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 |
---|---|---|---|---|---|---|---|---|
ENST00000359543 | epithelial membrane protein 2 | protein coding | TCONS_00033439 | 625 | 309 | UTR3 | Trans | |
ENST00000376020 | shroom family member 4 | protein coding | TCONS_00033439 | 562 | 314 | UTR3 | Trans | |
ENST00000382142 | myotubularin related protein 12 | protein coding | TCONS_00033439 | 554 | 292 | UTR3 | Trans | |
ENST00000424496 | sense_intronic | sense intronic | TCONS_00033439 | 590 | 294 | noncoding | Trans | |
ENST00000441159 | family with sequence similarity 115, member C | protein coding | TCONS_00033439 | 901 | 778 | UTR3 | Trans | |
ENST00000482603 | glyoxylate reductase/hydroxypyruvate reductase | processed transcript | TCONS_00033439 | 582 | 283 | noncoding | Trans | |
ENST00000494969 | colony stimulating factor 2 receptor, alpha, low-affinity (granulocyte-macrophage) | protein coding | TCONS_00033439 | 592 | 302 | CDS | Trans | |
ENST00000498813 | delta(4)-desaturase, sphingolipid 1 | processed transcript | TCONS_00033439 | 536 | 310 | noncoding | Trans | |
ENST00000524264 | SAP30L antisense RNA 1 (head to head) | antisense | TCONS_00033439 | 603 | 305 | noncoding | Trans | |
ENST00000547865 | spermatogenesis associated, serine-rich 2 | protein coding | TCONS_00033439 | 515 | 309 | UTR3 | Trans | |
ENST00000620139 | melanoregulin | protein coding | TCONS_00033439 | 585 | 310 | UTR3 | Trans | |
TCONS_00001594 | lincRNA | novel protein coding | TCONS_00033439 | 665 | 296 | UTR5 | Trans | |
TCONS_00021902 | protein tyrosine phosphatase, non-receptor type 14 | novel protein coding | TCONS_00033439 | 790 | 867 | UTR3 | Trans | |
TCONS_00021903 | protein tyrosine phosphatase, non-receptor type 14 | novel protein coding | TCONS_00033439 | 790 | 867 | UTR3 | Trans | |
TCONS_00023682 | pre-mRNA processing factor 18 | novel protein coding | TCONS_00033439 | 1255 | 829 | UTR3 | Trans | |
TCONS_00023685 | pre-mRNA processing factor 18 | novel protein coding | TCONS_00033439 | 1255 | 829 | UTR3 | Trans | |
TCONS_00023687 | pre-mRNA processing factor 18 | novel protein coding | TCONS_00033439 | 1255 | 829 | UTR3 | Trans | |
TCONS_00023689 | pre-mRNA processing factor 18 | novel protein coding | TCONS_00033439 | 1255 | 829 | UTR3 | Trans | |
TCONS_00030130 | calcium/calmodulin-dependent protein kinase II gamma | novel protein coding | TCONS_00033439 | 604 | 308 | UTR3 | Trans | |
TCONS_00030588 | cytoplasmic polyadenylation element binding protein 3 | novel protein coding | TCONS_00033439 | 556 | 298 | UTR3 | Trans | |
TCONS_00030591 | cytoplasmic polyadenylation element binding protein 3 | novel protein coding | TCONS_00033439 | 601 | 303 | UTR3 | Trans | |
TCONS_00039782 | GRAM domain containing 1B | novel protein coding | TCONS_00033439 | 654 | 301 | UTR5 | Trans | |
TCONS_00039782 | GRAM domain containing 1B | novel protein coding | TCONS_00033439 | 609 | 276 | UTR5 | Trans | |
TCONS_00057601 | transcribed_unprocessed_pseudogene | novel protein coding | TCONS_00033439 | 565 | 294 | UTR3 | Trans | |
TCONS_00067572 | DCN1, defective in cullin neddylation 1, domain containing 2 | novel protein coding | TCONS_00033439 | 630 | 304 | UTR3 | Trans | |
TCONS_00080928 | SH3-domain GRB2-like 3 | novel protein coding | TCONS_00033439 | 626 | 293 | UTR5 | Trans | |
TCONS_00090929 | nucleoporin 93kDa | novel protein coding | TCONS_00033439 | 604 | 302 | UTR3 | Trans | |
TCONS_00095049 | epithelial membrane protein 2 | novel protein coding | TCONS_00033439 | 625 | 309 | UTR3 | Trans | |
TCONS_00095050 | epithelial membrane protein 2 | novel protein coding | TCONS_00033439 | 625 | 309 | UTR3 | Trans | |
TCONS_00095052 | epithelial membrane protein 2 | novel protein coding | TCONS_00033439 | 625 | 309 | UTR3 | Trans | |
