| 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 |
|---|---|---|---|---|---|---|---|---|
| ENST00000262031 | RNA binding motif, single stranded interacting protein 2 | protein coding | TCONS_00049753 | 613 | 306 | UTR3 | Trans | |
| ENST00000262134 | lysophosphatidylcholine acyltransferase 2 | protein coding | TCONS_00049753 | 553 | 305 | UTR3 | Trans | |
| ENST00000263955 | serine/threonine kinase 17b | protein coding | TCONS_00049753 | 638 | 300 | UTR3 | Trans | |
| ENST00000299157 | IKBKB interacting protein | protein coding | TCONS_00049753 | 527 | 268 | UTR3 | Trans | |
| ENST00000323699 | delta(4)-desaturase, sphingolipid 1 | protein coding | TCONS_00049753 | 513 | 265 | UTR3 | Trans | |
| ENST00000367590 | xenotropic and polytropic retrovirus receptor 1 | protein coding | TCONS_00049753 | 565 | 250 | UTR3 | Trans | |
| ENST00000382044 | tumor protein p53 binding protein 1 | protein coding | TCONS_00049753 | 595 | 312 | UTR3 | Trans | |
| ENST00000382142 | myotubularin related protein 12 | protein coding | TCONS_00049753 | 607 | 267 | UTR3 | Trans | |
| ENST00000391877 | delta(4)-desaturase, sphingolipid 1 | protein coding | TCONS_00049753 | 513 | 265 | UTR3 | Trans | |
| ENST00000397755 | zinc finger family member 788 | processed transcript | TCONS_00049753 | 524 | 292 | noncoding | Trans | |
| ENST00000424496 | sense_intronic | sense intronic | TCONS_00049753 | 596 | 264 | noncoding | Trans | |
| ENST00000448214 | antisense | antisense | TCONS_00049753 | 549 | 259 | noncoding | Trans | |
| ENST00000448612 | WD repeat domain 27 | protein coding | TCONS_00049753 | 542 | 313 | CDS | Trans | |
| ENST00000482603 | glyoxylate reductase/hydroxypyruvate reductase | processed transcript | TCONS_00049753 | 636 | 266 | noncoding | Trans | |
| ENST00000498813 | delta(4)-desaturase, sphingolipid 1 | processed transcript | TCONS_00049753 | 539 | 268 | noncoding | Trans | |
| ENST00000507518 | hydroxysteroid (17-beta) dehydrogenase 11 | processed transcript | TCONS_00049753 | 531 | 224 | noncoding | Trans | |
| ENST00000513143 | podoplanin | protein coding | TCONS_00049753 | 526 | 278 | UTR5 | Trans | |
| ENST00000524264 | SAP30L antisense RNA 1 (head to head) | antisense | TCONS_00049753 | 541 | 312 | noncoding | Trans | |
| ENST00000552918 | spermatogenesis associated, serine-rich 2 | protein coding | TCONS_00049753 | 641 | 265 | UTR3 | Trans | |
| ENST00000553127 | spermatogenesis associated, serine-rich 2 | protein coding | TCONS_00049753 | 641 | 265 | UTR3 | Trans | |
| ENST00000560870 | sense_intronic | sense intronic | TCONS_00049753 | 537 | 261 | noncoding | Trans | |
| ENST00000569832 | SSTR5 antisense RNA 1 | lincRNA | TCONS_00049753 | 522 | 265 | noncoding | Trans | |
| ENST00000591226 | tropomyosin 4 | retained intron | TCONS_00049753 | 600 | 266 | noncoding | Trans | |
| ENST00000620139 | melanoregulin | protein coding | TCONS_00049753 | 610 | 264 | UTR3 | Trans | |
| ENST00000623752 | TEC | TEC | TCONS_00049753 | 649 | 268 | noncoding | Trans | |
| TCONS_00001594 | lincRNA | novel protein coding | TCONS_00049753 | 601 | 273 | UTR5 | Trans | |
| TCONS_00009095 | xenotropic and polytropic retrovirus receptor 1 | novel protein coding | TCONS_00049753 | 565 | 250 | UTR3 | Trans | |
| TCONS_00009834 | SRY (sex determining region Y)-box 13 | novel protein coding | TCONS_00049753 | 613 | 265 | UTR3 | Trans | |
| TCONS_00030130 | calcium/calmodulin-dependent protein kinase II gamma | novel protein coding | TCONS_00049753 | 668 | 283 | UTR3 | Trans | |
