| 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_00009420 | 545 | 311 | UTR3 | Trans | |
| ENST00000323816 | growth arrest-specific 7 | protein coding | TCONS_00009420 | 540 | 289 | UTR3 | Trans | |
| ENST00000338983 | Mitogen-activated protein kinase kinase kinase MLT | protein coding | TCONS_00009420 | 577 | 308 | UTR3 | Trans | |
| ENST00000339732 | polypeptide N-acetylgalactosaminyltransferase 15 | protein coding | TCONS_00009420 | 535 | 304 | UTR3 | Trans | |
| ENST00000339732 | polypeptide N-acetylgalactosaminyltransferase 15 | protein coding | TCONS_00009420 | 581 | 305 | UTR3 | Trans | |
| ENST00000376020 | shroom family member 4 | protein coding | TCONS_00009420 | 600 | 347 | UTR3 | Trans | |
| ENST00000380641 | centlein, centrosomal protein | protein coding | TCONS_00009420 | 617 | 306 | UTR3 | Trans | |
| ENST00000382142 | myotubularin related protein 12 | protein coding | TCONS_00009420 | 535 | 289 | UTR3 | Trans | |
| ENST00000389534 | zinc finger protein 841 | protein coding | TCONS_00009420 | 569 | 296 | UTR3 | Trans | |
| ENST00000424496 | sense_intronic | sense intronic | TCONS_00009420 | 550 | 292 | noncoding | Trans | |
| ENST00000426391 | zinc finger protein 841 | protein coding | TCONS_00009420 | 569 | 296 | UTR3 | Trans | |
| ENST00000437099 | growth arrest-specific 7 | protein coding | TCONS_00009420 | 540 | 289 | UTR3 | Trans | |
| ENST00000482603 | glyoxylate reductase/hydroxypyruvate reductase | processed transcript | TCONS_00009420 | 616 | 296 | noncoding | Trans | |
| ENST00000494969 | colony stimulating factor 2 receptor, alpha, low-affinity (granulocyte-macrophage) | protein coding | TCONS_00009420 | 547 | 288 | CDS_UTR | Trans | |
| ENST00000498813 | delta(4)-desaturase, sphingolipid 1 | processed transcript | TCONS_00009420 | 561 | 301 | noncoding | Trans | |
| ENST00000513269 | NEDD4 binding protein 2 | protein coding | TCONS_00009420 | 544 | 288 | UTR3 | Trans | |
| ENST00000524264 | SAP30L antisense RNA 1 (head to head) | antisense | TCONS_00009420 | 523 | 225 | noncoding | Trans | |
| ENST00000536776 | chromosome 21 open reading frame 62 | protein coding | TCONS_00009420 | 524 | 274 | UTR3 | Trans | |
| ENST00000553127 | spermatogenesis associated, serine-rich 2 | protein coding | TCONS_00009420 | 625 | 308 | UTR3 | Trans | |
| ENST00000591226 | tropomyosin 4 | retained intron | TCONS_00009420 | 605 | 300 | noncoding | Trans | |
| ENST00000594295 | zinc finger protein 841 | protein coding | TCONS_00009420 | 569 | 296 | UTR3 | Trans | |
| ENST00000620788 | pleckstrin homology-like domain, family B, member 1 | retained intron | TCONS_00009420 | 630 | 302 | noncoding | Trans | |
| TCONS_00001821 | low density lipoprotein receptor adaptor protein 1 | novel protein coding | TCONS_00009420 | 619 | 293 | UTR3 | Trans | |
| TCONS_00001823 | low density lipoprotein receptor adaptor protein 1 | novel protein coding | TCONS_00009420 | 619 | 293 | UTR3 | Trans | |
| TCONS_00010507 | SET and MYND domain containing 2 | novel protein coding | TCONS_00009420 | 548 | 292 | UTR3 | Trans | |
| TCONS_00030130 | calcium/calmodulin-dependent protein kinase II gamma | novel protein coding | TCONS_00009420 | 623 | 307 | UTR3 | Trans | |
| TCONS_00030591 | cytoplasmic polyadenylation element binding protein 3 | novel protein coding | TCONS_00009420 | 632 | 294 | UTR3 | Trans | |
| TCONS_00050741 | spermatogenesis associated, serine-rich 2 | novel protein coding | TCONS_00009420 | 625 | 308 | UTR3 | Trans | |
| TCONS_00050741 | spermatogenesis associated, serine-rich 2 | novel protein coding | TCONS_00009420 | 517 | 234 | UTR3 | Trans | |
| TCONS_00051246 | sterol O-acyltransferase 2 | novel protein coding | TCONS_00009420 | 615 | 294 | UTR5 | Trans | |
| TCONS_00053501 | anoctamin 4 | novel protein coding | TCONS_00009420 | 523 | 306 | UTR3 | Trans | |
| TCONS_00053502 | anoctamin 4 | novel protein coding | TCONS_00009420 | 523 | 306 | UTR3 | Trans | |
| TCONS_00053513 | anoctamin 4 | novel protein coding | TCONS_00009420 | 523 | 306 | UTR3 | Trans | |
| TCONS_00053521 | anoctamin 4 | novel protein coding | TCONS_00009420 | 523 | 306 | UTR3 | Trans | |
| TCONS_00053527 | anoctamin 4 | novel protein coding | TCONS_00009420 | 523 | 306 | UTR3 | Trans | |
| TCONS_00053528 | anoctamin 4 | novel protein coding | TCONS_00009420 | 523 | 306 | UTR3 | Trans | |
| TCONS_00065858 | ubiquitin specific peptidase 12 | novel protein coding | TCONS_00009420 | 523 | 286 | UTR3 | Trans | |
| TCONS_00075840 | forkhead box N3 | novel protein coding | TCONS_00009420 | 617 | 308 | UTR3 | Trans | |
| TCONS_00075841 | forkhead box N3 | novel protein coding | TCONS_00009420 | 617 | 308 | UTR3 | Trans | |
| TCONS_00076763 | protein phosphatase 1, regulatory subunit 13B | novel protein coding | TCONS_00009420 | 624 | 301 | UTR3 | Trans | |
| TCONS_00085508 | neuregulin 4 | novel noncoding | TCONS_00009420 | 625 | 302 | noncoding | Trans | |
| TCONS_00098643 | fatty acid 2-hydroxylase | novel protein coding | TCONS_00009420 | 644 | 288 | UTR5 | Trans | |
| TCONS_00098643 | fatty acid 2-hydroxylase | novel protein coding | TCONS_00009420 | 620 | 306 | UTR5 | Trans | |
| TCONS_00098644 | fatty acid 2-hydroxylase | novel protein coding | TCONS_00009420 | 620 | 306 | UTR3 | Trans | |
| TCONS_00098644 | fatty acid 2-hydroxylase | novel protein coding | TCONS_00009420 | 644 | 288 | UTR3 | Trans | |
| TCONS_00098645 | fatty acid 2-hydroxylase | novel protein coding | TCONS_00009420 | 644 | 288 | UTR3 | Trans | |
