAAAATTTAAG
AGCATGAGACAGAAGATGTCCCTATCTGTGAATATGAAAACAAAACAAAACAAAAAACACAACCTTTTCAGAAATTATTTTCATTGGAGCAAAGATTCCC
AAACTACATTTTTTTTTCTTTTTGAAAATTCACATTTCCAAGTGATTTTTTTTTTATTATACTTTAAGTTCTAGGGTGCATGTGCACAACATGCAGGTTT
GTTACATACGTATACATGTGCCATGTTGGTGTGCTGCACCCATTAACTCATCATTTACATTAGGTATATCTCC
In silico ORF/peptide predictions
Nothing found.
RiboTaper predictions from Ribo-Seq data (HEK293 cell line)
Nothing found.