TCONS_00099311 | solute carrier family 7 (amino acid transporter light chain, L system), member 5 | novel protein coding | TCONS_00033439 | 606 | 316 | UTR5 | Trans | |
TCONS_00099312 | solute carrier family 7 (amino acid transporter light chain, L system), member 5 | novel protein coding | TCONS_00033439 | 606 | 316 | UTR5 | Trans | |
TCONS_00116668 | desmoglein 3 | novel protein coding | TCONS_00033439 | 513 | 311 | UTR3 | Trans | |
TCONS_00118919 | potassium channel tetramerization domain containing 1 | novel protein coding | TCONS_00033439 | 618 | 305 | UTR3 | Trans | |
TCONS_00119961 | ring finger protein 152 | novel protein coding | TCONS_00033439 | 722 | 299 | UTR5 | Trans | |
TCONS_00132247 | zinc finger protein 43 | novel noncoding | TCONS_00033439 | 641 | 305 | noncoding | Trans | |
TCONS_00132247 | zinc finger protein 43 | novel noncoding | TCONS_00033439 | 620 | 297 | noncoding | Trans | |
TCONS_00135884 | zinc finger protein 347 | novel protein coding | TCONS_00033439 | 614 | 311 | UTR5 | Trans | |
TCONS_00148048 | potassium voltage-gated channel, subfamily G, member 3 | novel protein coding | TCONS_00033439 | 507 | 307 | UTR3 | Trans | |
TCONS_00148484 | EGF containing fibulin-like extracellular matrix protein 1 | novel protein coding | TCONS_00033439 | 578 | 310 | UTR3 | Trans | |
TCONS_00148704 | WD repeat containing planar cell polarity effector | novel protein coding | TCONS_00033439 | 1007 | 822 | UTR3 | Trans | |
TCONS_00148705 | WD repeat containing planar cell polarity effector | novel protein coding | TCONS_00033439 | 1007 | 822 | UTR3 | Trans | |
TCONS_00174508 | calcium-sensing receptor | novel protein coding | TCONS_00033439 | 604 | 298 | UTR5 | Trans | |
TCONS_00186316 | KIAA0232 | novel protein coding | TCONS_00033439 | 619 | 319 | UTR3 | Trans | |
TCONS_00192322 | tec protein tyrosine kinase | novel protein coding | TCONS_00033439 | 629 | 314 | UTR5 | Trans | |
TCONS_00205414 | prolyl 4-hydroxylase, alpha polypeptide II | novel protein coding | TCONS_00033439 | 583 | 290 | UTR3 | Trans | |
TCONS_00213181 | tubby like protein 4 | novel protein coding | TCONS_00033439 | 595 | 299 | UTR3 | Trans | |
TCONS_00213191 | tubby like protein 4 | novel protein coding | TCONS_00033439 | 595 | 299 | UTR3 | Trans | |
TCONS_00219453 | WD repeat domain 27 | novel protein coding | TCONS_00033439 | 626 | 311 | UTR3 | Trans | |
TCONS_00225245 | family with sequence similarity 115, member C | novel protein coding | TCONS_00033439 | 1024 | 916 | UTR3 | Trans | |
TCONS_00225248 | family with sequence similarity 115, member C | novel protein coding | TCONS_00033439 | 1024 | 916 | UTR3 | Trans | |
TCONS_00235393 | processing of precursor 1, ribonuclease P/MRP subunit (S. cerevisiae) | novel protein coding | TCONS_00033439 | 612 | 295 | UTR5 | Trans | |
TCONS_00256068 | shroom family member 4 | novel protein coding | TCONS_00033439 | 593 | 305 | UTR3 | Trans |
>TCONS_00256068 (23223 nt)
GCTCGGTTGAGGCGCGGCCCAGCCGCAGCCGCAGTCACAGCCTCAGCCGCAGCGGCCGTGCTACCTAGGTGATAGCGGAGCGGCTGGGTAGGAAGCAATT
GTTCTCAAACTTCACTAGCCCCGTCGGCGCGGACGCTTGTCGAGAATGCAGATTCCTGGGTACTGCCAGATACGAATTGAGCATACCACAAAAAAGTTCT
CATTTTGTGTCCTCCCATCCCATTCTCCTCACTAACCAAAGGCTAGGAATTATCTGTGAATGTAGGACCACTGGATTTGCAGTCTTCATCTGACACTGTG
GAGAGTTTCTAGGAATGAAACAGATATATGGCCTTGGGTCCCCTTTTTTTTTCTTTTTTTTTTTTTTAATAGAGACGAGCATCTCACTATGTTGCCTAGG
GTAGTCTTGAACTCCTGGCCTCAAGCAATCCCCACCCGACTCCGCCTCTCGAAGTGATGGGATTACAGGCATAAACCACCACGCCTGGCCAGAAGGTGCT
TTAACACCAAATCTGAAAATTGTTCAGAAGAGAAACATTGAGCATGAACACCATCTGTGCGAGTCATTTACTTATTGCCCCTCACCTCTAAATCTACCTT
CTGTACTCTTCTTCCCTGTAATGATGGGGCTAGTTGTCCTCAAACTGTTTCTCAGACTTCTTTTTAAGCTTGCTTCCTGTTCAGTTCTGCCAATAGGGGT
CACTAGAGAGAGACTGGGAGGCAGAAGGAGAGAATATGCTTCCTGTTTTTTCTGTTCTTGTTAATGTTGCTTACAGGACCAGCAATGCTTCTTCACCTAG
AGACACTTCTCCCAGCAGTGGCAGTGCCACTTCAGCTTCTTTCAGCACTACTGGAATCAGCCTCAGTGATTCCCCCTGTACCCGCTCAGAGATTATCCAC