| TCONS_00098647 | fatty acid 2-hydroxylase | novel protein coding | TCONS_00009420 | 644 | 288 | UTR3 | Trans | |
| TCONS_00104960 | A kinase (PRKA) anchor protein 1 | novel protein coding | TCONS_00009420 | 551 | 305 | UTR3 | Trans | |
| TCONS_00107864 | transient receptor potential cation channel, subfamily V, member 1 | novel protein coding | TCONS_00009420 | 608 | 295 | UTR3 | Trans | |
| TCONS_00107867 | transient receptor potential cation channel, subfamily V, member 1 | novel protein coding | TCONS_00009420 | 608 | 295 | UTR3 | Trans | |
| TCONS_00107867 | transient receptor potential cation channel, subfamily V, member 1 | novel protein coding | TCONS_00009420 | 530 | 302 | UTR3 | Trans | |
| TCONS_00116668 | desmoglein 3 | novel protein coding | TCONS_00009420 | 566 | 304 | UTR3 | Trans | |
| TCONS_00124891 | zinc finger protein 540 | novel protein coding | TCONS_00009420 | 602 | 287 | UTR5 | Trans | |
| TCONS_00135644 | zinc finger protein 841 | novel protein coding | TCONS_00009420 | 569 | 296 | UTR3 | Trans | |
| TCONS_00135884 | zinc finger protein 347 | novel protein coding | TCONS_00009420 | 526 | 296 | UTR5 | Trans | |
| TCONS_00137691 | FOS-like antigen 2 | novel protein coding | TCONS_00009420 | 611 | 334 | UTR5 | Trans | |
| TCONS_00141667 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00009420 | 656 | 324 | UTR3 | Trans | |
| TCONS_00141667 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00009420 | 603 | 299 | UTR3 | Trans | |
| TCONS_00141670 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00009420 | 656 | 324 | UTR3 | Trans | |
| TCONS_00141673 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00009420 | 656 | 324 | UTR3 | Trans | |
| TCONS_00141679 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00009420 | 656 | 324 | UTR3 | Trans | |
| TCONS_00141679 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00009420 | 603 | 299 | UTR3 | Trans | |
| TCONS_00141681 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00009420 | 656 | 324 | UTR3 | Trans | |
| TCONS_00142157 | LY6/PLAUR domain containing 6B | novel noncoding | TCONS_00009420 | 648 | 300 | noncoding | Trans | |
| TCONS_00142168 | LY6/PLAUR domain containing 6B | novel protein coding | TCONS_00009420 | 648 | 300 | UTR3 | Trans | |
| TCONS_00148048 | potassium voltage-gated channel, subfamily G, member 3 | novel protein coding | TCONS_00009420 | 607 | 301 | UTR3 | Trans | |
| TCONS_00148484 | EGF containing fibulin-like extracellular matrix protein 1 | novel protein coding | TCONS_00009420 | 587 | 306 | UTR3 | Trans | |
| TCONS_00149280 | Uncharacterized protein {ECO:0000313|Ensembl:ENSP00000416453} | novel protein coding | TCONS_00009420 | 617 | 300 | UTR3 | Trans | |
| TCONS_00150696 | septin 10 | novel protein coding | TCONS_00009420 | 672 | 287 | UTR3 | Trans | |
| TCONS_00160920 | protein tyrosine kinase 6 | novel protein coding | TCONS_00009420 | 617 | 323 | UTR5 | Trans | |
| TCONS_00184373 | neutral cholesterol ester hydrolase 1 | novel protein coding | TCONS_00009420 | 619 | 310 | UTR3 | Trans | |
| TCONS_00184525 | lincRNA | novel protein coding | TCONS_00009420 | 616 | 321 | UTR3 | Trans | |
| TCONS_00190499 | palladin, cytoskeletal associated protein | novel protein coding | TCONS_00009420 | 500 | 330 | UTR3 | Trans | |
| TCONS_00190504 | palladin, cytoskeletal associated protein | novel protein coding | TCONS_00009420 | 500 | 330 | UTR3 | Trans | |
| TCONS_00190999 | zinc finger protein 721 | novel protein coding | TCONS_00009420 | 646 | 286 | UTR5 | Trans | |
| TCONS_00194682 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00009420 | 620 | 312 | UTR3 | Trans | |
| TCONS_00194686 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00009420 | 620 | 312 | UTR3 | Trans | |
| TCONS_00194686 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00009420 | 606 | 289 | UTR5 | Trans | |
| TCONS_00196475 | F-box and leucine-rich repeat protein 7 | novel protein coding | TCONS_00009420 | 649 | 317 | UTR3 | Trans | |
| TCONS_00200504 | Rho GTPase activating protein 26 | novel protein coding | TCONS_00009420 | 552 | 306 | UTR3 | Trans | |
| TCONS_00210928 | leucine rich repeat containing 1 | novel protein coding | TCONS_00009420 | 634 | 311 | UTR3 | Trans | |
| TCONS_00213191 | tubby like protein 4 | novel protein coding | TCONS_00009420 | 612 | 302 | UTR5 | Trans | |
| TCONS_00213738 | enoyl-CoA delta isomerase 2 | novel protein coding | TCONS_00009420 | 612 | 289 | UTR3 | Trans | |
| TCONS_00216910 | high mobility group nucleosomal binding domain 3 | novel noncoding | TCONS_00009420 | 630 | 287 | noncoding | Trans | |
| TCONS_00232466 | tumor suppressor candidate 3 | novel protein coding | TCONS_00009420 | 512 | 280 | UTR3 | Trans | |
| TCONS_00232467 | tumor suppressor candidate 3 | novel protein coding | TCONS_00009420 | 512 | 280 | UTR3 | Trans | |
| TCONS_00233718 | pleckstrin homology domain containing, family A (phosphoinositide binding specific) member 2 | novel protein coding | TCONS_00009420 | 641 | 299 | UTR5 | Trans | |
| TCONS_00234826 | zinc finger, C2HC-type containing 1A | novel protein coding | TCONS_00009420 | 617 | 306 | UTR3 | Trans | |
| TCONS_00235281 | NADH dehydrogenase (ubiquinone) complex I, assembly factor 6 | novel protein coding | TCONS_00009420 | 635 | 310 | UTR5 | Trans | |
| TCONS_00235292 | NADH dehydrogenase (ubiquinone) complex I, assembly factor 6 | novel protein coding | TCONS_00009420 | 616 | 316 | UTR3 | Trans | |