| TCONS_00030165 | antisense | novel protein coding | TCONS_00049753 | 549 | 259 | UTR5 | Trans | |
| TCONS_00030165 | antisense | novel protein coding | TCONS_00049753 | 522 | 323 | UTR3 | Trans | |
| TCONS_00030588 | cytoplasmic polyadenylation element binding protein 3 | novel protein coding | TCONS_00049753 | 583 | 259 | UTR3 | Trans | |
| TCONS_00030588 | cytoplasmic polyadenylation element binding protein 3 | novel protein coding | TCONS_00049753 | 601 | 266 | UTR3 | Trans | |
| TCONS_00030591 | cytoplasmic polyadenylation element binding protein 3 | novel protein coding | TCONS_00049753 | 630 | 264 | UTR3 | Trans | |
| TCONS_00030591 | cytoplasmic polyadenylation element binding protein 3 | novel protein coding | TCONS_00049753 | 601 | 266 | UTR3 | Trans | |
| TCONS_00033132 | dynein heavy chain domain 1 | novel protein coding | TCONS_00049753 | 603 | 277 | UTR3 | Trans | |
| TCONS_00039782 | GRAM domain containing 1B | novel protein coding | TCONS_00049753 | 609 | 265 | UTR5 | Trans | |
| TCONS_00050741 | spermatogenesis associated, serine-rich 2 | novel protein coding | TCONS_00049753 | 641 | 265 | UTR3 | Trans | |
| TCONS_00050741 | spermatogenesis associated, serine-rich 2 | novel protein coding | TCONS_00049753 | 515 | 234 | UTR3 | Trans | |
| TCONS_00051899 | RNA binding motif, single stranded interacting protein 2 | novel protein coding | TCONS_00049753 | 613 | 306 | UTR3 | Trans | |
| TCONS_00067572 | DCN1, defective in cullin neddylation 1, domain containing 2 | novel protein coding | TCONS_00049753 | 637 | 304 | UTR3 | Trans | |
| TCONS_00067572 | DCN1, defective in cullin neddylation 1, domain containing 2 | novel protein coding | TCONS_00049753 | 628 | 269 | UTR3 | Trans | |
| TCONS_00075813 | forkhead box N3 | novel protein coding | TCONS_00049753 | 601 | 300 | UTR5 | Trans | |
| TCONS_00075827 | forkhead box N3 | novel protein coding | TCONS_00049753 | 601 | 300 | UTR3 | Trans | |
| TCONS_00082423 | transcribed_processed_pseudogene | novel protein coding | TCONS_00049753 | 542 | 298 | UTR3 | Trans | |
| TCONS_00089066 | eukaryotic elongation factor-2 kinase | novel protein coding | TCONS_00049753 | 605 | 309 | UTR3 | Trans | |
| TCONS_00090805 | lysophosphatidylcholine acyltransferase 2 | novel protein coding | TCONS_00049753 | 553 | 305 | UTR3 | Trans | |
| TCONS_00095053 | epithelial membrane protein 2 | novel protein coding | TCONS_00049753 | 584 | 263 | UTR3 | Trans | |
| TCONS_00103261 | Rap guanine nucleotide exchange factor (GEF)-like 1 | novel protein coding | TCONS_00049753 | 636 | 303 | UTR5 | Trans | |
| TCONS_00103261 | Rap guanine nucleotide exchange factor (GEF)-like 1 | novel protein coding | TCONS_00049753 | 607 | 317 | UTR5 | Trans | |
| TCONS_00103262 | Rap guanine nucleotide exchange factor (GEF)-like 1 | novel protein coding | TCONS_00049753 | 636 | 303 | UTR5 | Trans | |
| TCONS_00103262 | Rap guanine nucleotide exchange factor (GEF)-like 1 | novel protein coding | TCONS_00049753 | 607 | 317 | UTR5 | Trans | |
| TCONS_00107851 | transient receptor potential cation channel, subfamily V, member 1 | novel protein coding | TCONS_00049753 | 616 | 277 | UTR5 | Trans | |
| TCONS_00107864 | transient receptor potential cation channel, subfamily V, member 1 | novel protein coding | TCONS_00049753 | 609 | 258 | UTR3 | Trans | |
| TCONS_00107864 | transient receptor potential cation channel, subfamily V, member 1 | novel protein coding | TCONS_00049753 | 616 | 277 | UTR3 | Trans | |
| TCONS_00107867 | transient receptor potential cation channel, subfamily V, member 1 | novel protein coding | TCONS_00049753 | 609 | 258 | UTR3 | Trans | |