AGCAGCCAGATGGTTCTACCTTCCACAAAGATTGTGGTTGCAATTCTGGGCTTCTAAGTTCTGGTTACTTCATATTTTTCCTTTTGTTCCTCCAGCCCTA
GAGGTGGTAGCTGCTTTCTGAAGTTATTATTTCTAGATGACTTTTGGTTTTTCAGCCTTTGTATTTTGCTTTTCAGCCCTCTAATGCCTGTATAACCAAT
TTCCCTGTAATAAATAAATTTCCTCCATTGAAATACCTAGTATGGCTTTTTTTTTGTTTGTTTTTCTGACTGGACTGACATAAAGAGGACTGCTCATTAT
ATGCCAGCTCAGAACCACTTAATTATGAAAATAGTATATTCATTGTCTCCACTCCTCCAAAAATTCTGAGATTAATTTGTAGATGTCGCCGGCCTTGAAT
GAAATGCTTAGTTCCTTGCCAATGGAAAACAAGATTCTGGTAATCTATAACATAAGTAGGATCATGATTAATTAAAGTATCATCTATGGTTTCTTGGGAA
AAAATACCTATTGAAGTAGTTGCCTTCAGGGATCAAGTGGCTGCTGCATTTTACCATTGTGGTAGTACAGATGACAACAAGGACTGTGAGTGGGATGACA
TCTATGCACTGGAAACCTTACAGGCAGAAAGTGACAAATTGAAGACTTTGAAGTCTAAGTTCAAGTCAAATTGAGACAGAGAACTTCTATAGCAACTTTG
AAAAAAGTTTCTGATTTCTTATAGCTATAAGATCAACATTATTAAAAATATAACTAGGTGGGTTGCAGAATTAAAATGGAAATTAAATTTAGAGACTCAT
CAAGTCATTTATGTGACAATCAGGGCACTGGGAGCAAGCGGGATTCTAAGACTTGCGTTGGACTTGGATGAAGCTAAATGCCCAGGTCCCTCTGAATAAG
CAGAAGCAGTCCCTCTTATAACAGAGAAGATTGCCAGGCGCGGTGGCTCACGCCTGTCATCTAGCACTTTGGGAGGCCGGGGAGGGCGGATCACCTGAGG
TCGGGAGTTCAAGACCAGCCTGACCAACACGGAGAAACCTTGTCTCTACTAAAAAAATACAAAATTAACCAGACGTGGTGGTGCATGCCTGCAATCCCAG
CTACTCAGGAGGCTGACGCAGGAGAATTGCTTGAACCCGGGAGGCTGAGGTTGCGGTGAGCCGAGATCACGCCATTGTACTCCAGGCTGGGCAACAAGAG
CGAAACTCCGTCTCGGGAAAAAAAAAAAAAAAAAAAAAGGCTGGGTGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGTTGCGG
TGAGCCGAGATTGCGCCATTGCACTCCAGCCTGGGCAACAAGAGCGAAACTCCGTCTCAAAAAACAAAAACAAAAACAACAGAGAAGATTGACCTTTCCT
TCTTGAAAACTCTATAATCAATTCATCTGAAGCAGCTGCCTTACAAGGGATACTTATTATCCTCAAGACCCATCCCCATTGCTGATTATTTTTTAGTCTA
GACCTAAACTTGAGTTAGATCTCAGCATACTCAAACAGAATGGAGATTCAGACCTGGGGATAAATTGCCTATACCTAAAAAAAAAAAAAAAAAAAAAAAA
AAAAGCAGGATTTTGATAATTCATATAGAAAAAACCAAGAAAATATGTGTGAGAATAGTATACAAGGGTGTTAGGCTAAAAGGAACAGAATATAATTTTG
TCTCAGGATTAACATATTGATATAAGAACATTTACCAGATAGTCTAGATTTAATGTTTTAGATAAAGCTAGAAATGGCTCTAATAGCTTTCTGGAATGAC
TAAATTTTTGCCTCATTGATGGCCTACATTCGATGAAGTTTGGTGCCATAACTTCTCTTGCATAATATTTGAAAGGACTCCAAAAGCTAAAGAGATAGGA
ATGTTGGAATAGATTTTCATATGAGACCAGTGTACCCATTTCTCTCTCCTACATCTTTCAAGAAGTCTCAGAGGAGATTTCCTTCCCTAAAGCAAAAAGA
AAAACATTAGTGAGGAAGATACGAGGATCCTTGACAAGCTCTGTGGTGTGTGTTCTTTATAGCCCAGGAATGATCATGGAAGATACTGGCATTGAAATGG
ACATAATACCACCGTTTATTCACCTTAATAATATTTCTCTGCCCGCTTTTCTTTCATAAACACACGTGAAGTCCTATTCTTCTGGAGCAAGAGGAATTGC
TAGAGGAAGTGAAAAGTGTTTGCATTTCAGATCTCTCTTATTTTTGCCATTGACTGCTGAAAAATTTTGTCTAGCTACTCTAGGGAGAGGTGGGAATTTC
AAAGATTGCTGAAGATAATAGCAGACCTGGCCCAAGTGTTCTCAAATCCTAACTCTTAGTTACTAAAATGAAGATGAAAAATGAGGGCAGTTATACAAGA
AACTAAGATAATGTGTTATCAGTTAGGACTGCCATTTTTCCAATTCTCCTAGGACCTGTAACTCTACCAATGACACCCTTTTAAAAATTTCAAATTAAGT
CACCAGAATTGAGATAGAGAAAGTAATTTTATCACTCTTCAAAGAAACTACATTGGATTTTTCTGGAGAGCCAAGCCATTTCACTGATAATTTTAGTAGA
ATGATTTGCATGTTCTCAGAATTTTATTGAAACATTATTGATTTACTGAAGGGCCTTATCACTGACATAGTAATAATTTGTTTCCTTCACTGAAAATAAG
AAGTCACTTTTAAAAGGAAAAGAAAATTTGTGATAGTCTGAAGGAGAATGTATCTTGTAGCAGATTCATATATATCTAAATTTAAAAAATTCAATACCAA
CTTGTCCATAAATGCACCAAACCTTGGTTAATACATAGAACTCTTGGTGATTAAATGCTTAACCATCATCATCTGTAAGAATCCAAATGCTTGTCCTGAG
GCTTTGCCTGTGCCTTAAAATCCTACATATTAGTACTTTACCATCTTTACAGCTCAGGTCTTGTAAATCCTAGGGCGCTAGGGGAAGAAAGTACCTGCCA
GGGTATACAAACTCATGGTATGTTTGCCTAAGGGTAGGGAGCCATAAAACTGGCAGCAGGCGATTTTCTTTTCTTTTTATTATAGGTCATGCATTTGATC
TCCCTACTTTTCTCAAATTTGTATGGGGCCGGGCCAGCAGCTCTGCATTTGAGTGGGTTGTATGGGAATGCTTTCATTTTCTCTGCTAAACCTGCTCTCA
AATTATCACTTTCTAGCATCTACTGATGGATCTTAGGGATGTTCATGTTTCCTAAGAAATTTAGCCCCATAAAAGGTATGAAGAGATTTACCCAAGTAGC
AGATAAAGTTAAGGGATGTCACTTCCATGATGTGCAACTCTCCCACTAGGGTTGCAGCTGGGACACTATCAATATTCACTTTTCCACCCCTCCCATCTCC
TTTTTACCCCTAGCCATGGCAAACATGGAATAAATACAGCACCGATTCTCCACATTTTTTATCTCAAGACCACTTTGCACGCTTAAAAATTGAAGATTCA
AAGGGCTTTTGTTTGTGAGTTGCTGTATTAGAAATTGAAATGAGAGAAATTTTTAAGAATTGATACATCCTAAAACACAATAATAAACCTACTACATGTA
AATATAAATAACATATTTTATGAAAAAGTACTGTTTTTCAACACAAGAAAATTAAAGAGTAGCACTGTTTTACATTTTTACAAATTTCCCTAATGACTGC