| TCONS_00235393 | processing of precursor 1, ribonuclease P/MRP subunit (S. cerevisiae) | novel protein coding | TCONS_00009420 | 670 | 291 | UTR5 | Trans | |
| TCONS_00235393 | processing of precursor 1, ribonuclease P/MRP subunit (S. cerevisiae) | novel protein coding | TCONS_00009420 | 621 | 299 | UTR5 | Trans | |
| TCONS_00235906 | zinc fingers and homeoboxes 2 | novel protein coding | TCONS_00009420 | 526 | 311 | UTR3 | Trans | |
| TCONS_00243477 | osteoclast stimulating factor 1 | novel protein coding | TCONS_00009420 | 664 | 307 | UTR5 | Trans | |
| TCONS_00243482 | osteoclast stimulating factor 1 | novel protein coding | TCONS_00009420 | 664 | 307 | UTR5 | Trans | |
| TCONS_00247297 | family with sequence similarity 166, member B | novel protein coding | TCONS_00009420 | 641 | 303 | UTR5 | Trans | |
| TCONS_00247576 | contactin associated protein-like 3 | novel protein coding | TCONS_00009420 | 668 | 312 | UTR3 | Trans | |
| TCONS_00247594 | contactin associated protein-like 3 | novel protein coding | TCONS_00009420 | 668 | 312 | UTR3 | Trans | |
| TCONS_00252827 | discs, large homolog 3 (Drosophila) | novel protein coding | TCONS_00009420 | 662 | 307 | UTR5 | Trans |
>TCONS_00252827 (31087 nt)
AAAATGAGTAAGATGAGAATTTCAGATATCAAGCTTAAAACCAAGTAGGAAAGTTATATCACTTGTATTTTATGTTTGCAGTGTATTTGCAGAAATAATA
CAGTGTATACAAATCTCATCACTATGCTGTAAAATACTGCTTGTGTGTATTAGTTAGGGTCTCCAGCCATTGAAGCCTCCAGCATTTTCCCTACTTCCTT
ATTTTCCTTTTCCTTTAATTGTCCTTCCAAGAATTCATGGGGAGTAACATTTTTATTCTGCTTCCGTGCTGATGCTATGAGACCCAGTAGAATATAAGTG
ACCTCTGTCCAGCAAATTCCCTTTGCTTTGGCAGGCATCTTGGGCTTTCAACTGTTGTAAGTTACATCATAAAACTGAAAGATTATTTAATAGTGTGCTG
CATTGCCAAAGATGATTTTGACAGTTTGAGGCATGTATCCCATGAAAGGGGAAATTTTTTAACTTAAGATTTAATTTTAGTCTCAGAGATTTTTTTTAAT
TTTTTATTTTATTATTACTATACTTTAAGTTTTAGGGAGATTTTGAGCAGGTTGAGAACTTTAAGCTGGCAGTTTTTAATAGTTGTAGGTCTTTGCTTGA
ATAGAAGGTAACCCTGGTTTAATGTTTTTTTGTATGTCTGCAGTCGTCATTAATTGCAGTGGTTATCAAAGTGTGGTCTGCAGACCTCAGGTCATTCCTA
AGACCCTTTCACAGAGTTGCAAGGTGAAAACTATTTTCATAATAATACTGAGATGGCTATTCTCATGATTTATCTGCCCTTAAATAGGAACAGTAGCATA
CCCAGTGCCCTAGCATAGTAATTTATTCTCCTCCTTCTCTTCTTCTCTTCTTCCTTTTCTCTGTACTTCTACCTTCCTCCTTTCTCTTCTCCAACATGCC
CATGCACTTGTTTCTTCATTTATACAATGAGGTTTCTAATACAGTGAGGTCATTGGATTGTTTTGAAGATTAAATGTGTTAACATCATAAGTAACGCATA
AAGTCCTTAAAATGGCACTTGACACATAGTAAATGCTCAATAAATGCTACTAATGTTAACCATTATTGCTGATAATGTTGTTGTTTTGTTCCCACCGCTT
TAGTTATTGGCTTTAACTGTTTATGGCAGTACTTCTTATAATTTCTCAATTCAATTAAGTATTTTATAAAATAATGAAATTTGAGGGCCTACAAAGAAGT
TTGTTCTTTCTAGGAAAACTGGGTTGTTTGGTTGGGAAAAAAATGCTTTAAAAACTACTTATAAATTTAGGGTGAATGAAACAGTTGTAAAACAATTGCA
AAAATTATAAAAGTCTAAATGGTTTCTATACTCAGATTACTTCCTAAGTAATCACAAGAACTCAGATAAGGCCCTGGGACCTCGTAAAATGGTTGATGAG
TTCCTATAATGTAATATTTTTAGTTAAAGTAAAATATTTAAGATGTGTTTGAATTTTAAATGATTTTTTAAACAACTTTTTTGATTAATAGTTATCAACC
ACTATTCCCTATTACATTGGAAAAGTGGGCCACTACTCTAATTAACAGAAGGGAACAGAAAGGGCAAACAAGATTACATACGAGTATTGTCCATTGAATT
ATGTTTAAAAGACTTAGGTGTAAAAACCAGATACATGAGAAGTATAGCAATCATTAATACATTCTAATGGCAATATCATATTGAAAAGGTGGTAAGTACT
GTATTTGCTTCATGGAAGGATTGATAAGACTCTTTCACATGAATGTTTATGGGACTGTTGCCTAAGGGATTTATAGTAGCTAAAGCTCAAGTTTGAAATA
ATCTCCGTCTGTCCCCTACCTCCCCCCACCCACTTTTCTACTTGTAGGGACCGCGTTGTAGCCGTTTTTGTGCAGGGTCCTGCATGGCAGTTCAAAGGTT
GGCCATGGCTTTTGCCTGATGGATCACCAGTTGATATATTTGCTAAAAGTAAGATTCTCTTTGTATTTACTGTATCCAGTATAGAAATGTTCTCACTTTA
TTTAAGAGAAACAGTCATATAGTTCTGCGCATATGATGTGTATGTCAAAAGATTGCTGTTAAGTAACATATGTTAATGTTTAAGCATCTGTGACATATTT
TTAAAAGCTTTGTATATTAATACTTTCTGTGTAGGTATATCTGAAAGTGAATATTGCCTATCCCACAACATTACTAATTATTTTTAGATCACTTAAAAAT
CATTGGCCAGACACAGTGGCTCACACCTGTAATCTCAGCACTTTGGGAAGCTGAGGCAGGTGGATCACCTTAGGTCGGGAGGTCGAGACCAGCCTAACCA
ACATGATGAAACCCTGTCTCTACTAAAAATACAAAATTAGCCGGGCATGGTGGTGCACACCTGTAATCCCAGCTACTCGGGAGACTGAGGCAGGAGAATC
GCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCACTTCAGCCTGGGCAACAAGAGCGAAACTCCGTCTCAATAGGAAAAAAAAATTAATACTG
TTGCATGTCCATAGATTTTGATTAAAATTGATGCCAGTTTTTTTTTTTTTTTTTAGACGGAGTCTGGCTCTGTCGCCCAGGCTGGATTGCAGTGGCGCGA
TCTCAGCTCACTGCAAGCTCCGCCTCCCGGGTTCACGCCATTCTCCTGCCTCAACCTCCTGAGTAGCTAGGACTACAGGCGTCCGCCACCACGCCCGGCT
AATTTTTTGTATTTTTAGTAGAGAGGGGGCTTCACAAGGTCTCAATCTCCTGACCTTGTGATCCACCCATTAGTTATTATGAATGTCAATTGTACAATTC
TGAAATGTCTTATGTTTTTAGCAGCCCCAGTTTTTGTTAGTGGTACCATCATTTTTCCTTAGAAAATACCCAAGCTTGAAAGTTTTAGTCATTTGTTCTT
CTGTTACCTTCATTCATTTAAAAAAAAAGAATTCTAATATTACTGACTGTAGGAAATTGGTCAGGGTGGTGGGAGAAATAGAAAAAAGATGCAAACCTTC
TTGGAAGGCTGGGAGGTTTTGCAAAAGCTTTGAAAGATAATTTGGCTGAAGTCAACTGGATTCTCTTACCCGGAGCCTGATAGCAAAGATTAGATAACCT
GGGGATGTAAAGAAATTGATCTAGATAAGTTAGTTTACTTAGGCCTCCCAGAACGTGGCCTTTAATCAACTGCAGGAGTCGGGAGGTAGGGGTGGCGGGT
TGGAGGTGGTGTGGTGGGGTGGCGAGGCAGTGGTGACCACGTTAATTACCCACAAGTGTGTTGACTCAAAGCCTTTGTCATTAAATCTGTAATAAAAAGA
TGCTGGCATGTCAGGGCTGCGGCTGCTGTGACTCTTTACGGCATCCTCCTCGACGTCTGTGAGTGGCCCAGTCCCCTAGCTGCACGTCCAGGAAAAAACC
TGTGTCTGCGTACATTTTCCTTCTGTCGTTCGGCCAGGATCTGCAGGTTGGGCCCGGCAACTGACATTATGATAGCTTTTTATGTTATTTCTGAAACTTG
AGTGATACACAGAGTTGGTAAATGGGAAGTTAAATAAAAAGGGAATGAGAATTTTAATGAAAGTAAAATGTCAACGAGAATTCTTTTTTACCTACTTGCT
TGCCTTGTTGAATAATGTTTCAACAAAAAATGATTAGGATGTCTTTAAGATATAAATGTTGTATGAAATTCATTAAGAATATAAAGTTTTAATTTTTGTT
CAAATTTAGTCTTCTGAAATTTAGATAAGAATTTAGAGAATTTTAACAATCATCAGTGATTTACTTTCATGAACTGTTCTTTCTCTTTCACCTGTTCCTT
CTATACTGACTCCTTTTTCTCAGCGTTTAAGAATACTCTTTCCCCTTCCTTCTTAAACAACAAAACAAAACCCTTACCGTTGACCTCACCCTTTCCCCTA
GCTTCTTCTTTTTCCTTTTATAGCTGCACTTTGGAAAGAATTGTCTCTACCAACTCATTTTCTGTTCATATCCCCTGTAGTCTGGCTCTTGCTCTGTACT
AAAGCTGTTTTCACTGAAGTCACCAGTGACTCAAATATTGGATACTGTTAACTTACCAGAATTTGATTCTGTTGACTCCTTTACTCCTTTTTAAGTTACT
TTCCAAGTACCTGTTACACTTTGTCTCAGATTTTCTTGCTACTTTTCCTCTGGTTATCAACTGGAATGGACCCTTCAATATCATGCAGTTGAAAACTCCC