| TCONS_00116668 | desmoglein 3 | novel protein coding | TCONS_00049753 | 573 | 259 | UTR3 | Trans | |
| TCONS_00124891 | zinc finger protein 540 | novel protein coding | TCONS_00049753 | 630 | 293 | UTR3 | Trans | |
| TCONS_00124891 | zinc finger protein 540 | novel protein coding | TCONS_00049753 | 671 | 272 | UTR5 | Trans | |
| TCONS_00135884 | zinc finger protein 347 | novel protein coding | TCONS_00049753 | 570 | 310 | UTR5 | Trans | |
| TCONS_00140000 | long intergenic non-protein coding RNA 152 | novel protein coding | TCONS_00049753 | 578 | 299 | UTR3 | Trans | |
| TCONS_00149280 | Uncharacterized protein {ECO:0000313|Ensembl:ENSP00000416453} | novel protein coding | TCONS_00049753 | 628 | 264 | UTR3 | Trans | |
| TCONS_00153158 | serine/threonine kinase 17b | novel protein coding | TCONS_00049753 | 638 | 300 | UTR3 | Trans | |
| TCONS_00159938 | zinc fingers and homeoboxes 3 | novel protein coding | TCONS_00049753 | 654 | 305 | UTR3 | Trans | |
| TCONS_00160920 | protein tyrosine kinase 6 | novel protein coding | TCONS_00049753 | 602 | 267 | UTR5 | Trans | |
| TCONS_00173729 | cms1 ribosomal small subunit homolog (yeast) | novel protein coding | TCONS_00049753 | 655 | 298 | UTR5 | Trans | |
| TCONS_00190999 | zinc finger protein 721 | novel protein coding | TCONS_00049753 | 629 | 265 | UTR3 | Trans | |
| TCONS_00192322 | tec protein tyrosine kinase | novel protein coding | TCONS_00049753 | 613 | 266 | UTR5 | Trans | |
| TCONS_00194652 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00049753 | 631 | 265 | UTR5 | Trans | |
| TCONS_00194655 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00049753 | 631 | 265 | UTR5 | Trans | |
| TCONS_00195633 | aspartylglucosaminidase | novel protein coding | TCONS_00049753 | 559 | 275 | UTR3 | Trans | |
| TCONS_00202516 | family with sequence similarity 173, member B | novel protein coding | TCONS_00049753 | 618 | 265 | UTR3 | Trans | |
| TCONS_00202828 | myotubularin related protein 12 | novel protein coding | TCONS_00049753 | 607 | 267 | UTR3 | Trans | |
| TCONS_00203947 | ectodermal-neural cortex 1 (with BTB domain) | novel protein coding | TCONS_00049753 | 523 | 297 | UTR3 | Trans | |
| TCONS_00204911 | erythrocyte membrane protein band 4.1 like 4A | novel noncoding | TCONS_00049753 | 613 | 272 | noncoding | Trans | |
| TCONS_00204916 | erythrocyte membrane protein band 4.1 like 4A | novel protein coding | TCONS_00049753 | 613 | 272 | UTR3 | Trans | |
| TCONS_00219475 | WD repeat domain 27 | novel protein coding | TCONS_00049753 | 542 | 313 | UTR3 | Trans | |
| TCONS_00221037 | POU class 6 homeobox 2 | novel noncoding | TCONS_00049753 | 609 | 300 | noncoding | Trans | |
| TCONS_00224726 | caldesmon 1 | novel protein coding | TCONS_00049753 | 510 | 289 | UTR3 | Trans | |
| TCONS_00224728 | caldesmon 1 | novel protein coding | TCONS_00049753 | 510 | 289 | UTR3 | Trans | |
| TCONS_00226753 | cell division cycle associated 7-like | novel protein coding | TCONS_00049753 | 637 | 264 | UTR3 | Trans | |
| TCONS_00230128 | solute carrier family 26 (anion exchanger), member 5 | novel protein coding | TCONS_00049753 | 650 | 295 | UTR3 | Trans | |
| TCONS_00235393 | processing of precursor 1, ribonuclease P/MRP subunit (S. cerevisiae) | novel protein coding | TCONS_00049753 | 608 | 254 | UTR5 | Trans | |
| TCONS_00240688 | metastasis suppressor 1 | novel protein coding | TCONS_00049753 | 621 | 287 | UTR3 | Trans | |
| TCONS_00246881 | cyclin-dependent kinase inhibitor 2A | novel protein coding | TCONS_00049753 | 604 | 294 | UTR5 | Trans | |