TTAACAGAAAACAGTTGGATTCTCAGATCTGCTTCTGCAATGGGTCTATTGCAATATATGGCTTTGGTTGAAGTATATGAATAAAATCCAGCATTACACA
GATATGTACTTGAAAAAAGGAGGAGTATTATAATAACTTTTTCAGATAAGTGGGGATAATCTTCTTTGATACTACACCAAAACTGGACAAGTCCTAGCTA
GTTTCTTAAAGGATGGTTCCAATGTGGAATCTGAAACCACAGCAGTGAAAGTTATGTAGTCTATTATGTTAAAATCTAGTGCCCTATTTTGTACCTTGAA
AATTTCTATTACCCATGCATGATTTTGTACCATGATGCACTGGCCATTTGGAAAATATTGGTTCATTGAATTATGCATATCTTTCAAATGTTGACACATT
TCTTTGTACAGCATCAAAAACCACATTCATTAATATTACCACTGATTTCATTAAAAAAAGTCATAGTATTGTGATGATGTCAAGCTTATAGTGGCATATA
CAAGTTTCCCAAAATTCCAATTTTTGCTTGAAAGCTAGAATGTTATCATTGGATACAAATACTGCCAGTTGTTTTTCTTGCAGACTCACTTCATTCATTT
TTGAGAAAATGTCTGACAGATAACCAAGTCTGAATTACTGTAGTTTGATGTCTTGTTCTTTCAAGAAAAAAATGGTGTTCCGTAAAAAAAGCAGCTAATT
CAGCTTGCAGCTCAAACAATTAATTGTACAAGTGCTTTTTCTTGAGATAATCATTAGATTTTGGTATTCAATAGAAGTGCCTTATACATCCCATTTGGTC
ACACAGAATGTTAAAAGACCCAAAGGTTGAGATTTTGATGACATTAATAATTTTTACTGCTTCACCAGGGCATTCTTATGTGAAACAGTTTTTTTCCCCC
TCCTGTGAGTACCTGGCGATAAAGAATATAATGACTATTAGTATCAGTTAAGTGTCTGCTTTGGTTTAAATGTTATTGTTTCCTCTAAAATTCATGTGTT
GAAAACTTAATCCCTATGGCAACAGTATTGGGAGGTGTATGGATTAATGATGTTATAAAAGGGCTCACAGGAATGAGAGTGGCCTTCTCTCATTTCTGCT
CTTCTGCCATGTGGGGACCTGGCCTTCCTCCCCTTCAAAGGACACAGCATTCACGTGCCATTTTGGAAGCAGAGAAACTGGGCCTTCACCTGCCAATGCC
TTGATCAACTTTCAGAATTGTGAGATAATTAATTTCTGTTCCTTATAAATCATGTAGTCTCAGTTATTCTGTTATATTAGGTTGGTGCAATTACTTTTGC
ACCACAATTTTTTTTTGCATTATCTGCTGGGGGAACCAGCCCCCCAGTATTTCAACGTAGATTCTATTTTCCCTAAGTGTCGGCCGGTCTGAGAAATAAA
GAGAAGGAGTACAAAGAGAGAAGTTTTACAGCTGGGCCTCTGGGGGTGCCATCACATATTGGTAGGACCGTGATGGCGACCCTGAGCTGCAAAACCAGCA
AGTTTTTATTAGGATTTTAGAAGGAGAGTAGATGTACGAACAGGGAGTAGGTCACAAGGATCACATGCTTCAAAGGGCAATAAAAGATCACAAGGCAAGG
GCAAAATTAGAATTACTGATGAGGGTCCATGTCCTCCTGTGCATGCATTGTCTTGATAAACATCTTAACAGGAAAGAGAGTTTGAGAGCAGACAACCGGT
CTGACTAGAATTCACCAGGCTGGAATTTCCCAATCCTAGCAAGCCTGAGGGCACTGCGGGAGACCAGGGTGTATTTCAGTCCTTATCTCAACCACATAAG
ACAGACAATCCCAGAGCAGGCGTTCATAGACCTCCCCCCAGGAATGCATTCCTTCCCCAGGGCTATCAATTATTAATATTCCTTGCTGGGAAAAGAATTC
AGCAATATTTCTCCTACTCACACATCCATCTATAGGCTTTCTGCGAGAAGAAAAATATGGCTGTGTTCTGCCCAACCCCGCAGGCAGTCAGGCCTTATGA
TTATCTCTTTTGTTCCCTGAAAATCACTGTTATTCTGTCCTTTTTCAGGGTGCACTGGTTTCATATTGTTCAAACACACGTTTTACAATCTGTACAGTTA
ATGCAATCATCACAGGGTCCTGAGGTGACATACATCCTCAGCTTACAAAGATGACGGGATTAAGAGATTAAAGACAAACATAAGAAATTATAAGAGTATT
GATTGGGGAAGTGATAAATATCCATGAAATCTTCACAATTTATGTTCAGAGATTGCAGTAAAGACAGGCGTAAGAAATTATAAAAATATTAATTTTGGGA
ACTGATAAATGTCCATTAAATCTTCACAATTTTTGTTCTTCTGCCGCGGCTTCAGCTGGTCTCTCCATTCGGGGTGCCTGGCTTCCTGCAACAATTATCA
AAACAAATGTCAATACAGTGAAAAAGGCAAATAACAGCTTAGTATTATTTTGAAAATAGTTTTTATCTCACAGGCCTCACACATTTAGAAGTACTGGTCT
GTAGGTCTAGCATATGAGACAGTGACACAATTCTAAAATGTAAGTCTTTTAGTGTAATTCTCTTGAGCTTCCCCCAGCCTACTTTTTATGTTGTTGCTGT
GCTAAGTCTGATTTTTTTTTTTATATAGGTCTTTTGGGGAAACCTATCTACTTACTTCCCTATTCTCTTCTGCCTGTGTTGAGTGCTCACCCTTGGCACT
AACTGTCTTTTTGTCAGTTTGCTCCATTAATCAAATATTTATATTTAGACATATGTTAAAAATATACATCAAGAATTATATTTGTCCTGTCTGCTTCATA
TCTTCCAGAAATTCAACATTTATTTGGGGGTCATAGAATTCTTCCTGATTTTTTTAGTGTTGGTATTTTTTTTTCTTTTTATATCTTTATTATTTCAATG
GCATTTTTGGAAAAAGTGGAAAAACTTTGATTCCATTTGTCATTTTTTTAAATCCAAAAGTATTTCTTCTATTTGGAAATAATGGGAATTTGGACTTTGC
ACTAGTTTGGATGGATCTTTCTCCCAACTAGTTGACTTGAATAGTGAGGTTTTAGGTACTTTATGACTTGGAGGTGCACTCTTCACCTCACTGTCAACTT
TGGTTGTGCTGCTTCCTTCCAGAGTTCACATCAAGGGCAGGGAGGTTATACAAGCCAGAGACGTCATGGTGTATCAGTCTTTCTAGTTGGCTCAATCCCA
GAGCAATGCTCTGTTTTTACTCTAAACAATCCCTCACTGAATTTGGCAGCAGGGATTGAGTCTGGTTTTTAAGGTCCTGTTTAAAAACTATCTATCCTTT
TCAGCATGTTTTCATTACTTCTTTCATGTTTTCTGGTATGAAATTAAGATAAAAATTTCTTTTCACCAAGTTTGAAATCAAACAAATAAATGGAAATCTT
TGTGGGAGAGCTATTGGAAGGATGGTTGTAGCATCAAAGGAGGCTATGTATCATTAACTGACTGACTAATGCAGAATTCAAGATAAGGTTATCATTCACA
ATGAGTTTTTTTTTTTATTGCAATTATTAGCAACATATCGAGGTCTTCAAGGCCAGGAAAGATTAGACTCTGTATTGTATTTATATTGGATACTTTTTAC
TTTAGTAGTGATAAAATTCACAAAGATTCTTTCGAAGGATTGAAATTTTCTACAATAAGTCTAAAATTCAGATGTCAGAGAGATTTTTCTTTTAGGAAGA
TTTTCAGAAAAGGCATATTAATTCAGTCCCTATTGATGGTGTCAGATCCACTTCTGGTGCTTTGATATAGTCTACAGACATTTTAAAAAGTTCTTATCCA