ATATAACTTTTGACTTATCCCAAACATACATACTAATAGCCTACTGTTGACTGGATGCCTTAACTGATAACATAAACAGTCGATTAACAAATATTTTACA
TGTTAGCATTGTATACTGTATTCTTATGATAAAGTAAGTAGAGAAAAAGAAAACGTTAAGAAAATCGTAAGAAAGAGAAAATACATTTACTGTTCATTAA
GTGGGAGTGGGTTATCATAAAGGTCTTCATCTTCATTGTCTTCACATTGAGTAGGTTGAGGAGGAGGAAGGGTTAGTCTTGCTGTCCCAGGTGGCAGAGG
CGGAAGAAAATCCATGTATAAATGAACCCACTCAATTGGAACTTGTATTGTTCAAGGATCAAATGTATATGGTTATGTCCCTATTTCTCTTCTCCCATAA
TTTTAAATACCCTCTCAAGAAGATCTCATAGCTTTCAATTACCATTTATATTCCCTCATTCTAAAAATTATGTCTTTAGCTCAATATTCTGGACCTATAT
ACCTCACTCACTATGAGATAACTTCTCTGTGATATCTCATTGGTACATCAAACTCAACCTTTTCCAAATGGAATTGATGGTTTTACTCTCTTCCTTATTC
CTCAAACTATTTCTTATTATCTGTTAGTCCTTTTCAGTAATTTGCCTAAGCCAGAAACTTGGGAGTATATTATCTTAGCTCTTGGTTGATCTTTCTGCTT
TCACTCTTCTGGCTTCCAGTTGTTTTCTCCATCAGATTACACTGTACAGCATTGGGGGAAAACTGAGGGTATTTGGGAGCATCTCTGTGGGCCTTGATAG
AAAATTATATTATATTTTGTTAATGTTGCATAATTATAATGAAATACATCGTTTGAGAGAAGATTAAATACTGATTTGCATAAAATTGCCAAATAAAATC
TTTACAAATTTAGAATAAGTTTAAGCTGATATCTGGATATATTTTAGATATGTTATACTTGACGTGGCTATATTTATTTGTTGGTTGACATTTAAAATTT
TTTTTTGTTGATACATAATATTTGTACATATTTATGGTGTACATGTGATATTTTGTTACATGGATAGAATGTGTAATGATCAAGTCAGTATTTAGGGTAT
GTATCACCTTGAGTGTTTATTATTTCTGTGTTTTGGGAACATTTCAAGTCATCTCTTCTAGCTGTTTAGAAATATATAATACATTATTGTTAAGTATAGC
CTCCTACTCTGCTTTTGAACATTAGAATTTATTCCTTTGTGCAGCTGTTCACCATGGCATATGTTTAACTGTGTAACAGTCCTGCACATGTACCCCAGAA
CTTAAAAGTTAGAAATTAAAAAAAGAATTTATTTCTTCTACCTGTATGTTTGTACACATTAATCAACCACCTTTCATCCCTCTCCTTCCCTCCTGCCACA
CACATACACACACCCTTCCAACCCTCTAGTATCTTATCATTTTACTGTCTACCTCCATGAGATCAACTTTTAACGTTCCCACATAAAAGTGAGAACATAG
GAAAATTTGTCTTTCTGTGCCTGGTTTCTTTCACTTAATAGAATGACCTTCCAGTTCTGTCCATGTCGCCTTGCCACAGATGACAGGATTTCATTCTTTT
TTATGGCCACACAGTATTTCAGTGTGTATATATACTACATTTTCTTTATTCATCTGTTGATGGATTTAGGTTGATTCCAGATCTTGACTGTTGTGAATAG
TGCTACAGTAAACAAGGGGTGCAAGTATCCCTTTGATAAACTGATTTTCTTTCCTTTTGAAAAATACCCAGTAGTAGGACTGCTGGATCATCCAGTAGTT
CTGTTTTTAGTTTTGAGAAATCTTCATACTGTTTGCCATAGTGGCTCTACTAACTTATATTTCCACCAACAGTGTAGGAGTTCCCTTTTCTCTGCATCCT
TGCCAGCATCTGTTACTCTGTTTTTAGTAATAACCCTTCTAATTGGGGTAAGATGATATTTCATCGTGGTTTTGATCTGCACTTCCCTGATGGTTAGTGA
TGTTGAACATTTTTTCATATATTTGTTTGCCATTTATTTGTATGTTACCTTTTGAGAAATTTCTGTTCATGTCCTTTGCCCACTTTTTAATGGGATTTTT
TTTTAATTGTTGAGTTTCTTGCATATTAGTCCCTTGTTGGAAGAATAGTTTGCAGATATTTTCTCCCATTCAACAGGTTGTTCTTCACATTGTTTATTGT
TTCCATTGCTGTACAGAAACTTTTTACTTTAATATAATCCCATCTATTTTTGTTGCCTGTGCTTTTGAGGTCTTAGCCATAAAGTCCTTGCCTCGACCAG
TGTCCTGAAGCAGTTCTCCAGTGTTTTTCTGTGTTCTCTTGTATTCCACTCAGTTTCTGTGACATCATTATTTTGAATTCTTTTTCTGATATTTCCTAAG
TTTATTTTTCATTGGGATCTGTAGCTGGAGAATTATTCTGTTTTTCTTTTTTTTGGAGGTATCATAATTTCTTACTTTTTCTGTTTCTTGTGTCCTATGT
TGATATCTGCACATCTGGTATAAACATTGCTTCTTCTAGTTTTTTGAATTTGCTTTTTTAGGGGAGGACTTTTCCCCGAAGATGTACCTATGATTTTGAT
TGGGTGGGGCACTTTGGCTTTGGTTCTTCATACTGGCTGTGTAATTTCTAACCTATAAACAGCGTCAGTGGTGTCTGTGGTTTCCTCAGTGGCTTAAGGT
TTGCTTGTTAGTGGAGGGTGTGGTGAAGTTTTGCTGGGGTCAGTGACATCAGGCAGGCTATTCCTTGGGCCCCAGTGGTGGCAGCAGCAGGCTGAGCCTG
CCTGTTTTTGAGTCCCAAGGCCACGTATGCTGGCACCTGTGCTAGTAAGTCCAGACATCATCTTGGGTGCCAGCAGTGGCAGTGGTGAGCCTGGAGGGTG
AGCAGGTCAAGTTTCTGGGCAGTGGGCAATGGCAGTAGCAGTGAAGGGGCAACCTCTGGCTCCCCAGAGGTCCACACTGTTACCAATTGTGGCTTTGATG
GGCTGGACAGGACAGTGCGCAGGCCCACAGGGGGTGTGTGCGGGTGGGTAACAGTTGTGGTGGTAGTGGCAGGTTGGTTGGGCGTGTCTTCTGCCCCTGG
GAAAAGTGCTCAGGTGCCAACAGTGGAGGATGTTGCAGGGCCACCCTCAGGCCCCAAAATGTGTGCTCAGGCACTGCTAGGGCGGCAGAAGGGGAGGACA
GAGCCCAGCCAAGTTGGCCTGTCCTCAGGCCTCCAGGTCGCAGGCAGGGGTGGGGTGTTCTTCAGGTCCTTGGCAGTGTGCTACCAGCACTTGGGTCCTG
CTGCTGGGGAGAGCAGCGTTGTTTTCAGTGGCAACGGCCAGTAAGCAGGCATCTGGGGCATGTGAGCTTCCGCCAGTTGGTGGCTGTGATTGGGAGAATC
TGTCCTCAGGGTGCTTTTAAATACGTGACTGTTGGAGTTGTGGGGTCACTGCCAGTGGCTTGCACTTAGATATCATCATTGTCTGCAGGTTTGCAGGGGT
TGGGGGGCTGTCTTCAGGTGCTTCCCCCACCCCGACTTAGGGTGTAAGGACTCTTGGGCCCCAGGGTAGGATGCAGTCTGGTGGGGGCCGAGCCCTCAAA
ATGGCGCTGTGCTGCATGCAGCTGCTTAGGGCATGTGTAGGACCCAAGCATGAACCTCCTATCTGGAGCATCTTGTGGTCTCTAGGCAGCTTTCTGTGTT
GGTGTCAGGACCCCTGAGGGTCATGTGGCTCTCCCCTGGCTAGGATTGCAGGAGTCTGAGGTGGGAATGTGGACCATTAGGGGTCTCTCACCCTTATCTC
ACTGGTGAGCCCATCCTGGCTTCCCTTCTCCTTCCTTGCCTTAGGTGTTTCTGCTCACTTTATCTGTTGAATTCCAGTGCACTCTCTTAGATCATCTATT
CAAAGTGTGATTATCTACTCACTGTTTTGGTTCTTTTTGTTTGTTGACCCTCCTGGTAACTTACAGAAGGTGGTTCTTCTTTTTGGAGGAGGCAGGTGCC
AGATGCCTCTAGTTAGCTATCTTGAAGCCCCTCTCAAGATATTTTTAATGATAAATGTCTTCAAATTATTGCTAGCTACCATTGAAAAAATATTTTTATT
TAATAATCTTCTGTATTATCCCTTTATCATTTGTCATGCGATCAGTATATCTAAATATTAAAAGGGCACCTCTTTGATCTCTTTTGCTTTGTTGCTTTCC
CCAAAAAATGTTGGCAGCATTCATGAAGTTTGCAAAAACAAGCAATTCTGAGTTGTGTGAAATATTTTGCAGTTGTAATTCATTGTGCTGCGGTAAAACT
GGCTTCTTACAAAAGAACTTTATTTCTTTTTCTTCTTCTTCTTCTTCTTTTTTTTTTTTTTGGAGATGGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGCA
GTGGTGCAATCTTGGCTCCCTGCAACCCCCAGGTTCAAGCAGTTCCCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTGCACGCCACCATGCCTGG
CTAATTTTTCTATTTGTAGTAGAGACGGGGTTTCATCATGTTGGTCTGGTCTCAAACTCCTGACCTCAGGATCCGCTCTCCTTGGCCTCCCAAAGTGCTG
GGATTACAGGCGTGAGCCACCGTGCCCAGCTTACTTCTTGTTTTTAACTTCCAGAGGCTTAAAAACTTTTAATACTTTTTCTGAATAGGAAAGATTTTTT
TTAATGATAATATGTTGGTGTAAGTTTGTTTCGCATCATTGCTTCATGCGAATAAAGTATGAGTGAAACTTTATATGTTTTTAAAAATTAGTGACTTACA
CTTTTTGGACTCTAGTATCCTAGCTTTAAATTTAAAAGTTGTCTATTCTGGTGGAAAAATAAATATCAATAAAGATGAAATCTGTTGAAATTATTAAAGA
AGACTGTAGGCCATTATGGCTTCAGTTTGATCATTTTAAAAAATGTAACTTAGATGCATTCTGAAGAATGATTAGCAAATAGTTGAACAAGTTAGAAAAG
CAACACCTAAGCAGAATGGAAATGATTAAAATGTTGATTTACACTGAATGCATGAGTTTTAAATTTTTTTTAATTGACAAATTTATTTTACACATGAATA
CTACTTTGAAAGTAAGTTTCTTGAATGTTATTACATGTAGCCCCTTTAATGAATTTGATTAAATTCAAAATGAATAATTTATGTCTGATGAAGAGACTTT
TATTTATAAAAGCAAATAAATTAGAAATAAGTTTATTTTTCTGGGCACAAATTATTCATTTTAAATGTTTATTAAGAATTGAATCTTGATTAGTTGTTAA
CATCAAAAGCCAATATGCTAGCAAGCAATATGAAACAAGCAATCCATAAAATAGCTATCAGAAAAAACTTTAAAAGTCAATTGTTTTCTCTTTAAAACCT