| TCONS_00252827 | discs, large homolog 3 (Drosophila) | novel protein coding | TCONS_00049753 | 633 | 270 | UTR5 | Trans | |
| TCONS_00252827 | discs, large homolog 3 (Drosophila) | novel protein coding | TCONS_00049753 | 622 | 259 | UTR5 | Trans |
>TCONS_00252827 (17152 nt)
AAAGCGGCAGTGAGGGTGGCTGCGTGTTTCCGGAAGACGTGGCGGCTCTCGCCTGGGCTGTTTCCCGGCTTCATTTCTCCCGACTCAGCTTCCCACCCTG
GGCTTTCCGAGGTGCTGTCGCCGCTGTCCCCACCACTGCAGCCATGATCTCCTTAACGGACACGCAGAGTAAGCACCTGCTCCGGGGCCCCCGCCTCGAG
CCGCGCACACCCATCGCCCGGCTGGGTCTCGCCCCTCCGCCGGGGTCAATGAATGAAGCTCTGGGTTGGGGGCGGTGGCCTGCGAGACAGAGCTAGGGCT
GCTGGGACCCTAAGGGGCTGCCTTCGGGATGCCGGGGCTAGACTTGGACTGGCGGACCTGACCTGGGAGAAGAGTCTGTGGGGCAGGGTGGGACGCCCTA
TGTTGGGAGGGGAGCTTTAGCCCAGAGTCTGTCTCATTCCAGGGTCGCGCTGATCTCCTCATCCCCAGTGAGATGGGCGCTTTGTTCTAGGGGCTTGCCA
CAAGAGAAAGTTTGCGTGGTGCCCGCGGCCCACTCTCGGGATCGTTTATGCGCATGACACACTTCGGGTCCTCTACAAGTCCCTGGCTGGCTGGTTATTT
GGGAGGCGGTATTTTAAATGTCACCTACAGTAGGCTCTTTTTGAAAATGTCCTTACGCTTAAATGTGGCATTTTGAATATTCGCTTTTTGCCAGTACTGT
AAGCAACCTTTTAGAAGTCTCTTGAAACATTCTCACTTTTCTACCTGCTAAAGTTTCAAGCAGTAGAGAAAAGCCACTTTGTGTGCCATTAAAGGATATA
TTTCGTTAGTATTGTATATTGTGCTTTGTGGCTTGTTTTATTATTTTAGCATCGCTCTCTGCCTGCCACAGAGTTCTCCAGGCCTATTTCATCTCTAAAG
CTAGCATTGATATCGGTTTCCTTTTCTTTCATTATAATATTTCCACTTTCCTACTGCTTTTTGTTAATATTAATAATTTTTGTATTTATGTCTGCCCAAG
CTCTGTACCTCATATTTTGATGTTCATAAGAGTCTCTTTTTGTCTCACTTTGCTTTATCTGCCACGCCTTTCATTTCACTCCAGTTAACTCAGATTTTCA
ATATTTTAAGACTTAAACAGTGAATTGAAGTGAAAAATAGAAGTTTATTTAAAATGCCCTATTTTAAAGTGGAGTCTTCTTGTGGAGATTCAAGTCATGG
CAGACCAACTTCACAGAGCTTCTAAGGCCTCCTACACACACTGCCACCCCCCAATCAGGCTGTCTTCCCTCCTGAGGCTGGACTGGGGCTGCCTCTTGGG
GCCACCTGCCCCAAGGTTGCCGCCCACTTTGGTCCATTGGCCTGGCCTGTTCTGATCAAAGAAAATAAAAGTGTAGTCTTGAGGGGATAGGAATCTAGTG
TAATAATAATTACTGGCAATTATATAAAGGTATTTTCTTTCAGTTAACCATGTGCTTTCATGTGAATCATTATGCATAATTCTTATAAGAGCCCTGTAAG
GCTCACAGAAGCATGCCCCTTTCATAAGTTAAATGAGGCACAAAAGAAATTGAGTGCATGGTCAAAGAAAAAGTGACAGAAACAAAACTTGATCCCAGGT
GTGCTGGCTCAGAAACCTTTTGCACTGTACCCCACTATCACCTAAGAAGACTTGATATAAACTTTATTTGAGATCTGAGAATAATCTGTGCATAGAAATT
ATATTTTTGAAGACTTAATATAGTGATGAGTGCCTGCTTTATAAAAACAAGAGAGTGGGTTTGGACTATGGGCATTCTCCCTGAGAAGCATTCTCCTCAC
TTCATTAAATTTTGTGAGGGCAATGAAATTTTACTCTTTGCTGTTCACTTGTCACATGTTTTAGGTGAAACAGTGGATTGAAACATAAAACGATTAGTGA
ACCAAATGCATTTTGGATTTCAAATTGTGTTTGTGTGTGAGTGTGTTTAACTGCAGGGATTGGCCATCATTCAAGTGATTTGTCAGGATTATTCTGGGAT
TTTGGTTTTTAGAGAGTGGCCAAGCACTGCTCAGAGTAGAATAAATGGAAATTCATGATTATTTTAAGGCATTCTAGGACTTTCCTCACCGCCCCAAAAA
AGACAAGACTTATTCAGAGGGGCGGAGGAGGGGCATGCTGCCTCTAAATCTTCATTTCATCACATTGTCTAAAAGCCTAGTGTGATAATTGCATTCTCCA
GTACAGTTAATGTTCAATTGAATTCTTGCTTGACTTCTGTTTTTCAAAGGGTATGGTAAGAGAGACAATGCTGCTTTTAAAAAATTGTGAATAAGATATC
AAAATGCTAACAGTGTTTGCCATTAGATTATGCGTGTCTTTCCTTATACAATTTCCACAGTATGCTCCTTATGTTAGACAGATTCGTTTTATTAAATTGT
TTTTATATTTTTTTTAACTTGTGGACAGTTTTTTAAACATGTGGGAGGAGTGAAGGAAGATAAGTTTGTTTTACTGGATATGATTCCGATGGGAAGAAGG
CAGCTCTATGCAAGGCTTTTGATAGCCAGAGGGCTTATGAATGCATACGGATAGGGAAAAGGGGGATCCTGGAGGTGAGAAAAAGGCACAATGAGGCCAA
TTTGAGACTTTTGACCAGTGTGGATCAGGAGCTACTTGGCAATGTCATTGCCAGTACCAGTTGTGGCAAAGATGTTTTGGGCAATGTCTCCCGCTGGACT
GTACTGGATAAAGTAGTGGAATATTTTGGTTCCCATGTTGTAGTTGTAGGACCATTGTCTGTGGAGTGAGAAGACTGGTTGAATGCTGACTTCACAGACT
GTTGTACCTGCCTCCATACCACCAGCACCCACACACACATTTTTGCTGCTTCTATGATCAAGAACAAGTTACTGAATTACCTCTAGGTCCATGGTTGCAC
ATATGAACCATAGGACCAGTGCTACCTTTTACCTCACAATTTTGTTAAAGAAATTATAAAATTTTTGTATAAACACTTCATAACACGGTAAACCATACTC
AGAGATTGGCCTTTTTGACCGCAGTTAATTTTTAATAGTTCTACTTGGCTATGTTAGATAACAAGCTAATATTAAACTTGAATCCCCTAAAAGATGCGTC
CCCCAGAAGTTCAGAATACTCCAGTGTCCTTGAGTTTCATGTAACCAAACACCTTTAACCTAAAAAATAAAAATTCTGTGGGAAGAGGTATGGCATTAAT