GTACTAGAAACTAAATTACATTGAAGCAAAAGTTTTTCTTGAGCTGATAATGCTGTTCAGCTAAGAAAAAATTGGTGAGTTGAATACTTGTTGATTGAAT
CGGGTAAAATAGCTTTGAAGAATCTGACATTTCTAAATGGTTCTTAGTAGTTACAAATACAGTAAGAAGACGAGTCTTACTCACTTATAACCAACATGGT
TGATAACAAGATATTATTGTTTGGCATCCATAGCAGTAACCATAGCACCATTTCTCAAAGCTTTTCTCTAAGAGGGCTGTGAAGTAGTAGATTGTTGTTC
AGCAAATATTCATTCCTTCCGCTCTAACTCCTATAGTAGGGTTGTATTCTTCCTTTTCCTACTGATGTTGGACTTGGTTGTGTGACTTGCTTTGGCCAGT
GGAATGTGGGTAGAAGTGATATCATATAAGATCTGAGCCTAGGCCTTAAGAGGAATTATGTACCTTCCCTCATTGCTCTATGAGCTTTTGTCCTCTGCCA
TGAGAAGAAAATGCCCCGGGGGCTGTGGCTCTTTCAGCCTGGCTATCCATAGTTTCTTCACAGAGCTGCAGCCTGAAGCAGCCTATTATTCTATCTGAAG
ACTTGTGAACATGAGAATAAATGCTTATTGCTGCATGACAGAGTTTTAGAATGGTTTGTTATTCAGCACAATCTGACTTGTATAGGGACACAGATCATTT
CCTAGAACATCATCCAATAGTGGCTTTTAGGATATTAAGGTCGTAGGTACTATAATTACTAGATTGCTCAAAGAGGCAGAATTTTCAAAATTTTGCCAAT
CACTTCTTTGACACATTGATTGTTAAAGAGTGTGTTGTTTAATTTCCATATAGTTGTGCATTTTCAGATTTCCTTATGTCATTTATTTCTAGTTTCATTG
CATTATTGTTGGGGAAGATTCTTTATATGATTTTGTAGAGGCAGAAGCAACTCCATTTTGGATGCTAATCTGCTATGTTGACTTCTGATTAACTCCAGTT
CTGGGAATGCCTCTGAGATTTCTAGTTTATCTACTGTGAAGAGCACATACTTACCATAAACCCTGCCCTTAGGTCAAAACAACCTTGATGATGCATTTTT
TAAATAGATATATGAAGCACATATACCCTTTCCCTGTGGTATATAAGCCCTGAGTCTGGGGGTTAATGGTGCAGGGATCTACTGTTTTGTGGCTGCCTGA
GTCAGAGCTTCTGTTTGTAAGTCCCTTTTTAATGTTTCTTTCTGGCTAGGAGCAGTGGCTTATGCCTGTAATCCCAGCACTTTGGAAGCCAAGGCTGAAG
GATTGCTTGAGGCCAGGAGTTTGAGACCAGCCTGGGCAACATAGCAAGACCCTGTTTCTACAAAAAATAACAAAAAATAGCTGGGTGTGGTGGTACGTGC
CTGTAGTCCCAGCTACTCAGGAGTCTGAGGTGGGGGGATTGCTTGAGCCTAGGAGTTAGAGACTGAAATGAGCTATGTTCATGCCACGGCACTCTTGACT
GGACAACAGAGCGAGACCTTGTGTTTATAAAACAAACAAACAAACAGTTTCTTTCTGAGAAACTGGATTTGCTAGACTCTTTCTTTGGCCTCTTGGCCTT
TAGGGGTAGGTTTACATAGACCTACTCAGGGTGGAACAGATTTTAATCTTTTAAAATTTATTGAGACTTGTTTTGTGGCCTAGCACATAGTCTATACTAG
AGAATGTTCCATGTGTACTTGAGAGAATGTGTACTCTGTTGTGGTTGGGTGGAGTGTTCTGTATATGTCTGTTAGGTCTAGTTGGCTTATAGTTTTGTTG
GCAAGTCCTTCATTTGTTTCCCTGTTGATCTCTTAATAATTGTTCTATCCTTTATCAAAAGTGGGAGTATTGAAGTCTCTAACTGTTACTGTAGAACTGT
CATTTCTGCCTTCAATTCTGTCAGTTTTGCTTTACATATTTTAGGGCTCTGTTATTACATATATATGTGTTTATAATTGTTATACCATCTTGATGGACTG
ATCCTTTTACCAATATATATAATAACTTTCTTTGTCTTTCTGTTCATATGTGCTTTCTAATATAAAGTGGTACATTGTGGATATTCAATCCATCTAATTG
CCCACTAACATCTACTTTAAGCTTATCTTTTATGCAATAAATTCCTTAACATTTGCTGCACAAAAAGGTACGAATGAGATTGGTATTTAAAGGATGGAAA
GAAGACTAGTATGGCTAACAGTGGTATCAAGGGGAGTCAGAGAAGTGGGCAAGGGCTTTGTAAAATAAGGTAAGAATGTGGATTTTATTGCCAATGATAT
AAATATTTAGTGGAGGATTTTAAGCATGAGATTTACAATTTAAGAAGATCACTCTGGGGACTGTTTTAAGAATGGGTCATAGACAGGTAGGGAAAGGGGT
AAGGCTTTCTCTATAGTGCAGGCAAGAGATGTTGATGGCTTAGACCAGGGGGGCAAAAATGAAGATTAGGGAAGTGTAGGCTTTTAAGATATATTTTGTA
TATAGAGTGGATAGAACTTACTGATGAGTTTCTGTAGGGAATGGAACAGAGGACTCAGGGATGACTCTTGGTTTTTTTTGTTTGTTTGTTTTGTTTAGTT
TTTTGGTTTTACCTTTGTAGTATTTCCTCAGACAAGAAGAGCATAACCGACAGTGGGTTCACCTTGTCTGCTGCCTAGACAGAGCCCATTTATCAAGACA
GGGGAATTTCAATCGAGAAAGAGTAATTCATGCAGAGCTGACTGTGCAGGAGACCGGAGTTTTATTATTACTCAAATCGGTCTCCCCAAGGATCAGAGTT
TTTAAGGACAGAGTTTTTAAGGATCAGAATTTTTAAGGACAACTTGGTGGGTGGGGGGAAACCAGTGAGCCAAGTGTGCTGATTGTTCAGGTCAGAAATC
ACAGGGAGTCAAAGCTGTCTTCTTGCACTGAGTCAGTTCCTGGGTAGGGACTACAAGATTAGATGAGCCAATTTATTGATCTGGGTGGTGCCAGCTGATC
CATCATGTGCAGGGTCTGCAAAATATCTCAAGCAATGATCTTAGGAGCAGTTTAGGGAGGGTCAGAATCTTGTAGTCTCCAGCTGCATGACTCCTAAACC
ATAATTTCGAATCTTGTGGCTAATTTGTTAGTCCTACAAAGGCAGTCTAGTCCTCAGGGAAGAAGGAGGTTTGTTTTGGGAAAGGGCTGTTATCATCTCT
GTTTTAAACTATAAACTAAGTTTCTCCCAAAGTTAGTTCAGCCTATGCCCAGAAATGAACAAGGACAGCTTAAAGGTTAGTAACAAGATGGAGTCAGCTA
GGTTAGATCTCTTTCACTGTCTCAGTCATAATTTTGCAAAGATGGGTTCAAGAGGAGGAGTAGCAGGTCTGTTTGTTTGTTTGTTTGTTTGGCTAGTTCC
TTGGTGGAGGAAAATAAATCAAGTGTTCTTTTTGTTTGTTTGTTTTTTAAGCCTGAGATACCTATTTTAGTTTAGACAACCTTTCAAGAAGGAAGGATTA
GTTAGTTGGGTCAAATGTTATGAGACGTCAAGTAGGATGGAGACCAAGAAGTGACCACCACTTTGTCAATATTTGAAAAGATCAGTCTCTGGTATAAACA
GACAGCCACAGAATGAGAGAAAATTTTTGCAAACTATGCATCTGGCAAAGATCTAATATCCAGCATCTATAAGGAACTTAAATTTACAAGAAAAAAATAA