CTTATACCAGGTTGATACTGATCATAATCATATGCTAGTGAAAAAGTAAAAAATTGGGGGGAAAAAGCTTAACATTTGTACATGCACATGCAAAACAAAA
GCTCCCTTGATAATAAAGGGATTGCAGATATAATGATAAACTAGCTGGGATGATTCAACTTGATTATTAAGGAGAGAAAAAGATTGTAAATCATTATTTT
ATAACCTACCTGTTTTTAGTACAACTAGTTGGGAAATTTTGCCCTAGATTATATCACCTGCCGAACAATCCAGAGTTGTCTTTTAAAAATGGCAATCATA
TAATTTCACCTTCTTCTTGTAAACTTTCCAGTGGCTTACTATCACATGTGGAATAAAAATCAGATTTTTTACACTGTAGCTGAGAATGTATATATAGGCT
ATTGCCTACAAAGAAAGTTAAACTGAAGCTGGTTGTGGTGGTATGTGCCTGCAGTCCCAGCTGCTGGAGAGGTTGGGCCAGGAGGGTCACTTGAGCCCAG
AAGTTTGAGGCCCTGGCCTACATAGTGAGACCCTGTCTCAAACTGAACAACCAACCAAACAAACAAAGTAGCAAGTGTAACGTTTTTTAACATTTTTTAA
AAAAATTATTCTTCAACATAGGACATTCCATGCTTGCTTCCATCTTGGAATCTTTGTGTCAGCTGTTCCTTCTGCCTAAAATCTTCCTCTCCCAAATCTT
TGCAAGACTTGTTTTTTCAATTACCTGCTTCTAGATAATCTTGAGAACCCCTCTCTAAATACTATTGACAAAAACCTTCCACACGTGTATTATGTCCTTA
TTCTGCCTTATTTTTCCTCAGTAGCATTTATACTACCTGAGTGTTGTATATTTATCTGTTAAACTGTTGACTCTTAGAATATAAACTCCCTTAGGGTGGA
GACTTTGTCTTGGTCACTATGTGTCTTTAGTGCCTACAATAATGCATAATGTGTAGTAGACAATGTATGTTAGATATATCTTTGATTATAATTTTTTAGT
TTAACTTTTTAAATTGCCATATAATTGTACATATTTATGGGGTACATAGTGATATTTTGATACATACAATGTATAGTTATCAGGTTATCATAATTAGCAT
AGCTATCATCTCAAATGTTTATCATTCTTTGTTTTGGGAATAGTCAGTTTCCTCCTTCTAGCTATTTGAAACTATGTATTATTGTTAACTATAATCCTAT
AGTGGTGTGGAACACTCGAACTTATTTCTTCTATCCAGTCATAACAAATCTCTCTGTATTCCCCCTACCCCCTACTCTTCCCAGCCAATAGTATTTTCTG
TTGCACTTTTTACTTCTATGAGTTCAACTTTTTTTTAGCTTCTACATATGAGAGAGAACTTGTGGTGTTTAACTTTATGTTTCTGGCTTGTTTCACTTAA
CATAATGTCCTCCATTTCCATCTATGTTGCCACAAATGACAGGATTTCATTTTTTTATGGCTGAATAGTATTTTATTGTGTACATGTATGCCACATTTTC
TTTATCCATTTATCTGTTGTTGGACCCTTAGGTTGATTACATATCTTTGCTGTTGTTAATAGGACTGTGAATAGAATGCATTAAACATGGGGGTGCAGAT
ATCTCTTCAGTATACTCATTTCCTTTCATTTGGATAAATGCCCATTAATGAGGTTGCTGGATCATATGGTAGTTCTCTTGGTAGTTTTTTGAGAACTCTA
GACTATTCTCCATAGTGGCTCTACTAGTTTATATTCCCACCAACAATGTATAAGAGTTGCCCTTTCTCCACATCCTCTGGAGCATTTGGTATTTTCTTGT
CTTTTGTATAATAGCCATCCTAACTGGAGTGAGATGATACCTCATTGTGGTTTTGATTTGGATTTCCTGACGATTAGTGACATTGAGCATATTTTAATAT
ATTTGTTGACTATTTTTGTGTCTTCTTTTGAGAAATGTCTGTTTAGATCATTTCCACATTATAAAATCTGATTTTTTATGCTTTGAAATTTTTAAGTTTC
TAGTATATTCTGATTATTAATCCCCTGTCAGATGAGTAATTTGCAGATATTTTCTCCCATTCTTTAGGTTGTCTTTTCACTCTGTTGGTTGTTTCCTTTA
CTGTGCAGAAGCTTTTTAGTTTGATATAATCTCATTTGTTTATTTTTGTTTTTGTTGTCAGTGCTTTTATTCATAAAGCCTTTTCCCAGACCAGTGTCCT
GAAGTGTTTTCTCTATGTTTTCTTCTAGTAATTTTATAATTTGGGGTCTTATATTTAGGTCTTGAGTTGATTTTGTATGGGGTGAGAGGTAGGAATCTAG
TTTCATTCTTCTGTATATAGAGATATACAGTTTTCCCTGCATCATTTATTGAAGACTGTCTTTTCCCCAGTGGAAGTTAAATTGTTCTTGTTTGCAGATG
CCATGATCTTATATTTAGAAAAACCTGAAGACTTTACCAAAAATACTCTTAGAACTGGTAAATGAATTCAGTAAAATTGCAGGATACAAAATCATCATAC
AAAAACCACTAGCACTGTGGTACATGAACAGTGAACTAGCTGAAAAAGAAATCAAGAAGGCAATCCCATTTATAGTAGCTATCAAAAAAACCACCAAAAT
TCCTAGCAGTTTTTTTCTCTTCATCATTTCTTACCAAATTTTGTTAGTTTTCATTCCCCACTTTTCTCTTGCCACCCATATATATTCTGTTCTATTGAAG
AAAAATCTCTTTATCCTCTAGCTTAATAAACTATAATTATTCTCTACTAAATACTTTGCAGTGATTGTCCATGTCACTTAAATATTATAAAAACTACTTA
ATATGGCCTGCAAGCCTAACATTTTTCTGAACCTCTGTGCTGTATATATCCCTTCCCTACATTATTTTGCACGATGCAGTTCTATTAACTTTCTCTAGTT
TCTAGACTAATCCATTTTCTCTTTCAGCATGATCAGCTTATTCACTAGGTCACTTTTGTTCTGTGCTCGCTTAATTCGTACTTGGCCTTTAGATCTTAGG
TTAGACATCAGTGCCTTTGCAAGGTTTTTGACTGAATTTGTGCGTGTAAGGTACAAGGCATAGCTTGTTTTGTGCTTTGCTTTATCAGGCTTTGCAGAAT
TTTTTTTTGTGAACAAATTGGTTTGTGGCAACCTTGTGTGTTGATAAGTCTATTGGCACCAATTGTCCAACAGTGTGTGTCCCTTTCGTATTGGTGATTT
TTACAATATTTCAAACTTTCATTATTTTTGTATCTGTTATGGTGATATGGGACTAGTGATCTTTGATGTTACTATTAAAATTGTTTTGGGCACCACAAAC
CACACCCATATAAGATGGCAAACTTAGATTGATAACTGTTGTTCTGACTGCCCCACTGACCAATTAGTCCCTCATCTCTCTCTCTCTCTCTCTTCAGGCC
TCTCTTTTTCCTGAGACACAGCAGTATTGAAATTAAGCCTATTAATAACCCTACAGTGACCTCCAAGTGTTTAAATGAAAGGAAGAGTTGCACATCTCTC
ATTTTAAACCAAAAGTTAGACATGATTAAGCTTAGTAAGGAAGGCATGTCAAAAGCTGAGACAGGCCAAAAGCTAGGTCTATTATGCCAAACAGCTAAGT
TGTGAATGCAAAAGAAAACTTCTTCAGGGAAGTTAAAAGTGCTACTCCAGTCGACACACAAATAATAAGAAAGCAAAACAACCTTATTGCTGATATGGGG
AAAGCTTGATTGGTATGGAAAGCAGATCAAACCAGCCATAATATTCTGCTAAGCCAGAGCCTGATCCTGAGCAGTGCCCTAACTCTCTTCAGTTCTGTGA
AGGCTGAGAGAGGAGAGAATTCTGCAGAAGAAAAGTTGGAAGGTAGCAGTAGATGGTTCATGGATTTAAGGAAGTAAGCCATCTCTATAAAATAAAAGTG
TAAGGTGAAGCAGCAAGTGCTGATAAAGAAGCTGCAGCAAGTTATCCAGAAGATACAGTGAATATTATTGATGAAGTTGACTACACTAAACAACACATTT
TCATCGTAGATGAAACAGCCTGTTATTGGAAGAAGATCCATCTGGTACTTTTATAGTTGCAGAGAAGGCTGTGCTTTGGCTCCAAAACTTCAGAGGACAG
ACTGACTCTTTTGTTAGGGGCTAATACAGATGGGGACTTTGAGTTGCAACCAGTGGTCACTTAACATTCTAAATATCCTAGGGCCGCTAGGAATTATGCT
AAGTCTACTCTGCCTGTGCTTTAGAAATTGAACAAAAAAGCGTGAATGACAACACTGTTTACAGCAGGGTTCAGTGAATATTTTAAGGCCACTGTTGAGA
CCTACTGCTCAGAAATAAAGATTCCTTTCAAAATATTAGTGCTGATTGACAATGTACCTAGTCATGCAAGAGCTTTGATGAAGGTGTTCAAGGAGATGAA
TGTTGTTTTCATGATTACTAACACATCTATTCCTCAGCCCATAGATCAAGGAGTGATTTAGACTTTTCAAGATTTATTATTTAAGAAATAAGTTTTGTAA
GGCTTTAGCTGCTATAGATAGTGATTCCTCTGATGGATCAGGGAACAGTAAATTGAAACTTTTTAATTTAATAAGATTTACCATTCTAGATGCCATTAAG
AACATTTGTGATTAATAGGAGGAAGTCAAAATATTAACATAACCAGAAGTTTAGAAGAAGTTGATTCCTACCTTCATGGTTCATAGATGACTTTGAGGGG
TTCAAGACTTCAGTGGAGGAAATAAAGATAGGGTGTGGAAATAGCAAGTGAACTAGCATTAGAAGTGGAGCTTGAAGATGTGACTGAATTGCTGCACACT
CATGCTGGAACTTGAATGGATGAGGAGTTCCTTCTTACAGATGAGCAAAGAAAGTGGTTTTTTTGAGATAGAATTCACTCCAGTGAGCACTTTCGTGAAG
ATGCCATAAACGTTGTTGAAATGACAACAAAGGATTTAGAACATGACATAAATATAGTAAAGCGGCAGAGTTTGAGAGGATTAACTCCAATTTTAAAGGA
AGTTCTTCTGTAAGTAAAATGCTGTCAAATATTATCACATACTGTAGAGAAATCTTCTGTGAAAGGCAGAGTCAATCAGTGCAGCAAACTTCATTGTTGT
CTTATTTTCAGAAATCGCTACAGCCACCCTAACCTTCATCAACCACCACACCCTGTTCAGTCAACAGCCATCAACATTGAGGCATAATCCTACACCAGCA
AAAAAAATTAGGACTTGCTAAAGGCTCAGATGATTGTTAGCATTTTTTAGCAAGAAAGTACATTTTAATTAGGGGATGTACACTGTTTTTTAGACATAAT
GCTATTGCACACGTAATATAGACTGTGATACAGTGTTAACGTAACTACGTAACTTTTATAAAAATGCAATGAGGTACCAGGAAATATGCGTAACTCATTT