GGTTAAGCACATGAGCTTTGGATTCAAAAGACCTTGGTTCGAATGCTTATCTAGAAGTGTGGCTTTAGGCAACTTAAGTCAACTCTCTAAACTTCAATTT
CCTCCATCTTTAAAAAGATGTAATTATACCTGCATTCCAGTAGTATTGGAAGTATTAAGTTATATATAAGGTATGTGAAGCACTTCATAAGGCCTAATTC
GTGGTAAATTCTCAGTACATAGTAGGTGTCTTTCCATATACCTTCCTTTCTAAAAACATCTCAGAATTTTTATGTAATCATCAAGGTTATTTGTGAAATG
ATAGAAATTAGTCATCTTCAACTAACAAAGCTGCCGATGTTTAATCCTAACTACTAAATAGTTATTTAATAGAATTTTACTTGCTCTTTTGTCCATATTT
TCCTCTATGAAATTATGTCCACTATCCAAATAGTTAATTTGGTAAATTCTCTTAAGGCCTTTGATCATGAAAGTATCAGCCTCAAATTTTCATAGGAATG
TGTGTTGAATTCACTTAACTGGTGTATTTATAGACCAGGTACCTGAATTATTTTAGACTAACTTTGGGAACAAAAGGTGTCTGCAATGGAAGACACTAGT
TATCAGGAAATTGAGCAGGTGGGGAATGTAGAAAAAGCTAAAGTTGATAAAAGTTTTCAAGTTATCAGAACATTTTATATGACTTAAGAGTTTTTTAAGT
AGCTGTGACCTAGATTTTAGCTTTCTGGAGCTGAGGCAAAAAAGTTAAGCAATAGATCAGAAATCAGTGATAGGGTATTTTAAATTGTGCTTCTAAAAAT
ACGGTGGCTTCTACTCTGACTCATCTGTATGCAGATTGTGCTTCTAACTAAACTACGGATTAATGGCTATTTTCTAGAATCAAAACTAAAATGATCAAGG
AGGTAACTTAGTGAATTGTGCTTTATAACATTAATAGAAGAGTACATCTGTCACCTTAGAAGTTAAGACTTTTCATACTAAAAAAATAAGACCTAGAGAA
TGCACAGTCAATAAAAGTATTAATTTTATATACAAGATAAACATAGACTTTAAAGCTTACACCTCGTCTACCACTGTATATTCAGTACCTGGAACAGTTC
CTTGCATCTGGCAGTTGATCAACAATTCTTTGTTTTTTAATGAAACTAATGAAACATGAAAAACCTAGAATATTAATATTAGGTAAAACAGTATTCTTTG
AAACTTCGGAGAGGTGATTTTAGGACTCTAGACCAAATATTTAAGTAGATTTATAGTTTAGGTAAATTTGTAGATAAGTCCATAATAAGTAATCAAGAAA
TTAAAAGTGATGCCTGACCTTCTGAAAATTTGGTTTTGAGAATACTGGTACCATGATTTTCGAAATATTTCTTGTTGCCATTGTGACAAGCAGTATATAA
TTGGATAAAGGATATTGATTGTGCGGACCTACCATAACATTTCTAATGCAGTAAAGAAGGAATCAATTTTAAGAGGAAGAAAGAACTACAGATATTGTGC
ATTTAAATAATAATTATAGAATGTGAAAGGAGATAAGTAATTAAGGAAACCTATACATTTATGTCTGATGCGAGAGAGCTTTTCAGGAGGAAAAAAACAA
ATTACATATTAAAACCAAAGGTTTAGAATCCCGATTTATCTTTTTTATTATAGCTATGTCTGAGAAATGCTATCTCCCATATAAGGCTTAGAAATTTTCA
TTCATGTTTTAAATTTTGAAATAATTTGCTGATAATTAATTTGTTATAAGAGCTAAATAAATGTCATTATGAAGTTAACCTGCAATGTTGGGTACCTGTT
TTCTTATACCTATGAAAGGAAAACTGGAAAATTTTCTTAGTTTACAGGGATGTTAATGTGACTTTAATTTTTCTCTACCCTTAACCATATACCTTATATT
GCAGAAATTGGAATGGGATTAACAGGATTTGGAGTGTTTTTCCTGTTCTTTGGAATGATTCTCTTTTTTGACAAAGCACTACTGGCTATTGGAAATGTGA
GTTTTTAAATATATATTTTAACTAAATTTATAAGGAAATTTTAACTACGAATGAATTATTATCTGCTATTAAATTTGGGGAAAATAATTCACTATTACTC
ATAAGTAATTCCTGTTACATTCTCTATTTCCATCAGGAATGAAACCTGTCAGCTTTCTGTTTAAATAAAAGGTAAACACTTAATGAGGTTTTCTAATTCC
ATAACTACTCTGTTAAGTGTTTGTCATGAGATTTACAATAGATTAAATGAAGGCTGCCTCTAAATAGGAGTTCAAAATAGATGACTTGATAGTTTCATGT
CTTGATAAATCACTAAAGTATTTTTACTTTAAACATCCAAGACTTCACATTTGATTCAGCTGCATAAGATAGATTTTTTTAACCTTTTTAAAAATATATA
TTTCTATGTTAATGGTTGACTTGCTTAGAAAGGGATCTATGTTGTTTATTTGGAATGTGTACTATGCTATTCATGTGTGGAGGTTATGATCCAGAAATAA
ATAATAACCCTTCTAAGGTAGTGAAGACACTGTATGTGTGTGTGTGTGTATATATATATATACACACACACATATATATTTGGGCTTTTAACTGGAAATG
GGAAAAGATAAAGAATAGCAAAATTGTTCAAAATTGATGTCTTAATAAATGATAATAGCATTAGTATCCTAGAATATGAAGCTTAACCATTAGGCTTAAT
ATGTATTTGTGCGAAATATTTTTCACTAAAGAATGTTAATGGGGAGGGCAAGTATTTGGAAAGAAAACCTGGGGAAAGCAAGCTCTTAATCCATCACCAT
TTCTTGTCCACAGAATACATTCAAAATATTTGAAAACACATGGTTGTATTTTTATTTCTGCTGCCACCAGATATTCTAGAATTTATAAAACTAGAATCTT
CTTGGCTTCACGTTGTTTCTTCTGCTATCAACTTAGCCATGTCAATATTTCTCCCATCCATAGAAACTCCTGTAGCCTATGATGAATATTTCAGAACCAA
GAGGAATACCCTTGGGTGACATATTTATGGGCAGCTTTCCTCTTTATGCCTTGCCAACTCATCTGCTTGACTAAGCCTTCCTCATCCAGCTAAAACTAGG
AAAACTACTGCAGACACAGATGCCCCTTGGTAACGTCTAATCTTTCTTTGTTTCTCTTTTTCTCCATTTAATCAAGATAGAAGAGGAATGAGACAAGTGG
AACAAAGCTACAACTTTAAAATGCATAACCCACTCCTTGGTTCTGCTGCTTGGTTGTACATTACAGTTCTGTCTGGCCAGTTGCCCACATTAAAAGCCAA
ACAAATGTGCTTCTTTTTTTATATTTAGCTTTGACTTTACGTTTAAAATTTATGCATTGTGTTTAATTACCTTTTCCGTGTTGTATTTTCTTTCTCTTTT
AGGTTTTATTTGTAGCCGGCTTGGCTTTTGTAATTGGTTTAGAAAGAACATTCAGATTCTTCTTCCAAAAACATAAAATGAAAGCTACAGGTTTTTTTCT
GGGTGGTGTATTTGTAGTCCTTATTGGTTGGCCTTTGATAGGCATGATCTTCGAAATTTATGGATTTTTTCTCTTGTTCAGGTAAGGCATATTATTGTCT