CCTCATTAAAAAGTGGGCAAAAGACATGAACAGACACTTTTCAAAAGAAGACATACATGTGGCCAACAAGCATATGGAAAAAAGCTCAACATCACTGATC
ATTAGAGAAATGCAAATTGAAACAACAATGAGATACCATCTCACACCAGTCAGAATGGCTATTATTAAAAAGTCAAAAAATAACAGATGCTGGAGAGGTT
GCAGAGAAAAAGGAACACCTATATGCTGTTGGTGGGAATGTAAATTAGTTCAACCATTGTGGAAGACAGTGTGGTAATTCCTCAAAGACCTAAAAACAGA
AATACCGTTTGACCCAGCAATCCCATTACTGGTATATATCCAAAGGAATATAAGTACATGCATGTGTACATAAAAATACATGCATGTTTATGTTCATTGC
AGCACTATTCACAATAGCAAAGACATAGAATCAACCTAAATGCCCACCAATGATAGACTGGATAAAGAAAATGTGGTACATATACACTGTGGAATACTAT
GTAGCCATAAAAAAGAATGAGATCGTGTCCTTTGCAGGAATATGGATGAAGCTGGAGGCTGTTATCCTTGGCAAACTAACGGGAACAGAAAACCAAATAC
TGCATGTTCTCACTTATAAGTGGGAGCTAAATGATGAGAACTCATAAACATATAGAAGGGAACAACAGACTTTAGGCCTACTTGAGGGTGGAGAGTGGGA
GGAGGGAGAGGATCAGGAAGAATAACTATTGGGTACTAGGCTTAATACCTGGGTGATGAAATAATTTGTACAACAAACCCCTTTGATGGAAGTTTACCTA
TGTAACAAACCTGCACATATACCCCTGAACTTAAAAGTTAAATTAAAAAAAAGGAACAGTTTCTGGTAAGTGATGGGGGCAGAAACTTGATTGGAGTGGG
CTGAGAAGAGATTGTGAGATGATGGGGTGGAGACGGTGTTCATATATAACTCTATCAAGAAGTTTTCCTGTGGTGGGTTTGAGTAGTTCATAATAGTTGA
AGGAGATTGCAAGGTTTAAGGAAGTTCTCCTTTTTAAAATAAGATAGAACATAATCCCCTGGCCTCCACCAAATACCACTAGGGCTCCATGGTCACTGTG
ACATCAAAATGCATCATCATTCATTTCCAAATTTTCCTTGGAGAGGGAAATTGTGTTCCCCTCCACTTCCTCAACTACAACATGTTTGTGTAACAATGCA
AATAATCTAGTAGAGAGAGAGAATGTGGAGAGAAATGGGACAATTGCAGGAGTGAAGACTGAGAATGCCAGAGGGGATGGAATTTAGATGGGACAGGGAT
ATTTTTTCTATTGTGAAAGAAAGAAAGCAAAGCAAATATGTACTGAATGAGAAAAGAAGGTTGGTATTTTGTTGAGAAGATGAGGGAGGTCTGTTAATTG
CTCTTTTTCAAAAAAATGAGTCAGGAGGGTAGATTATCTGCTGGGTATAGGGGCAAGTATTGGGGCAATGAATTTGAAGAAGGAGAAGAAGATGGGACCT
ACTCATTTTGAATGTGAATGCTAGGAAAGTGGTCTTGGATTGAAAGAAGCTTGAGCATCCATTTAAGATTTGATTGTGGTCTGTTGCCATCATTCAACCT
AGCTCCATGAGTTCAGAAACCAGGTATCTTTCTCTTGTTGTACAATAGCATACCTATACCACCTGACATGGTATCTAGTGCCTTGTAGGTACTTGATAAA
TATTTATTCTATAATTTATTAATGCTTGGCTTCCTGTTGAAATTGCTTTCCTAGAAGACACCTATTCACCAACTTTACCAGGGTTCCATAGACTGTTAAT
GCTGGTCAGTTGTGCCTGAATTCCAAAGGGAAGAGGGGATAATGAGACATATCTTGTTCTCCCTACCCATCATGGCCTGACCTAGTTTTTCAGGATAACT
TTGGAATGCCCTTGGTTGGGCATTCTACCAAGGAAGCAGGCAGGTTTGAGGGTAGTCCATTCAGTTTGGTGGGGAGCTTAGAATTTTATTTTTGGTTTAT
GAAACCCACATATTTTCTGAAGAATTCCAGCTGTATTATATATAATATATATGTATTGTAGAAAAAATAAGAAAAAACAGATAGAGCATCTTAATACGGA
AAGTATCTTTCTCAGACACCATCTGGTAGATTAATTGCAGTCATTCACTTCCTCCTTCTTAGCAAGTGAATTATATTTCCTCTTTCCATTGACTCAGGGC
TTGGCCATATGGCTTGCTTTGGCCAATGAAATGTTAGCAATATGACATATGCTATATCTGAGCAGAAGCTGTAGACATGATTGCCTGATTTGGCTTGGCC
ATTGATGTTTCTGTTCTCTGCCACGAGCTGAGCATGTTTTGGACCTTTCTGCCTGGGTCCTGGCATAAGAAGAAAGGTGGAGAGGACTCTGTCTAGCCCT
AGCCCATAGCCTTATCCTCCATGTGGTGAGAAATACACATCTGTGCTTCTAAGCCACTGAAATTGTGCGGTTGTTTTTTGTTACTGAAGCAAGGGTGAAT
ACATGTTCCTGCCTCCAAGAATTGACTGTCAAGCTCAATGCTTTCAGTCAACAACAGGGATGTCATACAAGGTGCCAGACCCTCCTCTTGTACCCATTGA
TCAGGGCATTCTTCCCTCTTGAACCCAAATATGACCTCAGAATCCTTTTGAATACAGGGCCCCAAGGAGCTACCGCCAATCAAGTGGATGTGGCTGGTGA
GATGAAACCTGTCTGGCCTGATTCCACTACACTATTCTGTCTTCTAAGATTGATAACTTTTGCTTAGATGGGTCCTCCAAAGGAGGAATGTCCTTGGACA
TGCCAATCAGAACTGCCTGGCTCAGAAAACTCATTTATTATTTTATTATTTATAATATTTTATAACATTTTTAATGCTTACCATATTATTAGTGTCTTGG
AATCAATAATAACTGTAATACTAATAGTGCTCAAATTCATGAAGATGTGACTTGCTCAAGGTCACACACTCTAGTCTGTTTGTGTCTTATGACCACAGTC
TCTACATTATCCTTATGGGTCCCAGGTGTGGCTAAAGGATTCCACTGGCTACAGCCTTTGAATTTCTTTTTTCTCTGGGCCCCAAACTTCCTTATTTCCT
AGATTCCAGAGGACTGAAGCATATGGATCCTTTAGATCCCTCTTCCACAAAGAGCTGAAATCCAAGTGTCTTTACAGGTGAAGAGAACTGCAAAGGAATT
GTATTAGAAAGGAGTTATTAGTGGAGCCAGGAGAGGCACATGACTGGCTCAGGAGGCTTCTCCTTCTGGCAAAAGCATATTCCTGAATTTAACCAAAGCG
GCATCAGAGGCTTTACTGAGAAAACTGATGAGGAAAGCCAGGTATCCTTAGCATGTTATTGAATGTCAACATGTCCATTAAAAAGGTACAGTGCAGGCTC
TGTCAAAACATGGGGTTGGTGGACAAGGTAACTAAGATCCTCACTACTTCTGGGTAATGGAAAGAAATGCTGAGATTCACTTGGGTTGTGGTCCATAGTT
TTACCTGCAAGGTGACTCATCCATGGGACAGTCAATCATTATAATCAGGGTTAATCATTTATAAAAAGAATTTTCTGCTGAGACAGAGCAGCTTCATGGG
ATATCAGGCCAGATGTTCTTCTAAGCATTTACAGCTCTGTGATGAGGTTGCTATTGCCCCATTTTATGTTTATTTTTCAACTGATGTCATGTTTTTCAAA
GTGGTTATGATTTCAGCCTTGTCATTCCTGCCACTAGGCAGCTTCCAAATTGTTCATTCTTGGCAATGTTTAATGCCATGTCCCCTGTCTTGCTGTCAGG
