| 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 |
|---|---|---|---|---|---|---|---|---|
| ENST00000257287 | centrosomal protein 135kDa | protein coding | TCONS_00005551 | 604 | 299 | UTR3 | Trans | |
| ENST00000262031 | RNA binding motif, single stranded interacting protein 2 | protein coding | TCONS_00005551 | 609 | 306 | UTR3 | Trans | |
| ENST00000262134 | lysophosphatidylcholine acyltransferase 2 | protein coding | TCONS_00005551 | 666 | 308 | UTR3 | Trans | |
| ENST00000263026 | eukaryotic elongation factor-2 kinase | protein coding | TCONS_00005551 | 656 | 310 | UTR3 | Trans | |
| ENST00000263955 | serine/threonine kinase 17b | protein coding | TCONS_00005551 | 641 | 301 | UTR3 | Trans | |
| ENST00000276431 | tumor necrosis factor receptor superfamily, member 10b | protein coding | TCONS_00005551 | 526 | 298 | UTR3 | Trans | |
| ENST00000295822 | eukaryotic translation initiation factor 5A2 | protein coding | TCONS_00005551 | 570 | 308 | UTR3 | Trans | |
| ENST00000309060 | zinc fingers and homeoboxes 3 | protein coding | TCONS_00005551 | 623 | 298 | UTR3 | Trans | |
| ENST00000336505 | suppressor of cancer cell invasion | protein coding | TCONS_00005551 | 600 | 297 | UTR3 | Trans | |
| ENST00000367097 | tubby like protein 4 | protein coding | TCONS_00005551 | 517 | 316 | UTR3 | Trans | |
| ENST00000375234 | AhpC/TSA antioxidant enzyme domain containing 1 | protein coding | TCONS_00005551 | 553 | 302 | UTR3 | Trans | |
| ENST00000421422 | zinc fingers and homeoboxes 3 | protein coding | TCONS_00005551 | 623 | 298 | UTR3 | Trans | |
| ENST00000432564 | hydroxycarboxylic acid receptor 1 | protein coding | TCONS_00005551 | 618 | 293 | UTR3 | Trans | |
| ENST00000439138 | transmembrane protein 98 | protein coding | TCONS_00005551 | 531 | 284 | UTR5 | Trans | |
| ENST00000446045 | AhpC/TSA antioxidant enzyme domain containing 1 | protein coding | TCONS_00005551 | 553 | 302 | UTR3 | Trans | |
| ENST00000450928 | antisense | antisense | TCONS_00005551 | 513 | 302 | noncoding | Trans | |
| ENST00000473091 | UBA domain containing 2 | processed transcript | TCONS_00005551 | 585 | 306 | noncoding | Trans | |
| ENST00000494969 | colony stimulating factor 2 receptor, alpha, low-affinity (granulocyte-macrophage) | protein coding | TCONS_00005551 | 567 | 303 | CDS | Trans | |
| ENST00000498813 | delta(4)-desaturase, sphingolipid 1 | processed transcript | TCONS_00005551 | 535 | 300 | noncoding | Trans | |
| ENST00000506202 | centrosomal protein 135kDa | retained intron | TCONS_00005551 | 604 | 299 | noncoding | Trans | |
| ENST00000511184 | E74-like factor 2 (ets domain transcription factor) | nonsense mediated decay | TCONS_00005551 | 591 | 305 | CDS_UTR | Trans | |