CTTTCAGTAAATCAGTGTGTCAGATAGTTAGTACAAAAACTCAGATATTTGCATCAGTTGGAGTAAGATGATGATCATTTCCTTAAATGGAATTTTATTT
AGGTTGAATCTTATAGATTTAGATGAAGCAACTATAAAAATGTTTTATCACATGTGAATGATTGCCTAATGGTATAAATTATCTTGTTTTGTCAGCACAA
TAAAGTTTATTTTATTGGCATTTTAAGGCACCATCTTTATGTTGGATATTTGTATCAACTAAATAGTGGTAGGTAGGTCGGTCGATCGATCAATCGGTAG
GTAGGTAGGTAGATAGATAGATAGATAGATAGATAGATAGATCCAGCATTTTGGTGTGTAGAATCTTATACTTCATAGCTACTGCTACTTGATGGAAATT
TATTTAGCACATATACGTATTAGAAGATTGTTTACCAAATACACTACTATGGGAGATTTTGAGCAGGTAATATTTTGTAAATGCCAGTTAGCAGATAAAC
AATAGTATGTGTATATATCTATATGAAAATACCTTTGGCCAGGTGCGGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCGGATCAC
CTGAGGTCAGGAGGTCAAGACCAGCCTGGCCAGCATGATGAAACCCCGTCTCTACTAAAAATTCAAAAATTAGCTGGCCATGCTGGCAGGCGCCTGTAAT
CCTAGCTACTCGGGAGGCTGAGGCAGGCGAATTGTTTGAACCTGGGAGGCGGAAGTTGCAGTGAGCCGATCACACCATTGCACTCCAGCCTAGGCAATAG
AGCGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAACAGAAAAGAAAATAACTTTAAGTAGGGTTGAGCTTAATTATTTATTCCAGAAATGC
ATATCCTTTGTCTTCTGTCTGCCAGGCACTGTATTACCCACAGGAGACATAAAAATAAATTAAGTACCAAATCTGCTTTAGAAAATCTCTCATTTCTATT
ATGGAAAGTAGACTCTAAAAATACCAATAGGATATAGTCATAATGCCATTATAAATGTGTATGCAGAATATTGTGGAAGCATGATTAAAAAATTAGTAAA
TTCAAGGAGAGGTGAGAAATGTTAACTGATAAACTGGGCTTTGAAGAATGGGTAAGAATTTATCCTATAAACGAGAAAGGGAACGACAGTTAACAGAAGG
AACAGACAGGGCCATAAAAACACACAGCTTGTTCTGAAAAGAATGAATACTCTTATAGAACAGGAGCATGTGATCAGTTGAAGGAAATGGTTGGTAATGA
AACTGAAAATGAAGCCTGGAGCCAGGTTACAAACTTTCTTTGATGACTTGTTGAGAAAAGTATACCTTATCCTGTAACCAAATTTGGGCTGGGGGAGCAG
TGTTTGGAGAAGGTCGGGGGAGTGGGGCACAGAGGTTTTTAAGCCAGAGGTGGTACAACAGGGTAGATGTTTTAGGAAGGTTGTTCTGATATCAGGATAA
AGTAGGTATTAAAGAGAAAAACTGAAGTCAGGGGAGCCAGTCAAGAGGCGGTTAATACAGTACAGAATATACAGTGATAAGACTGGAATCTTGGAGTACT
TTTGACATTTTAGGGTAGGTGGAGAAAAAGAAGAAAACACTAGAAGAGACTAGGAAAAGAGGTGGGAGAAGAACTAGGAGTAAAGATCATAGTGGCTAAG
AGAGAAAAGAGTGAAGAAGAGTTTGTTTTGGCAGATGTATCTTGCAGCAGAAAACTTAAGCACCTTAAGAAGTAAGAAAATCATTGGCTTTCCCAGTTAT
GTGGGGGTTTTAGTAATGAAGGTTAAAAGCCAAAGCTGATCTTTGAGATGAATAAAAAATGGGAAGTCTTAGTATCATCGACAAGCTTGGAGTAATACAC
AGGTTTCGTGGTTTAGAGAGCTTTGTGGTATAAATACTAGTTTTTGTTGTTGGGTTTTGTTGTGTTCTGAGATATTCTGAGCTGGAGATTTAGTGCCAAG
GGTCTTTGATGTTGTTTTTCTAGATATTTATAACCCTAAATAATGGCATTTGAAATCACACATTTTTATGTTTTAAAACAATACTTAAAACAAAATAAAT
GATCTTTTGAATTCATTACTACTAGAAAATGATTGTGATTTTCTTTGAAACACGCACATACACCATCAACATAAATACTTGTCTAATTTAAAAATTCTGC
TTTCTGTTTAATTCTTTATTTTGACTTCTGCAGATCCATAACAGAATCTTATTGCTTAACTTCTGAATTGTATTCATTGTAGTATTTTCATCCCTATCTA
ACTCTGTGAAGAAAACAGCTTTTTTTCTGTACTCGTCTTACCACAATCAACACAGAAGACTGCTGTGACCAAATGGGTGGGGGGTTTTCCCGATATCGCA
ATCAGTTAGTTGTCTGCAACAGACAACAGCTGGGTGTCCTCCCAATATAGTTCTGATACTGTCTACATGGAGATAGCTCCAGATCACACAGGTTGAGGGC
TCAGTCCCACAACTGTCCTCCACTCCCAATGATGCCAGCCACAAGCCCCAGGTTGTTTTACCCATGCTTCTGACTGATCAGCTCTAAGTTGGGGTTCCCA
CGATCCCCTGTTTGGATCAGACTAATTTACTAGAGAGGCTCACAGAGCTCAAGGAAACACTGATGTTTACTAGTTTATTATAAAGGATATTACAAAGGAT
ACAAATAAAGAGATGCATAGGGCAAGGAAAGGGGGGAGGGTCGCAGATCCCCCCCCACCCTCCCCAACCCACCATCCTCCAAGAACATCCTTGTGTTCAG
CTATCCGGAAGCTCCCTGAACACTGTCCTTTTGGGTTTTTATGGAGGCTTCATTACTAGGCATGATTGATTAAATTATTGGCCATGAGTGACCAGCTTCA
CAGCCCCCCTCCCCTTCGTGGAGGTTAGGAGGTAGGGCTCAGATTTCCAGCCCTCTAATCTTGCCTTGGTCTTTCTGGTGACCAGCCCCCATCCTGAAGC
TGCCTAGGGGCTGCCAACCATTGATGATAACTCATTAGTATACAAAAAGACATCACCTTGTAGAGACTCTTAAGTATTTTAGGAGTTGTAAGCCAGAAAA
TGAGGTCAAAGACCAAATATATATTTCACAGTATCACTACATATTTTAAGACCCAGGAAAAGTTTAGTTTCTTTGCATTTTTAAAATAAACTATTTCATT
CTCTTCCTATACTGAGGTAGCTTAACTGATCTACTGTCAATTTTAAACTGGTTAGAAGCTGTTTAACTTCTGTAGACTTGTATTTCTACCAAGAAAGAAT
GAGACATACTGTGAGGATCAGTATCTGGCAGGTAGTCTCTTAGTGTTAACTAAATGTTTTGACCCTTAGTACTTACTTAGTAAATGATAGCTATTATTAT
TTTCATGGTTCTACACATATGGTCTCAACAGCCCCTTTCTTTTTATCAGTTTCACCCCACACAACTCATAGTTGGAGAAATCTTCAGCAGTTGAGCTAAC