TATTATGATACTTTATTGCGGTGGTCTGGAACTGAACCCACAATATCTCCAAGGTATGGTTGCACTCTTATGTTTCTGTGATAACGTACCAACCTTATAG
TCTTTCTTACTGTCCTTCACTAGACTATATGCATTTTATCTTACCTTATTCCTCATTTTAGTGTCCAGTGGCTGGCGTGTATAAACCCTGAATGTTTTTA
AAGATAATATTTTAAAAGATCACTTTAGTTATAATACGGCTTCAGTTGGTGGAATAAAGAAATTTTTTTCTTTTTTTTTATTTTGAGTAAAAATGATAAC
TTCTCTCCACCCTCTCTATAGTTAAAGCCTTCCATCTGAAGTATGATGAAGTTCGTCTGGATCCAAATGTTCAGAAATGGGATGTAACAGTATTAGAACT
CAGCTATCACAAACGTCATTTGGATAGACCAGTGTTCTTACGGTTTTGGGAAACATTGGACAGGTACATGGTAAAGCATAAATCGCACTTGAGATTCTGA
ATTATTTGGCTCCTCCATTTCTGGAAATTGAGACTCAAGCTTTATGAATTTATCAAGAACTTAAAAATGAAGAAGGTCACAGATTGATCTTTTATAAGAC
CTTATTTGATGCTTTGTGCTTCAAGGAGATGATACCTGTCATCCATATAAGCAAACTTTTTGGCTTACAACTATTTTTTTAATATTAGCCTTCTAGTCTG
TAATGGAAATTGTATATTTTGATAGAAGTTTTTTCTCCATTGGTTAAATTAGCATTACTTAAAATTTGTTTCTTTAGAAAATAAATGCAGGTTATAAATG
TGTGTATATTTAGAGATTATAAGGCTCTCTGAGCCATCTTCTGATTTTTCATTGCTCTATAATTCTTTTTACTGAAAATACTATGTTATGAATGGTATTA
AATTTTAGTCTCTGGAACATCCAAAACCAAGCAAAGGGATGTGACTATTTTGAATGAATCAGAATGTCAACTTGTATGTACACTATATCTACACTTACTC
ATTATTTAAAAAGAATAATGAAAAATCTAGATCAATTCTTCAATTTGATTGAACTGTTCAGCCTTTTCAAGATTTCTTTATTTACAAATGATTACATTTA
AATGAATGTACATTCTTCTCACTGACTTTGGTGATTTTGAAACCTAGAATGATGTGTTTCTATCTGTAATATCTTTCCATTTGAAAAAAATCTCAAAACA
CAGATTAAAACCACAATAGGCTGTAGTATTTTTTATTTTGGGAGCCAGAGTATGATTTGGGGGAAGAATATGTATCAGCCCTATTGCAGTATAACTTTAA
GCTCCTTTTCTCTTTAGTCCACTTTTGATTGTAATTTTTATGGTATAGGATTTTGAATCTTCTATTTTAGGCTTGTCAGTCTTGGAGTTCTTATCTTCCA
TTATCCCTAAATATTGATAAACTCCCAGGCACCAAAGAAAACATTTGCTTAATTGTCTGAAAAGAAACAAGAGAAAAACACTGGTATTTTTATGTCTGTA
TTCAATATGGTATAAAATATAAAAACTATATTTTAACTTAGTGAAATATTTTACTATTTCTCTACTTCAGACAAAATGTTGCATCCAAGGTACATCAAGT
GACCATTTGCCTTGAACCTTGATTTCACTTTGTTTTTTTTTTTTCCTTAAAGGCAACTAGGAAGCTTTACTTTCCTAAAGTGTTTTTGCCATTGGAATTT
TTGCTGATCACAGTCTTATGTCATTTTTTTCTCTGTTTTTATTCCCAGCAATTTTCTCCTAGGTTAACATATTTTTGGTGAACGTTTAGGCCTTTCATAG
GTATTAAGCTGACATTATCTAGCTTCTTAATGAAATTTAACACTGTCACAAAAATGAGAAGTTATTATTTTTTAAGTGATCACATAGTTCATACCACTAG
TAACTAGAAAAGATATTTATTCACATGATATTTACAAGGCTCTTCAGAAGGGAACAGTCAGCATTTTAAATTACTAGATTTTAGCATACTTAACAAGGTT
TGAACAGATTCTACCCCTATTTTCCTCCCTTTTTAGCGTCTTCTTTCCTTAAAGATAAAAGAAAACTCAAATTTGTTTACATTAGGCTTTCTTAGCATAT
AAATATATTTCCAAAATAAATTACATGTTGTGTAAACTTTCTCCATGATGAAATAGTCAAGGACCAGAATCTGTAATATTTTTATGTAAGATTACTTGTC
AAGACTACTACAAGTCAGTATGAACTACCTTCCCATAAAGATTTTTGGTATTTGTACTTATTTATGAACTTTACTTGAGACAGAATATGGTTAAAATTAG
GAACATCTACTTTGAATGAGGTTTATTTTTCTATTTTGAATTTGCCTTATGTATATTCAAAGGCTTATGGAAATACTGTAAAGGAACATTAGGAAAAGGA
CAAATAGGCTATAACCATCTATCTTAAAATCAGACCCTTAGTATAAGCACCTCTTTTTCTTTTCCTCTTTGACAATTTAGTCTCTTATTTAGGTCCATGT
AATTAATTTCATTCCATTATTTTTTAGCTGTTTATTCTAAAAAACAAAAATTTTCAGCCACTCCCATTTATTCTCCCATGACATGGTCCTATATAGCAGT
ACTTAACACAGTGCCTTGCACATAGTAGGCATTCAGTAAATACTTACATGCATGAATGAATAATGTATTTTCAGTGTAACAAATTTATTATAAAAGTGTA
GTTCGACTCTTCTTGGTCTTGGAGTTTGAGAGTACAGAATTACAGGGAATGAAGAGAGGTATAAGTAGATATTTTAATGGAAATGAAGTATAAATTAATA
ACTTGACTTACCCCTCCATAAGTTACTGCTAACTGGAGATACCCTTGTATGCCCAACCTGTAAAGGAAAAAGTTCTATTTCTATATTTATAGGACATTCT
TCTCAGTCAAGGAACAGTAAGAAATATGTAGGTTTCAATCAGTTGCTCTCAACCCTGACTGCATTTTAGAATCATTTGGAGAGTTTTTAAAAATATCCAT
GCCTGAATCTTGATTCCCATTTTCATGTAATTTGAGACAAGACCTGGTCATCAGTATTTTTTTTAAAGTTCTCCAGGTAATTTGAATGTGCAGGAAGGAT
TCAGAATCACTGGTTTAATTTGTTATTGAAAACAGTACCAGTATTAAATGTGTTTCCTCTTCCTTCTTTTCTGTATGTATGTGTGGTTTTTGATTTTTTG
TTGTTGTTGTTGTTTTGTGGCCACCCTTTGCACTAGACCATCCCTTTTATTGGTGGTATTGGCCTATATTCCCATTGACAAATGCAATTTTTAATTATTT
ATTTAATATAGGAGTATTTTACTGTTTAATATTTAAACAATGTTTAATGTATTTCATTATTAACTAGTATTATAGTTTGTTTTTTTCCCATGTCTCCATA
ACTTTTACTAACATTTGTTTTTAGCAGCACAACAGTAATCCATATAAAAACAACTAATTCATAATGAGGAAAATCTCATAATTTTTAAGGCAGAAAGAAG
TATTAATTTTTGATCTGCCATGTAGAATGAGACAAATACAGTTTGCTTATGAAAGGAAAGTGGCATACTTTTAAATTGGTCTACACAGAAAAGTAAAAGT
AAACTATTCATTTAAATAAGATTCATTATCTAATAAATATTGAGGGAATATTTTTCCTAAATAAAAATTTTTCTGACTGCTAACAAAAATTAAAGTGATT
ACATTGTTCTTTTTTGGAGGGGTGGGGAGGAATATTTGTTGAACTAAAGTATATAAAATTTTTTGAGACTAGCAGTATATTTTATAATATTACAAATACA
ACAATTATTTATAAAAGCTAGTCAAATTAATGGCTTAGAAAGTAGCTGTAAACTTTGTGTTTTGAAATTGCTTGTTTAAATGCAAAATTATGAGTAAGAT
AAGTCTTTTTAAATTTTTTATTTTTAATTTTTTTGGAAGTTTATTAAAGCCCTTCATATACACATACTTTTTAAAAAAAGATTCTTAATAAAGAAATTAT
TGGTTTGTCTGGTTAAAGTCCATATAGAATGCTGAGAAATAATTTATAAAATAAGAACTATAGAAATTTGTTCTCAGCTGAAAAGTTGGCAGCTGCTCTG
TTTCTTTAAAAAAGTACAACATGAAAATTTAATTACATTAGCCTTAATATTACTTGACTGAATTTCTACTATTTATTCACTTGTGTTTGAGATTCACCCA
GCTATTCTAATGATAGAAATAAAAAGTGGAGAAATGACTAAAGTTGACTTAAGTTAAGAATTGGAGTGGGAATTTTGAAATGCCATGTCCTATATATTCT
GGCATATTTGTTGGCACATTTGCAAGTATGTTGATCCCAGCATTGTTTATATCTGTTGGAATAATAACTAAGGAAAAATTGAAAATGTATAATAGATGTA
TAAAGATTTATATTTAGTTAGTATATAATAGATAATACTTGCAGGTTTTTTATGTGTTTTGGGTTTCTGTGTATTATTTTAGGTAATCTTTATAAGGGCA
TCTTGGAAGTTATAAATATGTGCCATTTACTGAAAAGTGGGAAGCATTTTTATATGAGTAAAGCTAATGAAATAAAACTAGTTTTATTGCCAAAATTCAA
AAAGTGGGGTTCATGCTATGTCGAATTTAAGCAAATGATCTGTCTGAGGATTTTGTTTGCCATTGAATTCCATTTCTGTCCACTTTAAATTTACTAAAAG
CTATTTAACCTGAGTTTGATTATAATGCTTCATAAGTAATGCAGTTCATGTACATAGAGTAAGTGCTGTAAGTGATTTTTTAACCACCAGTTGGTGCTGT
TTCTCAAAGTGGTTCTTAATTAGAGTTTAAGTTTGGGTGCCATGTGAACTCATAAAATATTCTACTCATTCTTTTTGTTTTTCTTTGTTTTGTTTTCTTT
GTTTTATTTTTCATTCTGTTTGTTTTTCTTTGTTTGTTTTTGAGATGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGTGCTGCGATCTTGGCTCACT
GCAGCCTCCACCTCCTGGGTTCATGCAGTTCTCCTGCCTCAGCCTCCCGAGTAGCTGGGATTATGGGTGTGCACCACCACACCTGGCTATATTTGTATTT
TTTAGTGGAGACAGAGTTTCACCATGTTAGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTCGGCTTCCCAAAATGTTGGGATTACA
GGCGTGAGCCACCATGCCTGGCCTGTTCTGTTCATTCTGATTCCAGTTTGGTGGGCTCTTAAATTTTAGGTTCAATTGTAAATAAAACATGTTGCCCTAT
TTTGTTTTAAGAGCACTAGGGACATTTCCATTCTCCCTTTGTCCTCAATCCCCCAAAAACATTCATACGAAGAAGTTAGAAGCTGTATTGTGGGCTGGAA