GGCAGCTCATCTGAGCTGCCAAGAGGGCCTGCTTTATTGCTCAGCCAGCCAAGGCCTAAGCTGCTTTATGACATTTCAAAGTGAATTGATGATAGAAATT
TCAATTTGTTTCAGAAGAGAGTTATCAACAGACCTAGAGCTCAGAAAATGAGTGACCAGGTCTTTAAAAGGCGTTGATTTGAGTGTACATAGATGAAAGA
CACCCTGAATGCTGTTTCAGCATGTGTTTAGTCTCTGAAATTTATCCTTATTTATATGTAGTTACTGCTTCTGAAGAATGCTTGGGTAGCCTAATACTGC
TGATTAGAATTCTTTCTTGTCTACTTTGATAAATGTGGTGATCATAGGTTGTTTTTGTCTGTCCCTTTGGGGGACTACCATACTTCCACTCTCAGTACCT
GTGGTTTTGATGGAGCTAATTTCAGACCTTTGTCCCAGGGGTAGGCCTGCCCAGTGAGACACATGGATTTGTCTTAGGGATGGACATGTTAGCTGTATCG
GTCAGGATCTTGGAAACAGATGACACTTTCAAAATCGGTTATCAAATAACCCTTCCATGGAGGTGTAGGTGGAGTGTGGGAAAACCGTAAAGGATAGTGC
AGTTTCTGGGGCTGCTCACAGTAGGGCATAGTACTGCTTTTAGGTTGCAGAGGCAAAACTGGGAAGCCATTACTGGAACTCAAAGAGAGAAGATGTATGG
AGAAGCTGCAGGCAGGACCTGTGACTATTGGCTGAGAGATATAGCCAGCTCATGTGGACCCTTGCAAGGGGTGCTGGGGGAAATTAACATCCTGACTTCA
TTCTTATCTCTTCCTCCAGCCTCCCACTGGTCTCACTATTGACAATACCCAAGGCAAGGCACAGAGGAAAGGAGCCATTGATATATCCAATCTCTCACCT
ACCGAGCTGGAAGAAGAGTAGAGAGTGGCCAACCTCCCAGCTACCAAGCTCAAAGAAGAGGAGAGAGTAGATTTGGAGGTCAAGCTGAGGATATCTGGCA
AATGAGCCAATTTAGGCCAATTGAGAGTTAGTTCTGGGACTTTTAATGGAACAATCGGGCAATAAGTTCTTCTTTCTGCTGAAATTTCTGTGAAATAGGC
CTGGTGGCCATCTCATCACCACCCTGAAAAGAGGGCCAAAAGATGGGGACAAATTCCTGTTGATATCATTTAAGCACTTGAACCCAGTTACACTTGAGGA
CTACCCCTAGAATTTTCAACTAGGGGCCAATAAATCCTACCTCTGCATTAGCTAGTCAGGTTTCTCTCACTTGCATCTGAAAGAGGCCTGACAAACAGTC
TACACAGTTCTACACATTGCAAAACTCAGTTCATGGAGCCATTGAAATGATCTCCTGCCACATGCAGCAGTGGCTCTAACATACTCATTCCAGTAAATCT
GAGTTTTCTTGGTGCCAGTCCCTGTGCTTTCGTAACCCTCTCCAGCTGTAGCCTCAGTTCCACCCTGTTCCTTTGTAGTCTTAACTAAGATAGCCAGGAT
GTCACTGGCCCAGAGGCATCATTGAGCAGCATCTGGAATTTTATGAATTCAGTGTGTTTTGAATACAATTTCTTTTCTTTTTTCTTTTTTTTTTTTTCAG
ATAGAGTCTTGCTCTATCACCCAGGCTGGAATGCAGTGGCACGATCTCGGCTCACTGCAACCTCCTCCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGGC
TCCCGAGTAGCTGGGACTATAGGCGTGTGCCACCACAGCCAGCTAATTTTTGTAATTTTTTTTAGTAGAGACAGGGTTCCACCATGTTGGCCAGGATGGT
CTTGATCTCTTGACCTCATGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCTCGCCTGGCCGAGAGACAATAATTTCAAA
CATGCAGGGAAATAATGAAGGTCCCCTTTAGTAGAAAAAAAAAAGGCTGGAATTAATATAGACTGAGGTTTGGTGGTTTAATTGAAATATTGAAATATGT
GCAAAGCTGGTAGATGTTGGGCCAAATCAAATAATTCCATGAGAGAATTATTTTAACATAAGGATAGGCCTAGTCCGTGGACTCAGGTTGAGTAATAACT
TTTCTGAAAGATACTTAGCATCAAAGGACATTTGGTAAGTCCTTGGTTAGCATCTTTGATAGGTGACAGGTCTTTTATTTACAGAGAGCCCTCTTCTTGG
AGTGAGTGAGTGTGTGTGTGTGTGTGTGTGATTGTATGTATGTGTATGTATAAAACAAAGTCATCTTTAAATTATGCTTTTCACCAGCAGGAAATAAAAG
GAAAGAGTTTGTAGGCTGAGGGCCAGGAATGTCCCATCCCCTTCAGGGTAGTCCTGCAGATGGACCTTCCCCCTAGGCTCATGTGTCTTACCTTCCCTCC
TTTCATACAGGGCAAAGAGTGAAAATCCCTATCTGCGTGCACATGGGGCTGAGAGTGGGGAAGGGCTGAAGCACAGCATGGCAGAGCAGAAAGAGCACAC
CCTTGAACCAGACTAGGTTTCCAGCCTCTTCTATTCATGATCTGTGAGGCCTTCGCTTAATCTCCCCAGGTTCCCGTTTCCTCCTTTGTAAAATGGGGAT
ACTAATATCTTCCTTAGGGCACTATTGTGAGGATTAAATGAGATCGAGTGAACAAAGCTTCTGAAGTCCTGCTGGGTGAACGTCTTCATAAGAGGCCAAG
ACAATAACAATGATGACAAATCTGGGCAGGTCAGATCAGCAGCACATCCAAGGTTCACTTCGAAGCCTGTAGGACGATGCCTGGCGCTCAATAGCAAATG
TTAGTTCCCGTCTCCTTCTTCCTGCTTTCCCCGGGAGTGTTTAGTCCCTCAAATAGAATCCTCTGCTGACTGCATCTCAGGGATGCATGACATAATGGGA
ACAATGAGAGCTTCGGAAAGCCATAGTTTGCTTTTTTGGCCCAATAACCCCATCTCTGAGAATTAGCCTAAGAAATCACCTGAAAGAAAAAAAATGTCAT
TTCTGCTAAGAGTTTACTACAGAATCATTTGTAATAGCAAAAAAACCCTACCATTATTCAATAATGATGTCAGTTCAATTATAGTAATTCAACTAAATGA
GTTATTCTACAGTCATTGAAGTGATACTTTCAAAGGCTATACAGCAACATGGAAACTGTTTATGATTTAATGTTAAGTCAAAAGATACAGGGCAGGGTAT
GGTGGCTCACTCCTGTAATTCCAGGACTTTGAAAGACCAAGATGAGAGGATTGCCTGAGGCCAGGAATTTGAGCCTAGCCTGGGCAACATAGCAAGACCC
CATCTCTACAAAAAAATTTAAAAATTAGCTGAGCGTGATGGTGCATGCCTGTAGTCCTAGCTATTCAGGAGGCTGGGTGACAGGATCACTTGACAGGAGT
TTGAGGCTGCAGTGAGCAATGACCTTTGAGAGGGCCACTGCACTCCAGCTTGGGTGACACAGTGAGAACCTGTTTCTAAAAAAAAGAGATACATACAGAA
TTGTGCCTGTACTATGTCATACTATGATACAGGCCTGTATCCATAGGAGGGGCACTACTGGGAGTTTCTGTCCCCTGGGTGGTTTATTTTTGTCATCTTT
ACACACTGGGTTTGCGTGTTCAGATAGGGAAATTCTCTAACCTTTTACAACTTAGTTTATTTTTTGACCAGATATGAATATTTATTATGCATAAACCTTA