| ENST00000513143 | podoplanin | protein coding | TCONS_00005551 | 575 | 299 | UTR5 | Trans | |
| ENST00000534514 | flavin containing monooxygenase 3 | processed transcript | TCONS_00005551 | 579 | 311 | noncoding | Trans | |
| ENST00000552918 | spermatogenesis associated, serine-rich 2 | protein coding | TCONS_00005551 | 690 | 282 | UTR3 | Trans | |
| ENST00000553127 | spermatogenesis associated, serine-rich 2 | protein coding | TCONS_00005551 | 710 | 299 | UTR3 | Trans | |
| ENST00000560870 | sense_intronic | sense intronic | TCONS_00005551 | 506 | 272 | noncoding | Trans | |
| ENST00000607772 | CNKSR family member 3 | protein coding | TCONS_00005551 | 601 | 308 | UTR3 | Trans | |
| TCONS_00006772 | lincRNA | novel protein coding | TCONS_00005551 | 605 | 297 | UTR3 | Trans | |
| TCONS_00010077 | Ras association (RalGDS/AF-6) domain family member 5 | novel protein coding | TCONS_00005551 | 573 | 289 | UTR3 | Trans | |
| TCONS_00010507 | SET and MYND domain containing 2 | novel protein coding | TCONS_00005551 | 511 | 291 | UTR3 | Trans | |
| TCONS_00010841 | epoxide hydrolase 1, microsomal (xenobiotic) | novel protein coding | TCONS_00005551 | 527 | 299 | UTR3 | Trans | |
| TCONS_00014134 | collagen, type XVI, alpha 1 | novel protein coding | TCONS_00005551 | 610 | 302 | UTR3 | Trans | |
| TCONS_00017972 | transcribed_unprocessed_pseudogene | novel protein coding | TCONS_00005551 | 635 | 304 | UTR3 | Trans | |
| TCONS_00025758 | zinc finger, MIZ-type containing 1 | novel protein coding | TCONS_00005551 | 624 | 309 | UTR5 | Trans | |
| TCONS_00025760 | zinc finger, MIZ-type containing 1 | novel protein coding | TCONS_00005551 | 624 | 309 | UTR5 | Trans | |
| TCONS_00025761 | zinc finger, MIZ-type containing 1 | novel protein coding | TCONS_00005551 | 624 | 309 | UTR5 | Trans | |
| TCONS_00025761 | zinc finger, MIZ-type containing 1 | novel protein coding | TCONS_00005551 | 521 | 299 | UTR3 | Trans | |
| TCONS_00025775 | zinc finger, MIZ-type containing 1 | novel protein coding | TCONS_00005551 | 521 | 299 | UTR3 | Trans | |
| TCONS_00026285 | cytochrome P450, family 26, subfamily A, polypeptide 1 | novel protein coding | TCONS_00005551 | 547 | 292 | UTR3 | Trans | |
| TCONS_00027001 | programmed cell death 4 (neoplastic transformation inhibitor) | novel protein coding | TCONS_00005551 | 579 | 288 | UTR3 | Trans | |
| TCONS_00027009 | programmed cell death 4 (neoplastic transformation inhibitor) | novel protein coding | TCONS_00005551 | 579 | 288 | UTR3 | Trans | |
| TCONS_00028040 | ankyrin repeat domain 16 | novel protein coding | TCONS_00005551 | 601 | 273 | UTR3 | Trans | |
| TCONS_00028040 | ankyrin repeat domain 16 | novel protein coding | TCONS_00005551 | 605 | 297 | UTR3 | Trans | |