TCATAATCTGAGTTATATATAGCTAGGCCTCATGTACTTGTCACATTTTTACCAACAATCACAAAATTTTTAATTAAGTTTGTAGTTATTTCTAAGTTTG
AAGACCCTCAATTATTCAGAATTTTAACAGGATACTTTCTTTTTCCTTGGTTAGCAATTATTTTGAAAATAGAAAATGTGTAAATATTAAGAACCTTTTT
TTTCCCTCTCCCAGGGGCTTCTTTCCTGTCGTTGTTGGCTTTATTAGAAGAGTGCCAGTCCTTGGATCCCTCCTAAATTTACCTGGAATTAGATCATTTG
TAGATAAAGTTGGAGAAAGCAACAATATGGTATAACAACAAGTGAATTTGAAGACTCATTTAAAATATTGTGTTATTTATAAAGTCATTTGAAGAATATT
CAGCACAAAATTAAATTACATGAAATAGCTTGTAATGTTCTTTACAGGAGTTTAAAACGTATAGCCTACAAAGTACCAGCAGCAAATTAGCAAAGAAGCA
GTGAAAACAGGCTTCTACTCAAGTGAACTAAGAAGAAGTCAGCAAGCAAACTGAGAGAGGTGAAATCCATGTTAATGATGCTTAAGAAACTCTTGAAGGC
TATTTGTGTTGTTTTTCCACAATGTGCGAAACTCAGCCATCCTTAGAGAACTGTGGTGCCTGTTTCTTTTCTTTTTATTTTGAAGGCTCAGGAGCATCCA
TAGGCATTTGCTTTTTAGAAATGTCCACTGCAATGGCAAAAATATTTCCAGTTGCACTGTATCTCTGGAAGTGATGCATGAATTCGATTGGATTGTGTCA
TTTTAAAGTATTAAAACCAAGGAAACCCCAATTTTGATGTATGGATTACTTTTTTTTGTAAACATGGTTAAAATAAAACTTTTGTGGTTCTTCTGAATCT
TAATATTTCAAAGCCAGGTGAAAATCTGAACTAGATATTCTTTGTTGGAATATGCAAAGGTCATTCTTTACTAACTTTTAGTTACTAAATTATAGCTAAG
TTTTGTCAGCAGCATACTCCGGAAAGTCTCATACTTCTTGGGAGTCTGCCCTCCTAAGTATCTGTCTATATCATTCATTACGTGTAAGTATTTAACAAAA
AAGCATTCTTGACCATGAATGAAGTAGTTTGTTTCATAGCTTGTCTCATTGAATAGTATTATTGAAGATACTAAATGATGCAAACCAAATGGATTTTTTC
CATGTCATGATGTAATTTTTCTTTCTTCTTTCTTTTTTTTAAATTTTAGCAGTGGCTTATTATTTGTTTTTCATAAATTAAAATAACTTTTGATAATGTT
TACTTTAAGACATGTAACATGTTAAAAGGTTAAACTTATGGCTATTTTTAAAGGGCTATTCATTTAATCTGAGTTTTCCCTTATTTTCAGCTTTTTCCTA
GCATATAATAGTCATTAAGCATGACATATCCTTCATATGATCACTCATCTTGAGTTAATTAGAAAATACCTGAGTTCACGTGCTAAAGTCATTTCACTGT
AATAAACTGACTGTGGTTTCTTAAGAACATGACACTAAAAAAAAAGTGTTTTTTTTCCACCGTTGCTGATTATTAGACAGTAGGAAATAGCTGTTTTCTT
TAGTTTTACAAGATGTGACAGCTTTAGTGGTAGATGTAGGGAAACATTTCAACAGCCATAGTACTATTTGTTTTACCACTGATTGCACTGTTTTGTTTTT
TTAACAGTTGCAAAGCTTTTTAATGCATAAAAGTATAATTGAAATCTGTGGTATTTATTTACAAACATGTCTACAAAAATAGATTACAGCTTATTTTATT
TTTAGTTAAATCTCTTAATACACAGAGAACTCCCAATCTTGCTCATCTAAATAAGGAAAGACTTGGTGTATAGTGTGATGGTTTAGTCTTAAGGATTAAG
ACATTTTTGGTACTTGCATTTGACTTACGATGTATCTGTGAAAATGGGATGATATTGACAAATGGAGACTCCTACCTCAATAGTTAATGGAATAATAAGA
GGCTACTGTTGTGTCTAATGTTCTTCAAAAAAGTAATATCCTCACTTGGAGAGTGTCAAATACATACTTTGAGGATTGACTTTATATAAGGTGCCCTGTA
GAACTCTGTTACACATATTTTTGACCCATATTATTTACAATGTCTTGATAATTCTACCTTTTTAGAGCAAGAATAGTATCTGCTAATGTAAGGGACATCT
GTATTTAACTCCTTTGTAGACATGAATTTCTATCAAAATGTTCTTTGCACTGTAACAGAGATTCCTTTTTTCAATAATCTTAATTCAAAAGCATTATTAG
ACTTGAAAGGGTTTGATAATCTCCCAGTCCTTAGTAAAGATTGAGAGAGGCTGGAGCAGTTTTCAGTTTTAAATGAGTCTGCAGTTAATATCAAATGTGA
GTTTGGGACTGCCTGGCAACATTTATATTTCTTATTCAGAACCCTTGATGAGACTATTTTTAAACATACTAGTCTGCTGATAGAAAGCACTATACATCCT
ATTGTTTCTTTCTTTCCAAAATCAGCCTTCTGTCTGTAACAAAAATGTACTTTATAGAGATGGAGGAAAAGGTCTAATACTACATAGCCTTAAGTGTTTC
TGTCATTGTTCAAGTGTATTTTCTGTAACAGAAACATATTTGGAATGTTTTTCTTTTCCCCTTATAAATTGTAATTCCTGAAATACTGCTGCTTTAAAAA
GTCCCACTGTCAGATTATATTATCTAACAATTGAATATTGTAAATATACTTGTCTTACCTCTCAATAAAAGGGTACTTTTCTATTAATTGGTGGTCAAGT
ATATCTGTGTTATGAAGTTCTAAAAGCTAATTTAGCATTGCAAAATAACCTCATTTTTAAAAAATTAGCCTTATATGCAGTGTTCTATTTATCAAATGAT
CTTCACATCTTTCATTTCCAAATTGTTGAAATGTACTAATGAATACAAATAGACTTCAAGTAAGCAAAAATGTTCTTAATTTTGAAAACTGTAAAATAAA
GTCACTTACCTTGGGCAATATGCTATTTTTTAAAAATCAGACTCCCAGTTTGTATATTATGTTATTCAATAGACATTTTCTGAGTACCCCTTGAATACTA
AAAGTCCTGTGTTGAATGTGGGAGACCCAGGAGAACAAGATATGTGCCATCTGCTCATTAAGTGCTTAGAATGTTAACATTGCTTTTAAATTCTTAGCCG
TATTTCCACATAACTTGTCCTGACTTACACTGCAAACAAATGGTGGTAGAAGAATTTGCAGTCGAAACACCCCAACCTCTTATTTTTCTCCCAGTCAAGA
GTTACTAGAACTATTCAACCTTCAGCTGTGTTGAATAGTTTTAGTAACTCTTGACTGGGAGAAAAGCTGTGTGATTGGTTCGCATTTTCAAAAGATGTCT
GGAGGAAAAAAAATAATACCAGCTTTAACTCTGGGAGGTTTGTTTTGAGATGTAATTTCTTTTGCAAGTCTGTATATGTATTCAACTTAATGTAGCGTAT