CAAGGCCAGGAGAGAGAGCACAAGAAAAAAAAGTAAAAACAGTTTGATTCTTTAAAGTAGCAAATATTGTGATGAATTTCAACAATGCATTTCAACTCCT
GTTGATGGAACTTATGCAATAAATATTAATGATAATTTAAATTAGAATTATAAAATGATCCTTCTGTCTCTATTTCACTTTGCTTAGGAAAAACGAATTA
TTGGATGTAAGGTATTTAGAGTAAGGCCTCACATACAGTGAAAAATCAATAAATGAGAGCTTGTGCATCACGGCACTTATTACATGGAGGCACCATTTTT
ACACTAATTAATGCGTATATGGCTCACAGCAATGCAGTGGGGTGGGGACCATTAGTTTTCCAACCTCAGAGATGAGGAAACACTATAGAGAAGTTCCATC
ACATGTCTAGGGTCTCATCACTAGCAAGAGGCAGAGCTGGAATTCCCCTGTGGACCAGGCACCAGAGTCTTGGTCCTCACCATTTCACCATGGGGCATTC
TCATTAAGCAAAGCTACTATCTTTAGGGCTTCTGGGAAAGAAAACCAAGTGAGTCCCTGAGCTTTTAGGGGAAGATGGTTTTTGAGTGCCTTGGCCCCCA
GGGAAGGGAGTGATGAGGGCTGGAGAGGAGGAGGAGGGGAGCAGGCCCTTGTTTCTGCTCCTTCTGGAGTGGAGGGAATGGAGACATCAGGCATGGGGAG
CCTTGGGAGGACTTATTTGTTTGCTGGTGCAGGGGCTAGGGGTAGAACATCCTCGACAGACATGTTGCTAAAGTCACACATGGAGTCAGGCGGACAAGGA
AGAGAATGTGAGCCATGTGGGACCAGAGGGCTGCCTCTGCTCTTCAGCTGCTCTGAGCTCTGAGGTTTTAGAACTGAATGCTTGTCTGCGCTATTTGGAG
CAGCATCCTCCTCCCTACACACAACTGAGAGTCCTCAAGTGCCTTGACTTGTGCTGTCTCCAGGGACAGAAAGATTCCCAGGTAGCTGTGAGACTCCCCA
CAGGCTCTGAGCCCCATCAGGGCTCCATTTGAGGCAGTGTTGCCTCCCTCCCTTCAGAAGCCTGAGAGCCTCCTCCACTCTGACCTCAATGAGATAGGGA
GGGGGGTGGGTTGGTGTAACTGGGGCAAGACCAGCATGAAATCAGAAACTGAGTTCGGGACAGAGCTGTCCCAGGTGAGTGAGGGACTCCGAGGATCAGG
ACCTAAGTTGAGGCCAATGCCCGGGTGCATGACCAGGGAAGTCCAGGTGCTGGAATTGAAAGACAACGCAAGGCTGAAGGTGAGAAGCCAGGCAGGGACC
CCAGGAACAAATCCCTCACCCTCCGCCTCTTCTGGGAGTGATCTCAGGGGAGGGGGTCTTCAGGGTCTGGGCCTGAATCATGGGGTACTCACCTGAGACC
AGGGGTGACGCTGGCATGGCAGAAGCAAGTTGAGTCAGAAACATGTGACAGCTGTGGTCTAAAAAGGGAAGCCTAAAGGGTCACCAAAGTGAAGGGACCA
AAGGGGCTATGGCAGCTGGGAACCGGAGCCAGAAATCTGAGAACCAGGGAGGTGAGTGCAAAAATAGTAGGTCCAGGGTGAACAGGGTTGGTTTAGAACA
TGTGTTGCCTGTGGCTCACTCTGGTGGGCCAGCTGGGCGTGGTGGGAGTGTGGATCTGCTAAATTTAAAGGGCCAGAACAGACACCACTGTGCAGGAGAC
TGTGCATGTGTTTTAGCCTGGGAACCTCTTATGATAGCTCAGGCTGAGTCCAAGAAGGTCTAAGCATGGTTTGCCCTGAACCTGGAGCTGGGAAAGCAGA
CCAAGTCTAAATGGGAGGGGCAGGCAGTGTTGGAGATAAGGACAAGCCGTGATGGGTGCTTGGGTGGAGGGACAAGTCTGGGCGCTGGGCCCTGGGCACC
GTGGGGCTTACATGCTCAGGCCTGCAGGAGTGAGTGAATAGTGCTGGGGGAGACAGAGGCAGATGAGTCACAATCCCAGATGTGAGCAGATGCTCTGGGC
AGATTTGGGCTGCTTGTCAGCAAATTTGACCACAGCCTGGATGGGCTGTCAGGCTCAGGCCACCGGCCCCACTCCCAGCACAGAGAAAGCCTAAGAACGC
ACTCCTCTGTGAGCGATCACTCTTTGAAATGTTTCATAGCCCTATATGGAACCACATCTGGGAGAGTAAATGTATTTTCTGAGCCAGGCTTTACAAGTTG
ATTTTATGACGCATCTAGGCAGAAGATGAAACGCCCCAGTCATTAACTCACTTCCCCTTGTGGGTGAATTCCACAATACGTTTTTCATCTGAGCTGTGGA
ACAAGTTTCTCTAGCACACACAGACCTGTCTGTCAGTGGACATTTGGCTGCTCAGATAAATCCTTCGCTCTTCAGAGGCTGTCCCTGGTTCACCCCTCAG
GCCACGTGCTCTCTCTTGCAGGCAACTTTGCTGGCTCTTCCTGGAACAGGCCAAAACACAGGGATGAAGTTCTGTGGATAAGGCTGCCTGTGTCAGAGGG
GCCTTGAGCACACATTCGGATTCTTAACCACCAGCTTACCAGATAGCTTGCTGTGTCCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCCTTTA
AAATTCTAGCTTAATGGCCACATGTTTTAGGCCACTTCTGTCCTCCTAAAATAGGGCTCTGAGCACGTCTCCAAAGGAGGGCCCCTGAAGCACAAGCAGT
GGGCCGGCTGCCAGGGCTGGCAGAATGAGACACAGTACTTGAAATAAATGCAGGGTGTTTGCTTACAGATTCTTTACCACATCATGGATGAGTCAGATGA
CTTCTCACCCCAGATTCTGTTTTTACCCTTTTTCCTACTCAGAGCTAGGGGTGGGAGGATTGTGTAAAGTTTAAAATATATCCCCAAATTATATACTTCT
GTCTTTTGAGTTTTAACATACAATAGGGATCCTTTCATTCTTCGACGCGGTCGAGAATTATGTTTAACTTTTCCTGTTTCATTCTGTTTTAATTCATACC
TGGTTGTGGAAAGAGCAGTGGGTTGGAAGTTGAGAGACCTAGGATCAAGTCTCTGCTAGTTAGTAGCTCTGGGATTTGGGGCAAGTCAGTCCACCTGTCT
GAGCTGCGGTTTCCTTACTGACAACATGGACTGTCAGTTCCCCGTGGAGGCTATGAGCTTGCACTGGGAAGGAACAGCTTTCCCCATTCAGTGGCCCTGG
TTTTCTGAGCCCCTGCCCTTCACTTGGGGTTGCTTGTCATGACAGCAAGTTAGATCACTCATGGAAGTGTTTTGAAAACTAACATGCTACATTCTTGTGA
GGGATAATTATTACTATGTGCCATGCCAAAAACAAAACAAAAAAAATCCTTTTCTTTTCTTCAGCCTTCTTCACACTCAACTTAGCCTCATCTGTGGCTA
GAGCTTCTTCAGTATTCCAGGCAAATCCCTTCTCTCTGGCTTTCTGAGGCTGACCTAACCCCCAACTCCACTCATAACACCTCTGCGTCTGCTTCTGCTA
CTTCTTTTTTTTTTTTTTCAGGGTCGTCCGTATGTTCTTTTATTATTTATTTATTCATTTCATAGTAGTAACATATAAGAATATAAAACTTAGCATTAAA
ACATTACAAATTTTTTTATTTCAA
In silico ORF/peptide predictions
Nothing found.
RiboTaper predictions from Ribo-Seq data (HEK293 cell line)
Nothing found.