| TCONS_00030130 | calcium/calmodulin-dependent protein kinase II gamma | novel protein coding | TCONS_00005551 | 631 | 296 | UTR3 | Trans | |
| TCONS_00030588 | cytoplasmic polyadenylation element binding protein 3 | novel protein coding | TCONS_00005551 | 635 | 309 | UTR3 | Trans | |
| TCONS_00030588 | cytoplasmic polyadenylation element binding protein 3 | novel protein coding | TCONS_00005551 | 578 | 282 | UTR3 | Trans | |
| TCONS_00030591 | cytoplasmic polyadenylation element binding protein 3 | novel protein coding | TCONS_00005551 | 626 | 296 | UTR3 | Trans | |
| TCONS_00039782 | GRAM domain containing 1B | novel protein coding | TCONS_00005551 | 602 | 306 | UTR5 | Trans | |
| TCONS_00046540 | sestrin 3 | novel protein coding | TCONS_00005551 | 605 | 307 | UTR5 | Trans | |
| TCONS_00046540 | sestrin 3 | novel protein coding | TCONS_00005551 | 571 | 283 | UTR3 | Trans | |
| TCONS_00050741 | spermatogenesis associated, serine-rich 2 | novel protein coding | TCONS_00005551 | 710 | 299 | UTR3 | Trans | |
| TCONS_00051899 | RNA binding motif, single stranded interacting protein 2 | novel protein coding | TCONS_00005551 | 609 | 306 | UTR3 | Trans | |
| TCONS_00067572 | DCN1, defective in cullin neddylation 1, domain containing 2 | novel protein coding | TCONS_00005551 | 609 | 300 | UTR3 | Trans | |
| TCONS_00075339 | latent transforming growth factor beta binding protein 2 | novel protein coding | TCONS_00005551 | 582 | 306 | UTR3 | Trans | |
| TCONS_00075840 | forkhead box N3 | novel protein coding | TCONS_00005551 | 632 | 298 | UTR3 | Trans | |
| TCONS_00075841 | forkhead box N3 | novel protein coding | TCONS_00005551 | 632 | 298 | UTR3 | Trans | |
| TCONS_00076763 | protein phosphatase 1, regulatory subunit 13B | novel protein coding | TCONS_00005551 | 631 | 296 | UTR3 | Trans | |
| TCONS_00088780 | synaptotagmin XVII | novel protein coding | TCONS_00005551 | 603 | 285 | UTR3 | Trans | |
| TCONS_00089062 | eukaryotic elongation factor-2 kinase | novel protein coding | TCONS_00005551 | 656 | 310 | UTR3 | Trans | |
| TCONS_00089065 | eukaryotic elongation factor-2 kinase | novel protein coding | TCONS_00005551 | 656 | 310 | UTR3 | Trans | |
| TCONS_00089066 | eukaryotic elongation factor-2 kinase | novel protein coding | TCONS_00005551 | 656 | 310 | UTR3 | Trans | |
| TCONS_00090805 | lysophosphatidylcholine acyltransferase 2 | novel protein coding | TCONS_00005551 | 666 | 308 | UTR3 | Trans | |
| TCONS_00098643 | fatty acid 2-hydroxylase | novel protein coding | TCONS_00005551 | 613 | 297 | UTR5 | Trans | |
| TCONS_00098644 | fatty acid 2-hydroxylase | novel protein coding | TCONS_00005551 | 613 | 297 | UTR3 | Trans | |