GTTTTTGGTTTCTTTGTGGCAGGGGGAAGAGAATTGTTTTTAATGTAGGCCTAGGGATTTAGAACTGTCACTGCTATTTGTGTTGTCTGGAAGCCTGCCA
CCAAATCTGTATTGCCACAGGCAGTTGGGGTAGTTTTCTGAAAGCTGCTATGATTGCTACCATTAATTGCAAAGTTTAAAAAGCGGTGAGGGAATTTAGA
AATTAGAGGAGAAATGCTTATATATTTTTTCTCAGGATGGAAAGGATCTTAAGTTTTTCTCACCTAAATAAGACCACAACACCTACATTGTTTTAACTGT
AAATTTTATTAAGGCCGAAAAAAAACACTGGCCAAGTCTACCACTTAACATACCCAGTAAGTATTTGTTGAATTCACTAATTAAGCTGCAAATCCAGACT
ATTGTTGGGTAAACGGGAAGTCTTGAATCTGTTATTAAATATCCAGCATATTTCTCTAATCTTGACCTGAGCCAAAAGGCCCCAACCTCAGTTCTTCTGT
TACCTGTATCCATGTAGGAGATTGGACACTAGCAGCATGCCCAAAATTCTTCATTGACTAACATGCGTTTCCATGACCTTAGCTTTACTCAATTCTCAAG
GCCTGATTAAAATGTCACTGCTGTCATATCTTTCCTTACCAGCTAGGCCCAAACAGTTGCTCCTTCCCTGTCCTCTCATACAACTTTCCACTTGCTTTGT
ATTGATTTGGTTATGGAAAAGATTCTTGAGGTTCGAAATCTCCTCTTTGATTTGTATCTCCAGTTCCTGGCATTTAGTGGGTGCCCAGTAAGTGGTTTAA
TGAGTGAAAGTTCATTCTTCCAGCTCTTCTGGTGCTGGCCCCACTGATCACTTCTTTTTTTTGTTTGTTCGTTTTTGTTTTTTGAGACTTGCTCTTGTCA
CCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAGCCTTCACCTTCTGGGTTCAAGTGATTCTCCCGCCTCAGCCTCCTGAGTAGCTGGGATTA
CAGGCACCCGCCACCACACCTGGCTAATTTTTGTATTTCTAGTAGAGATGGGGTTTTGCCATGTTAGCCAGGCTGGTCCCGAACTCCTGACCTCGTGATC
TGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGCTTGAGCCACCATGCCCGGCCTGATCACTTCTAATATATTGAAATCAGCCTCTATCAGCCGTA
AAGTTAAATCTAATGATCTGGCCCCCGCTGAAGTCCACCTTTCTACTTCACATTCCTTAGGACTTTACTGTACCCAGTAGCTTGTCAACGGAGAGAGGGA
TCATAGATAAAAGAAAGACCATGCCTCCAGATTGGCTGCCCTTCTTCACAAAAAAGGGAGGCCGCTGGGGAAACCAGAAGCTACTCCTAAAGTTTTGAGG
CTGGTGTGAATCACTGATACTCAGTTTTCCTTTCTTTCCAATAGGAAATGACGAGTTTCTTGGGTTTTGTTGGTCACTGGAGCTGGTATTACAAAGTAAA
ATTATCCCAAAGAGAAAATGAAATTTATTCCTTAAGTGACAAAAGCCAGAAATAATACCCTATGACAAGAGGGATCACTTGCACGATGGTCTTTTACATA
TATGAATTAATACTGATAATAATGGGTAATTGAATCCCTGAAGAAGACTCGTCTGATGTGATGTGATCCCATGAGGTGACTATGAGTTCTGTGGCGGTAT
AAAGACCAGTCTTGGTGCTAAAACACTAACTCTACCATTTAGTGTCATGTCAAGTCAAACTCTATGAGTATGCTCTTAAGTGAAATTCAGGATCTACTGC
ATGAATTTGGTGTGAAAAATGAATGTAACAATGGGTGTCAAAGGGCTTTCTCAAATTTAAAGTGTTGTGAAAATAACATGTGTTATTGTCCTGAGAGTAT
TTCTGGCCCAGTGATATAGATTAGAAGTAGGACAACTAACTATCCCATCTTCCTATTGATCACACCTGGCAACAGCTGGTATTCAACCTAATTCACATTG
TAGGATTATGGGATCATTCTTCACATTTCTGAGCTACCAGTGTTTATATGGCTCAACATTTCCAAAATGTTGAGTATTAGTGTTTTGTTGTTTGCATCTT
GATCCAAGACCTTTTTGCTATATTTGTCCTCTGTCTTTGTGCTGCTCCTACGTAGCATACACCATTAGCAGCCATGTCTTATGAATTATCCTGTAGTAAT
GGTGGGTGTATATTAATTCATATGCACTATTCTGTCATTTTGGAAATGAATGGTAAAACATTTTAATCCAGAAGTTAGTATGAAATTGGTGAACTTGAGT
CTTCCCTGCTTCACTTTTATCTACCCCAACTCCCCCTAAACAGTACTTATCTTAACTCTCCTCAGAAAACCAATATCTTCATATTTTCTCCTCCTCCCTA
TCTGCAGTTCTGGAGAAAGGATCTGAAACAGTCTGTAAACAAAGAATTGCAATATTATCTGCTTCAGGGTGTGAGCTCATCGGGAATTAACGTGTTAAGT
AAAAGGAAACCCAGGTTAAGACATTGGCCAATTAATGGGAAGTTTTATTTTGGATAGCAGGCCTTCTTAATGCCCCTAAAGCCCCTCCTAAAACTGGTAA
CCCTTTGGGGAAATGACTTCTTTCATCTGATGATGAGACAGCTGGCCTAAGGGGCTGAATACAAGCCCCACAGAAGATTGAACCCATATCTTTATTCATG
TTATCCAACCCAAATTCTCTCTATGCTGTCATCAAAAAGTAATTTAGGCATTTTGTACCATAATAGCCATATTGTCCAGATAACCTTATCCAAGATAGCA
GCTGTTTTCCTTGTGAACACAATAATCACTGACCTTGAAAGAATGTCATTTAAACAGTGACAGGTGATCACTGGTTAAATAGGTTCTGGGCACTCTACAG
TCGACTACAAGAATCCAGGTAACAGTGATGAATTCAAAACAGTCTTCATTGAATGTGCCTTTAAAAAAGGCTTAAAAGACCATTTGTTCAACATCTACTG
CTTGCTCATACTGTCAGGAGAATAAAATTCAAGGGCTTTACCTATCTTGGATTTTTGTTGTTGTGTGTTTTGTTTTGTTTTATACCAAATATTGTAACTT
AACCCATGTCTTGTTTTGGACCTGTAAAAACCCTAAAAGCTTTGTGATTTAACAAAAACATTCTATTGGGGTTCAGTGCCCTTTGGAAATCCTTTTAGAA
GTAACACATTCTAGCATGTTACTCTTGATAAGACTGCAATATTGATAATATGTCAAAACCATTCCCTTCTTTTGTGCACATTAAACTGAAAATGGCAGCT
TTGACGTAAGACATCTGCTTGTGAATTCATTAGCTAAACTATTATCAGCAAAG
In silico ORF/peptide predictions
Nothing found.
RiboTaper predictions from Ribo-Seq data (HEK293 cell line)
Nothing found.