TGCTATCTTTACATGAAAAGATTATTGGGATTTGTCAGGCATAGTATTTCTCTGAGGAATAAATGAAATATAAATTTCACTTTGGAAACTAATGAGTTAA
AACCATTTACAGTTTCTGTTAACGAGTTAAATAATGTATAGAATCATAGTTCGTAATGGTAGCAAGTTCATGCTCTGCTGAACTTACTGTTTGATTATGG
TCAAATTTTCTATGTTATTATTATAGTAGAATTAAGAGTGTGTCCTGGTAAATTACATTACCTTCACAGTTTGAGCATTCTGATTTTAACATTTTGTAGT
TTCAAAACAAACTGTACTCATATAATCAGAGCATTAACAGCAGCATCATGTCAGTGGTACCAATAATTGTGAATCTTCTGCAACAAAATTTCTTTAATGA
TGAGTTTAATGGGCTATATTCAAACCTAATTTTTATTCAATTCATAAGTGCCCACTAAATATGTATTTTATTTCTGCTGTTCTGTTCCTTTGATTATCTG
CTTTTCAGTGAGCATCTGCATAGCTAAAATAGATATAGCATGTGTTGTAAATGCTGTTGAATTTTTTTAAGGCTCAAAGGTGCTAGTATATAAATAACAG
CACATTGCCAAATAAGCATTTTTTCTTTCATTTTCTGAAGTACTTTCATATTTACTCATGTAATTATCAGCATTTATGGTGAGTTGGAATAATTTTTCCT
CTTTATTTTCTTAAATGACCCTAGAAAACAATGTAAAGTAGCTCTGAAGAAGGCTTTGTTGTTGAATCTGTCTCATAATTACTTGTGGATCCTTTGACAC
AGAATTATTTATAGTTTATAATTCACCCTCATCTAGAGAATGATGATTTCTATTACATAAGTAATGTAAATAGAGCTGAGACCATAGTGAAGCAGAAGAC
ATTTGGGAGATACTTTTGATTACATTTGGATATTTTATTGGACTATGATTATTTTGCCAACAAAGTACAAGTCAAAACATTGGGTTATACAACATATTCA
CTTTAATAAAATATAGTAATGGATACTCACAGAAGAACTGCCTTCATGGAGTTCACAATGTTAATACTCTAAGTGTAATGGCCATCTATTTCTCTCTTTT
TAATAATACAAACATTTTTCTTTAAAATGGAATAGTTTGAAAGTGTTTATCGAGTCAGTGTAAATGGGGGGAGATCAAGTGAACTTCCTTGTGGCTCATT
CAGTTGTTTTAGCACAATTAAGCATCACTAATGTTTTTAAAGGGCTTGACTATATCACAATTTTAAAATATTTATATTTTTAGATAATATATTTTTATTC
CATAATGCACTACTGAGGACAAAAAGGAAGTGTAAGGGTCACTGATGATGAAATAAATTTGAGATGCATTAAAGTAGTTTAAGGCTAAAGCAGTTTGATG
TAGGAATTTGAGGAGAAGACGACTTCAGCTTAATGGGAAAATACTAATTTGGACAGCGTTATATGCTTCTGGGGTTGTCATGAATTTAAGAAAAGCTAGG
CAAACCTAGTGTGATTTTTCTCCAGTGACATTTAGTTGCTTGATTTCAGGTATAGAGAATTGCAGTTAGATTTTTAAGCTATTTTGATGGCAGTAGAAGC
AGGCCAGGGAGTTGGAGATATTTTCAAGGTAATAATTGTAGTACTGAAACATGGAATCTAAGCTGTTCAAGGAATACATGATAGAGGGAAGGTGGTGAAT
GGTGAGAAAGTGGTGCTGTCCTGTGAACTGATAACAACAATGAAGTGAGCCTGAAAGATAGGGGGAGGTGGTCAGAGGATGGGATGTGTGAAGTCAAGAC
TTCAGAGGTGATCTGATATTGATGAGAAAAAGTCAAGACCTTGGAAGTAACTGAGATAGAGAGGGTGAGGTATTCATTAAAATGAGGAGTCAAGGATCTA
TGGGGCTGCAATTACTCGTGTAAGTGTTGAAATGAGAATGACAAGCATAGGAGTGAGAAGAAAGATGGCAACAAGGAGAAGGTAACCGGTGACTGGTTGG
CATTAGCTTTACAGGATCCATGCTTTAAAAACTTTGATTAGATATTTAAAGATGAATATTTAAAGATGAAAATATATTTAAAGATGAATTAATAAAATGT
TAAAGGTATAGATCATTTCAGTGCCTTTCTCCAACATCCAAATTGTTAAAGAATTACATACTTGTCCCATTAGCCCAGATGATGAAGACTTTTACTAAGA
CACTATTGACAGCCTTCCCACCCTCTGAGTCTTGTTTTCTAAGTTTGCTCTCATGTGAGGCTAGTTCTTGTATTCTTTGCTACTTTTGTCGCTTAATGAT
ACTGAAAGTGGTTAAAACCTTTGTTGGAAAATCTGAGCTATGCCCTCTAAGGTTTCATTAAGTGCTGGGGTCACTTGCCCCAGTTGGGGGGTCACTTCCC
CCAGTTGTATGTGCAATTCATTACTAAGAGAGAATATCCTGAGCAGTTCCCAATGGTGGGTGGCTGGCTAAAAGGAATCCCTGGAGATTTTAGTGTGGTA
GGAAAGCATTTTCATTCTTGAGGATTTTTCTTTGACTTTTCTATGGGCTGGCTGATTTCCTCAGTTTGCTTTGTTCTGGGTTTTAGGGGAGAATTCTTGG
GAGGTTGTGAATTTTCTTTGCCTACAGTGAGATGGTTAGATGCTATTCTGAACTTTATCTAGATCTTACCCAAATCCATTTCCATGTTAGCAAGCATGAA
GTTGTTTACCTTTTCTTTTTTGGCGATTGATGTTGAGTTTTTCGTTCTCACTCACTCCCTTGCCAGTTCCTTAGATGTTATGATCCAGCTATGACCCAGC
TTTACACTTTCTTCACCCAGAAGTGACCTCACCTTTTCATGACAGAGGAAACAGAAGCCATGGACTTCTTAATGCTATATGTCACAAACCTGTATGCATG
TAAGAATCTTTTATTTCCTCGTATTCCAGTGTTTTAAACATCCTGTCACCCATCAGGGACTTGTCCTTCATATGTATTTCTCCTACACCTTTCCTACTCT
GTCATGCATTTTGCACTATTACTGTATCTCTTTCTTGTATTTTCATCTTGTCACCCTGTATTTATTTATTTTCCACCCACTTTTAAACTTAGTTACATCT
TTCATGGTAAACAGGTTCTAGGGAGATGGTTTGATTATGTATCTTAAATTCCCTCCCCTCAATCTCTGTTTCCATCTGCCAACTACCCTGTCTTGAATAG
AGCAGCTGCTGTGAGCCTGGAGCCTTTGGGCAAATAAGAGTGTATACAGTCCCTTGATTTTACCAGAAGATGGGAAAGAGAGCTTGCTTTGATTTTCTTC
CTGTAATCCAGATGAAGGTTTAGAGACGGGCAGCTGTGAAGCCTTCAGCAAAGGTCTGAACGGAAAGAACCTTGCTTTCAAAGATACATGGATTTAGAGG
AAAAGCGGTGCAGTTCATATGTATGGTACTAGGAAGACTAGCTTCAGAGTACCTGTTTGGTTGCTGCATGGTGGGCACAATTCCACATCTCCCTGTGAGG
CTGGGGGAGGGGAAGTAAATAGCAAAAAAACAAAAAAGACATTGGAAGAGATTTTCCTCCTGTCATCTGTGATGAGGAGTGGCAACTTGCTGGTTAGTAG
ATAATCAGCCTACAGAAGAGAGCTGCCTTCTATTGCTCACAAGTTTGTTTCCGCTCAAGAGTATCCCACAATTTGATTTATGCTAAATGGGGAGTGAGTG
GACAAAGAAGAATATCTAAGGAAACCTAAAGAAAAATAGCATCTAGAGAGAACAGGAACACAGAAGAAATGGATGGTGAAAAAGAATTGCTGGTGGAGAT
GAATGACAACTTTAATTTTGAAAAAGCACCTGAGAAAATTCAGTCAGTATAAAATAAACTTTCTAGCAATTAAACTACATTAAAATGTGGTAGAAAAAGA
GAGGCATGGCCACTATTGGGGACTAAATAGTGGCCTTGGATATCATGTAGAAGTAGTTATCTTTGGAAAAGTAAAAATCCAAAGACACGGAGATTTCAAA
AATCAAAACACCTAGAAGACGAGTCTAAGATATTTAATGTGAGTAAGTGAAGAACCACAAGGAGAAAAAGGGAAACGATACAGGAGGGCACAATTACTAA
ATACTATAGGAAACTTTAGTTCGAAAGGGCTCTCACTCTAATAGGTTCCAAGCAACATGGGTGGGGTTGGAGTGTGGGGACACACCTAGGCAGATAAATT
TCATTCAAATATTTATTGTTACTTCCTGCAGTGACAAGTACTGTTTTAGTTGCTGGGAATACAGGGTGAACAAAGCAATGTTAGTTCCTTTATTGGGTGG
AAGGAAGTAAATGAATAAATATGTCTCAGGTGGTAATAAGTAATACAAAAAAAAAAATAAAGCATAGTAGAGTGACTAGGCTATGTTGGGATAAGGTAGT
GGCAGGATTTACTATTTTATATGGATGGTCAGAGACATCTCAGATAAGATATTTGATCAGCAATTTGAAGTGAGGTATCTAGTGTGGTAAATATGTGGTG
GTGGGGGGAGAGCAAGGGCAGGGGGAGCAGCATTCCAGATAGGGAACAGGAGGTTTAAGGCAGGCAGGAACATACCTGCCATTTAAAGGACCATTAAGGA
ATCCACTTGGCTAGTGTGGAGGGAGCAAGAAGAGTGAGCAATGAGGGCAGAGGCAGTAGTGAACAAGATTACGGAGCTTTGTAGATGAATGGAAGCCTTT
TTGGCTTTAATTTGCTGATACATATGGGAAGCCATTTGAGGAGCTGTAAGCAGAGGAGTGATACGTGATTTAAGAGTAATTGACTCAACCTTCTTGTTGG
TAGCAAAGGCAGAAGCTAGGACACCAGATCATTGGATATTGCAACAATATAGACAAGAAATGACACAGGCTTGGACCCGTGTGGTATCAGTGGAGTAAAA
CAAATGGTGAGATTCTGTAAATATTTTGAAAGTAGATGGATAGGATTACAATGTGTGAGATACAAATCAAAAACACTTCTTTTTTTTTTTTTTCCCCTCA
GTAACAGGATGGAGTTTCTGTTTATACTGTGATGGGGAGGATTGTGTAAGGATCAGATTTTGCAGTGGTAGCAGCTGGAGGAATCAATTTAGTTTCGGAA
TGTTGAGTTTGAGATGCTATTAAACATGGAGGAGATATTCAAATTCTTGAATTTCAGGGTAAAAAGAGGAATTTACAAAGGAAAAAGAAAATGACATCTC
TAGACTTTAGAATGCAACCAAGAATCCCTTTTTCAGGTAAGATCATTCATCTTGAGGATATGTAATGATCCAAATGATATATCTGTATGTGTATAACTTC
ACATAAGGAAAATAACTTAAAAACTTTAAACAGACAGCAAATTATAACAAAGGCCTGTATTCTCTGATAGAGTGACTGGGTATTTATAACATAAGTGTTA