| TCONS_00098645 | fatty acid 2-hydroxylase | novel protein coding | TCONS_00005551 | 613 | 297 | UTR3 | Trans | |
| TCONS_00098647 | fatty acid 2-hydroxylase | novel protein coding | TCONS_00005551 | 613 | 297 | UTR3 | Trans | |
| TCONS_00101146 | myosin phosphatase Rho interacting protein | novel protein coding | TCONS_00005551 | 570 | 294 | UTR3 | Trans | |
| TCONS_00103261 | Rap guanine nucleotide exchange factor (GEF)-like 1 | novel protein coding | TCONS_00005551 | 628 | 305 | UTR5 | Trans | |
| TCONS_00103262 | Rap guanine nucleotide exchange factor (GEF)-like 1 | novel protein coding | TCONS_00005551 | 628 | 305 | UTR5 | Trans | |
| TCONS_00107851 | transient receptor potential cation channel, subfamily V, member 1 | novel protein coding | TCONS_00005551 | 612 | 299 | UTR5 | Trans | |
| TCONS_00107851 | transient receptor potential cation channel, subfamily V, member 1 | novel protein coding | TCONS_00005551 | 607 | 271 | UTR5 | Trans | |
| TCONS_00107864 | transient receptor potential cation channel, subfamily V, member 1 | novel protein coding | TCONS_00005551 | 607 | 271 | UTR3 | Trans | |
| TCONS_00109011 | trans-golgi network vesicle protein 23 homolog C (S. cerevisiae) | novel protein coding | TCONS_00005551 | 536 | 311 | UTR5 | Trans | |
| TCONS_00109427 | serine hydroxymethyltransferase 1 (soluble) | novel protein coding | TCONS_00005551 | 616 | 308 | UTR3 | Trans | |
| TCONS_00114623 | glutamine rich 2 | novel protein coding | TCONS_00005551 | 631 | 308 | UTR5 | Trans | |
| TCONS_00114628 | phosphoribosyl pyrophosphate synthetase-associated protein 1 | novel protein coding | TCONS_00005551 | 631 | 308 | UTR3 | Trans | |
| TCONS_00118358 | l(3)mbt-like 4 (Drosophila) | novel protein coding | TCONS_00005551 | 623 | 283 | UTR5 | Trans | |
| TCONS_00119961 | ring finger protein 152 | novel protein coding | TCONS_00005551 | 610 | 301 | UTR5 | Trans | |
| TCONS_00140000 | long intergenic non-protein coding RNA 152 | novel protein coding | TCONS_00005551 | 603 | 296 | UTR3 | Trans | |
| TCONS_00141404 | GLI family zinc finger 2 | novel protein coding | TCONS_00005551 | 627 | 278 | UTR5 | Trans | |
| TCONS_00141667 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00005551 | 621 | 301 | UTR3 | Trans | |
| TCONS_00141670 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00005551 | 605 | 299 | UTR5 | Trans | |
| TCONS_00141673 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00005551 | 605 | 299 | UTR5 | Trans | |
| TCONS_00141679 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00005551 | 605 | 299 | UTR5 | Trans | |
| TCONS_00141679 | Rho guanine nucleotide exchange factor (GEF) 4 | novel protein coding | TCONS_00005551 | 621 | 301 | UTR3 | Trans | |
| TCONS_00142174 | LY6/PLAUR domain containing 6B | novel protein coding | TCONS_00005551 | 631 | 301 | UTR3 | Trans | |
| TCONS_00147093 | ATPase family, AAA domain containing 2B | novel protein coding | TCONS_00005551 | 608 | 301 | UTR3 | Trans | |
| TCONS_00148048 | potassium voltage-gated channel, subfamily G, member 3 | novel protein coding | TCONS_00005551 | 610 | 304 | UTR3 | Trans | |
| TCONS_00150045 | ankyrin repeat domain 36C | novel protein coding | TCONS_00005551 | 500 | 298 | UTR3 | Trans | |
| TCONS_00150696 | septin 10 | novel protein coding | TCONS_00005551 | 612 | 302 | UTR3 | Trans | |
| TCONS_00153158 | serine/threonine kinase 17b | novel protein coding | TCONS_00005551 | 641 | 301 | UTR3 | Trans | |
| TCONS_00160558 | cerebellin 4 precursor | novel protein coding | TCONS_00005551 | 544 | 305 | UTR3 | Trans | |
| TCONS_00160920 | protein tyrosine kinase 6 | novel protein coding | TCONS_00005551 | 615 | 297 | UTR5 | Trans | |
| TCONS_00161482 | BTB and CNC homology 1, basic leucine zipper transcription factor 1 | novel protein coding | TCONS_00005551 | 637 | 297 | UTR3 | Trans | |
| TCONS_00161618 | interferon gamma receptor 2 (interferon gamma transducer 1) | novel protein coding | TCONS_00005551 | 569 | 297 | UTR3 | Trans | |
| TCONS_00166381 | GRB2-related adaptor protein 2 | novel protein coding | TCONS_00005551 | 600 | 297 | UTR3 | Trans | |
| TCONS_00168219 | THO complex 5 | novel protein coding | TCONS_00005551 | 570 | 271 | UTR3 | Trans | |
| TCONS_00168220 | THO complex 5 | novel protein coding | TCONS_00005551 | 570 | 271 | UTR3 | Trans | |
| TCONS_00171146 | F-box and leucine-rich repeat protein 2 | novel noncoding | TCONS_00005551 | 661 | 289 | noncoding | Trans | |
| TCONS_00177356 | interleukin 1 receptor accessory protein | novel protein coding | TCONS_00005551 | 617 | 315 | UTR3 | Trans | |
| TCONS_00184373 | neutral cholesterol ester hydrolase 1 | novel protein coding | TCONS_00005551 | 615 | 308 | UTR3 | Trans | |
| TCONS_00186316 | KIAA0232 | novel protein coding | TCONS_00005551 | 629 | 294 | UTR5 | Trans | |
| TCONS_00186316 | KIAA0232 | novel protein coding | TCONS_00005551 | 607 | 299 | UTR3 | Trans | |
| TCONS_00190999 | zinc finger protein 721 | novel protein coding | TCONS_00005551 | 614 | 296 | UTR3 | Trans | |
| TCONS_00192322 | tec protein tyrosine kinase | novel protein coding | TCONS_00005551 | 621 | 298 | UTR5 | Trans | |
| TCONS_00194686 | E74-like factor 2 (ets domain transcription factor) | novel protein coding | TCONS_00005551 | 604 | 299 | UTR5 | Trans | |
| TCONS_00195633 | aspartylglucosaminidase | novel protein coding | TCONS_00005551 | 515 | 285 | UTR3 | Trans | |