AGTAATCTTCAAGCAGAAAAGATAATACATGGAAAAATCTCACACTAGTAACTATCAGTACTAAAGTAAGCTATCTTAGCAAAACTTAGAAGTGACAGCT
GAGCCAGAGGAGTAGAGTGAGTGAAAGCATTCTAAATTTCACAACCCTAGTGACAACAAATGTTTGCCTTCATGGAAGAACAACATTTGTTCTTGCAACT
AATCAGAACTTACATATTTTTAACAAGTAGCTTTCTAAAAGCCACTAAAGCCCTTTGGAATATTTTTTAAAACAACTTCTTTTGAGGTTATGGAGATTTT
TAAATAGGTCAGGAAATTATTTCTAAGTTGTTATATTGTGAAGATAAAAAAGTTTTGGTAGGTAATATGTTTGCAGCCACAAAAGCACAAAATACAATGT
TTTTAATATTCAAGATGTTTCAAAATGTTCTTTACGTGGCACAAACTTTTTTCTAAAAGTATTCACAGACTTCTGGTCATCTGATTTTATAATTTTTGTC
CTTGTAATTTGGCAAAGAGCTAATACAGGTTTAGGGGAAGGGTTAACTCTGCCATTTCCTTGTTCCCATATGCTTGCATTATTACTGTTATCTTTTAATC
TATTGATTTTTTTTTTCCTAGAAATCTTTTTGTGCCACTTTCCATTTTGTGTGGCATCTGTAAACTGTTATCTGTCATGGTATGCTGGATGCGAGGGGAT
AAGGCTTCACTGTCAGGTCTTATTCTCCCCTCACCTTATATACAGATCAGATGAAGCCATCTGTACCCATATATTAACTATTAATAAAGTTGAATTTAAA
TACAAATATGTATTTTAACATCTTCTTCTAGCATCCCACTGAATTATCTTGCATGTTCCCTGAGGTGTGTGTGCCTTACTTTGGAGACCTATAGTACTAA
GTAAAAATCTTTTTATACAGTATTTGTCTTGTGTGGGTCATGAGCATTAGCATCCAATGGTAGGTGTGTGATTAAAATGCAGATTCCTTGGCCCCGTCCC
AAATTTACTAAATAGGCCTTTGTGGGTTATAGCCTTGGGATCTACAAATTTAACAAGATTGAGAAAACCTAAGGCCTAATTATCTTTCAGCCTCATCTAA
TCCTTCCCTCCCAAAGACGTGAGCGCCACATACATTCTTTTGCAGCCTCTCAACACACCATTCCTTTTCGCATCTCCATACCTCTGTAAATGTTTCTTTC
CCTGCCTGGAATGTGTTCTTACCCTTCAAGAGTCAGCTCAAATTCACATCTGTGAAATCTACCTTAGTTTGTACATATCAAATAACAGATGTGTGTTTTT
GTGATTCTTCACATTATGAACAGCATAAGGTATTTGCCATTGTTAGTATTATCCCATATGAGAAAAAAAAATAGACCAGAATTAATGCTCTTAAAGCTAA
TTGAGCAAAGATGTGTTTACATCAATGTTATCCATGTTCTCATTGATTTATGAAAATCAGATATTTATTTTCCACACATATACTACAAAATCTTGAAATC
TACTTGTATGGGGATGATCACAGATTGTATCTGAAGAAATGAACACACACACAAATATATATGGAAGACTAAGTAGTCATAGCAATATCTAGTAAGGAGT
AATTAAAAATTCACTTTTTCCCTCTTCCATACTTTTATAACATCAGCACACCATTAAATTATAGTAATCACCGCACTGTAATTCATCTTCAAAATAGTGG
GGTGTACCAGTTATCAATTTGTTATCTGTGAGCTCTAAGGTACACCTTGCTTTGCAGTGTTGAAACTCGATGCTTGTACAGGTTTCTCCTTTGTGAGCAG
GTTCAGTGTTAGGCTTTTTCATTGGAGGGACACAGTAAGGCAATAGCAAGGGGAATAGGCTTCTCTTTCTGGTTCTGGTGTGCTGTTATTTGATTGGCTG
CCAGCAGATTGGCCTGCAGAAGGTCAGTCTCACCTCAACAACCTTCGTAAGGGTGGCCCACACCTTCCTTTCAAGTTTCTCTGCTGCCTGGTAAAATGTC
CCTACAGAACACCTTTGGCCTACCCAGAACCTCCAGTGATTCTTCTACCGGGTGAGGTGCTCTGATTCGATCAGCTCTGGCCTTTCCCCTTGGTAAATTT
CTTCCATCTACAGCCCAAGTTCCTGTGGCAACTATGCCCTCTCCAAAGAGTTCTGAGTCTCAGCCCTGGAATAGTGCTGGGGAGTGACTCATGAGTTCTT
AGTATTCTTTCTCCCTTTGTTATTTCCGTACCCGTTAGAATCTTCTTTATAACTTTTAGTAAACCATCTTTTATTAACAATTTTCTATATTTAATTTTCT
CTATTCAAATTACTAGTTTGTGCAGAATCTAGATTTTATAGAAAAAAACAAACAAATGCCTAGTGATTTGTTTCTATCTCCCTCCTGTGTGGTTTCTATC
TCCCTCCTGATTGGATCCTGACTGATACGTTGGGGTATGCTGCTCATGAGAGATTTCTTTCAGAGTGGTGAATAAACTATGTCCTAGAAGGCATATTGTA
TCAGGAAGGGTCACGTGTTAGAGCTGTGGTTTACATTAATATATACAGTGTTAGGAGGAGCATAAAGAGGAAAACACCATTGTGGCAAAGTAATCCTGTG
GAAACCAGAGAGAGAGAGATTTGATAAAGTCTTGGTGACTGACCTGAGTACGAAACCAGTGGTGGTGGTAGTGGGAATCTTTAGATTAATGAATATTGAT
TTATTCATAAGCTACAAAATTCAAAGGGCACCCAGTTTCTCTTTCTAGAGGTAATTACTATGTTCAGATTCCTGGGACCTTTCCAGGTATCTGATGTATA
AATACCTCTCTCTCTTTCCCTCTCTTTCTAACACAGATATTAGTATTCCTCTGTGTCTTACTTTATCCCCTTAATAGTATATCTTGGAAATCATTGTTTT
CTTTAAAAAAATGTTTTAATTGAGGTAAGCATTCATTATACAGTAAATGTCTTGTTCCTTTTAACTGGCTGCATACCCTGTCAACCTATGGCTGTGCCAA
CACTGGAGAGAGTCTGGGTTGAGTATAGTCTTTTTGCCATTATAAACAGGGTTGCAGTGAACATTCATGTGTATACTTCTTTGTACCTATGTATGAGTGT
ATCCTGGATAAATTCCTAAAAGTGACGCCACTGGATTGGAGGTCATTTTTTTTTAAACTTTTTATTTTGAAATAATTATAGATTCATAAGAAGTTGCAAA
AACAGGACAGAGAGGCCCCAGTTGCCCTTCACCTAGTTTCTCCCAATGATAGCATCTTACATAACATGATACAGCATGGTATATCATATCAAAACCAGCA
CATTGGTACAATCTACAAACCTTATTCAGATTTCACCAGTTTTACATGCCCTTGTGTGCATGTGTGTCTGTGTCTTTGTGGTTTTATGTGCTTTTATCAG
GAGTAGATTTGTATAACCTCAAACAAGATGCAGAACTGTTCTGTCAGCACAAAGATCCCTTGTGCTACCTCATAGTCACACCAAACCTCCTCTCCTCCTT
TTGTCATCACGGCATTCCTAACTGTTGACAAGCAGCTAATCTGTTCTCCATCTCTGTAACTTTGTTATTTTGAGAATATAATTGAAATCGTATAGCATGT
AACCATTGAGATGGGTTTTTTCACTCACCGTAATTCCCTTGAAGATCATCCAAGTTGTTGCATGTGTCAATGGTTGTTCCTTTTTATTTCTGAGTAATGT
TCCATGATATGAATGTACCACAGTTTGTTTAACCATTCACCCACTGAAGGACGTTTGGATTGTTTCTAAGTTTTGACTGTGGCAAGTAAAGATGCTATGA
ACATTCATGTACACATGAATTTGTAGGCATATGTTTTTATTTTGCTGGGAGAAAAGCCCAAGAATGCAGTTGCTGGGTTGTATGGTATTGTATGATTGTT
TTTCTTTTAAGAAACTGCCAAATTATTTTCCAGAATGACTGTACCACTGTACATTCTTATTAGCTATGTATGAGAGATGTAGTTTCTCCAAATCCTCACC
AGCATTTAATATTGTCAGGATTAAAAAAATGTTTTTTACTTGTTCTAATGGGTGTTTAGTGATTTAGCATCATGGTCTTAATTCGTCTCTAACAGCTAAA
GATGTTGAGCATATATTCAGGTATTAATTTGCTATCTATAACATATATCCTCTTTGGTGAAATGTCTGTTCATGTTTTTTGCCCACTGTAATGTGATTTT
TTTTTTTTTTTTTTTTTTTTTTTTTGAGATGCAGTCTTGCTGTGTCACCAGGCTGAAGTGCAGTGATGTGATCTCGGCTCACTGCAACCTCCGCCTCCTG
GGTTCAAGGGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGAGACTACAGGCACGTGCCACCACAGCCAACTAATTTTTGTATTTTTAGTAGAGACAGGGT
TTTACCATGTTGGCCAAGATGGTTTCAATATCTTGACCTCGTGATCTGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCC
AGCCTGATTTTTTTTTTTTTTTTACTATTGACTTTTGAGAGTTATTTATATAGGCAGCCCTCACTTTTGCACAATTTCAGTATGTATGACTTCCACTTGC
CATGGCTTAAATGGTTCAAATTGAAGTTATGACATATTAACTGTGATTGCATGAAGTACTCCCTCTTACAGTCTACAAATCACAATATAACAAATGTGTA
TATGGTCATTGACCAATTACTTTTTTGAAAATTTGTTCATGACTGACCATTGCACATCTCTTATTAAGACAGACAGTAAATGTTTGGTTTTGTTGCCTCC
TTGTCTCCCAGTAATAAAACCACTTGACATTTTACAAAAATGGATAAGTGAAAGAGAGACTTGGCCACAGACATGAAAGTACAGCACAGAAACAAAAAGT
TACAACACTGGAAGTGAAATTTGAATTAACCATTTGTGGGGTTTTAGATGAAATGGTTGACTGAGAATGTTGATCCTGCTGCCATTCAAACGAGACTCTA
CATATGCATCCAGCCAGAGAAATTTAGTGACAGCAAAACTGTTGGCATAAATAAGGAAATAAGGAAGATGTCCCAGAGGAAGTGAAATATATCTTCACAT
TTAAGGAATTCTTAAAGATATCTCATGACATTGAAAATGCAAAAGGTAAAACGTCAAAAGCTGATCCAAACTTAGGAATATGACAATTCGCCAAGCAAAG
AAAGGGTGCTTGCTCTATTGTGTTACATCATGAGAAGGCACTGCTTAAACTATTACTGATGTTTTTTTTACAAAGATATAAAGCACTT
In silico ORF/peptide predictions
Nothing found.
RiboTaper predictions from Ribo-Seq data (HEK293 cell line)
Nothing found.