| TCONS_00202828 | myotubularin related protein 12 | novel protein coding | TCONS_00005551 | 625 | 308 | UTR3 | Trans | |
| TCONS_00203985 | family with sequence similarity 169, member A | novel protein coding | TCONS_00005551 | 681 | 295 | UTR5 | Trans | |
| TCONS_00205414 | prolyl 4-hydroxylase, alpha polypeptide II | novel protein coding | TCONS_00005551 | 604 | 303 | UTR3 | Trans | |
| TCONS_00213191 | tubby like protein 4 | novel protein coding | TCONS_00005551 | 617 | 282 | UTR5 | Trans | |
| TCONS_00213738 | enoyl-CoA delta isomerase 2 | novel protein coding | TCONS_00005551 | 505 | 297 | UTR3 | Trans | |
| TCONS_00213775 | LYR motif containing 4 | novel noncoding | TCONS_00005551 | 620 | 302 | noncoding | Trans | |
| TCONS_00215909 | O-acyl-ADP-ribose deacylase 1 | novel protein coding | TCONS_00005551 | 601 | 301 | UTR3 | Trans | |
| TCONS_00222612 | carnitine O-octanoyltransferase | novel protein coding | TCONS_00005551 | 542 | 299 | UTR3 | Trans | |
| TCONS_00222619 | carnitine O-octanoyltransferase | novel protein coding | TCONS_00005551 | 542 | 299 | UTR3 | Trans | |
| TCONS_00222623 | carnitine O-octanoyltransferase | novel protein coding | TCONS_00005551 | 542 | 299 | UTR3 | Trans | |
| TCONS_00225245 | family with sequence similarity 115, member C | novel protein coding | TCONS_00005551 | 581 | 302 | UTR3 | Trans | |
| TCONS_00225248 | family with sequence similarity 115, member C | novel protein coding | TCONS_00005551 | 581 | 302 | UTR3 | Trans | |
| TCONS_00235393 | processing of precursor 1, ribonuclease P/MRP subunit (S. cerevisiae) | novel protein coding | TCONS_00005551 | 617 | 306 | UTR5 | Trans | |
| TCONS_00235685 | oxidation resistance 1 | novel protein coding | TCONS_00005551 | 609 | 283 | UTR3 | Trans | |
| TCONS_00235708 | oxidation resistance 1 | novel protein coding | TCONS_00005551 | 609 | 283 | UTR3 | Trans | |
| TCONS_00238831 | cytochrome P450, family 7, subfamily B, polypeptide 1 | novel protein coding | TCONS_00005551 | 527 | 293 | UTR3 | Trans | |
| TCONS_00240688 | metastasis suppressor 1 | novel protein coding | TCONS_00005551 | 614 | 285 | UTR3 | Trans | |
| TCONS_00249683 | suppressor of cancer cell invasion | novel protein coding | TCONS_00005551 | 600 | 297 | UTR3 | Trans | |
| TCONS_00251307 | steroid sulfatase (microsomal), isozyme S | novel protein coding | TCONS_00005551 | 570 | 306 | UTR3 | Trans | |
| TCONS_00251309 | steroid sulfatase (microsomal), isozyme S | novel protein coding | TCONS_00005551 | 570 | 306 | UTR3 | Trans | |
| TCONS_00251977 | G protein-coupled receptor 82 | novel protein coding | TCONS_00005551 | 567 | 283 | UTR3 | Trans |
>TCONS_00251977 (29912 nt)
GAGGTACACGAGGAGTTACTGGAAACGGCGCTTCTGTGGAGGAGCCGGGGGGGATGGGGAGTAGAGGGAGGGGGCCCTGTTGCCTCAGCGCCCCGAGGTC
GTGGAGCGGCAGCAGCTGCAGCCGGAGCAGCACCAGCAACAGCAACAGCGAGCGGGACGGAGTTAGGACCGCTCGGAGCGCACAGGTCTCGAGGGTGTTG
GTGCCAGAAGAAAAGAATGATTGATGGGAAACAGACACCGGGCTATAGACACTCATCCTTTTGCTTCAGATACTGATATCTCAGCCTGCTTGAGCATCCC
TTGTGAGCTGTGAACATTGAGGATCACTCAGGGTTATCGGATGTACAACGGGAGAGCCATCGCTTTGCTAAATTATTATCTGCAATTGGACATCTTTTAC
AAAAACCAAACTAGACCTGAGTCTAATAGATATGTTCTAAGACAAAGAAAAAGCTGCAAGTTGTTAACGCCTAACACACAAGTATGTTAGGCTTCCACCA
AAGTCCTCAATATACCTGAATACGCACAATATCTTAACTCTTCATATTTGGTTTTGGGATCTGCTTTGAGGTCCCATCTTCATTTAAAAAAAAATACAGA
GACCTACCTACCCGTACGCATACATACATATGTGTATATATATGTAAACTAGACAAAGATCGCAGATCATAAAGCAAGCTCTGCTTTAGTTTCCAAGAAG
ATTACAAAGAATTTAGAGATGTATTTGTCAAGATTCCTGTCGATTCATGCCCTTTGGGTTACGGTGTCCTCAGTGATGCAGCCCTACCCTTTGGTTTGGG
GACATTATGATTTGTGTAAGACTCAGATTTACACGGAAGAAGGGAAAGTTTGGGATTACATGGCCTGCCAGCCGGAATCCACGGACATGACAAAATATCT
GAAAGTGAAACTCGATCCTCCGGATATTACCTGTGGAGACCCTCCTGAGACGTTCTGTGCAATGGTGAGGTAACCCTTTTGCATAAAATATTTCATATAA
ATAGGGTCTAATCGCATATGCATACAGATGTGGTGAGTGTGAAGACAATTCATGCAATAAGTTGAATCTGCAGGTGGCAGATTTGTGTTAACAGGCTAGT
TTCTTTCTCAGTGGAGGCTTACACTGCCTGGAGTTACAATTTGTGCAGGGTGATTGATGCCCTGGAAGGAACTTACTTTCCGCTTCCCTGAAAACCTATA
GTTTCACTGAGGCAGGTACACTATAGCATATATTATAAAAGAAAAAGTTCGATTGAAAGTTAAATTTTAGATTGGAGGTTGGAAATATGATTAGGTCATA
TCTGTCATGTTAAGGATAAAATGCATTGGCAAACCAACTTTAAAAACACAAATGTTTCTTCACATATGTGTATAAAGCCAGTCCTAAATTCTGTAGTTCA
AGGAGAGACTAGATCTCATAATTATGTTCATCAGGAAGCTGCTATGATTTGGGAGTCCTTGGTTAGGAGATCAGCAAGAAAAAAAGTAGAGGAGAGAGGA
ACTAAAGCCTTGTGAGAAGTTTTTCCAGAAAAATCTTATTTGCCAACTCCCCTTATTGTCAAGGTCATAGTTTTCTATGTATATTTTAAAGATGACTTTT
GGAATATAGAAAACTTATTTGCTGAAAAGCAAGGACTCAGCATATACAAATTCAGATACTTTTTTTTGATGAGCAAAGTTACAGAATTCATTGTTCTGAA
GGCTTATATAAGTCCTTTTTTTTCTGCATAGAAAGTTAAATACCATGTGAAAAGGTAATATTGGAGTAACACATTGAATTTTTAAGAAAGACATGGCTGA
CAATATTTCTATAAGTATTAGTAAAGAGGCTGGTGATTAAAATAGTATACATTAATGTGCTAAAGAGTTCAGATGGTGAGTTCATTTGGTTTTTTTTTTA
ATTATAGGTGGTTTTTATTTGATAGAAGAACTGCGATCCTGTTTTTCTCCACATAACAGATATAATTGTATGGCAGATTTTAATAATAATCTTACCTGAC
TATATTATCTTGAACCTGGCCTGGCATTTTCAGGATAGTGAAACTATTAATCAAAGTAGCATCTGTTCACAGTCCCCAGTGAGTTAAATTAGCATAAGAT
CATCTTAGACCTAGCACCATAAAAAAGGTTTTGTAACAGGAAACAATTTTGAGCAATAAAGAGTGTTTTCACCTTAAAGCTAAGGGCTTGCCATTTTTCA
GAAGTGCCTTTGGGGACTGGTTTGAATTATAGTCTAAACCTGATTTTGTGGAGAGTGAGAAAAAGCACTTGGCTATTAGGTGTCACTGTTACTAAAGTGC
CCTGAAAGACTAAATATTTCAAAGAGAGGACCCGTCTCTATGGGAACAGGTATGTGCTTTGCAAAGAAGTTGCATTTTGGAAAGCAGAGAGTTCCAGAGA
AGGAGTTTATTCAAACACATTAGCAAAATCATAATAAATCAGTACAGGAGCAGAGACATTTGTGGTGGCTTTATGTGAGGTCTTTAATAATTTCTCATGA
AAGGTCAACTATAAGAGCTCATTACAAATCTGGGTTGAAATTGCTGTTTGGGTGATAGGTTGTATAGTCTTCTACGCCTTATAGCAGAGGATGAGTTCCA
GGCCAAGTCTGCATATTGTTAAGAACTCTCTAGCTCTGTATATTGGTTTACATGACACTTGTAACAACATGTCCCTTCTGGAATTGTTTAATAATTTACA
GATCTAAGTAAAATAGCAAATTTCCTTTCTCAGGGTGCTGTTTTCCCTCTCATAAGCCCTGTGTGATGTTTTCAAGGTGTGATTTGTGGGTGCAGCTTCC
CTGATCTCAGTCTCTGGCCAGAGAATGCTTGCTTAGCACTGCTCCTGTCTGTCATGTTGAAGGGTTTACTTGGTGTCTTCAGCATGCCTCTTCCTCCCAT
CATGAGTGCAAAGGGCATGTTACGGATCTTCCCATGCCTGCCTTTCAAAGGGACATGGTCTAAGGTATTTAAACAAGTCCATTCCTCTCAGTCCATTGGC
TAAGTGATGTTAGAGACCAAATGGGAAAAAAGAATTAAAATGATATCCCTCAGCTTTCTCAAGTGCAGTAATGTGTATACTATGTATGTTCACATGAAAC
TCCGTAGGACAGTCTTTAAAAGGCTGCATCTTAGTGTGATGCGGATATTTGGAAGCCCTGGTGGATGTAAACTTGTCATTGGACAGAATGGTTTTCCAAG
GGAGAATGTAAGATTTGTGAAATATTACCTATCAATGCTTAATTTGTATTCCTTAATATGCATATGATAGGCATAACAAATTTAATAATCTATCCTTTAA
ATATATACCTTGTGACTATTTGTATGCATATTATATACCACGTCAATGGTAATGGCCTAATACAGCAACACATTCACTCTGCAGTTTTGGATGTTCCATA
AAACTCTTTAGCATAAGGATTCCTGACAGAAGGTTGGGAAACTGTCTCAGGATGCTGTCATATCAAACCTGTTTAGGTACTCCTTAGCCCAGGGTGTAAT
GGGGATTCATAAAGTCATTTGTGTTATGACTTATGCGTTCTCCCCTCCTTGACGCTTGCATCCATACCTGCTCCCTCAGAGTCATTATGGCCTATTACAT
CAGGGGAGCTGCCACATGAGTACAGCCACTGCTTAGCCCCTATATGTAAATGTTTGCTGCAAAATTGTTTCAGTAATCACTTGTTCAGCTAGTGACACTC
CTATTAGCTGTGGCTATAGCTGTTCTGAGCATCGAGGGAACATGTGCTGAGAGAAATACCTATAATTCCCAGGGCCAATTTCTTTAATATAAAGTTGAAG
TTCATTGGCATTGCATTAAGAGTCCGTGTTGCTGCTTTTTTCATTGACTTCATCATTATAGGCCAGTGACTATCCATGAATGTTGCATTTATTTTAATAT
AGAGTAAAATTTCAGGAAAAGAAGGAGCATATGGATTCCATTTAACAATAGATCTCTGCTTATTAACCTGGATGGCATACTTAATAAATCTTCAATGTGA
AGTACTTTAAAATTGTTCTATATTAATTGTACCAGTATTTATAAACATTAGTTTTTCAGGAGCACACTGCCATTTCTATTAATCATAGTGGATAAGGAAG
AGGAATATATATATATGCACACACATATATATATACACACACATACATATATATATACATACATATATACATACATATATACACATATATACATACATAT
ATACATGTATATACACATACATATATATAAATTGCATATATTGAAAACCATATATTTTCTTTTTAATTTGATATATTCCTTTTGAGTTGATGATGGCTAA
AGAAAATCTCTGTTTTTGTCAATGGGGAAGAATCTGAAGGGAAGGTGGGGGTTAACCCTTTTTTTAGGCTGGGAAAACACATTTGAATAGATCCTATCTT
TTCAGCCACATTGAAAGCTTCAGGTGGCAGAGCTTTGTCAGGAAACACAGATCATCTAGTGACTACAATTTGTTTCAATTTGCATAAAGAGCAGAGAGGA
TGATCTGAACCTGTGTGTAAAGCTGAAGTGACAACACAAAGCTATGACTTTTTCTTTGTGTTTAGACAAACTTAGCTGTCATATCTTCCCGCACACCCCA
GTGGCTTAAAAATGGCAAAATTATCTGCAGTTATCTCTAGCCTGCAGCTAATTTTCTGGATAAGTTAAACAGACGCTTTGAAAAGGAGCCTACAGACGGA
AGAACTCATGTGTGTTTATACAATTTATGGCTCAGAAGTGCTGATCACTGTAGAAATGGAAGCCCTTGAGTGCTGCTATGGATTTCAGAGCCAATCAAAA
CTAAATTAGGAAACAAAGATTATTAAAAAGTCTTCTGTGCATGTAATTTTGGCATAATATTATGAGGTGGACATTAAATGTTTCCCTTGGAGACGTTCAG
CATCATTAATGCAGCATGCCTTTAATTACAAGTAGACTCATATTACTAAAAAATTGGAGAAAATAAAGTACTCTGAGGTACAGTTAGCAATAACCTCATT
ATGTTTACTGAAATAATTAAAAGAAAAGGTATAATTTTTCTAAATAAAATGTCAGAATGTGAAATGAAAATGGATTTTACTTAGGAAATTTACTAATGTG
TGCCTGTGCTCTCGATAGGCATTTATTCAAGTACCTTAACAGATCTATTAATGATCACTCCATATTGTGCTATTTCTAGATAGACTTCTATTATGAAAGA
AACTTTAATTATTGTAAGCATTGTGGATAGAGCATATTTCATTATGTTCAAATGGAATTTACGGAAGTGGTACAAAGCCTTTGTGTTTTGTGGTTTCAAA
GGAACGCTGAGAGATGAGTGACTGGTAACTCATAATCTCAGGGCTATCTATAATTTCAAGTTCTGATTTACCTTTGGCTCAGGTTGCCATCTGGTGGCTG
TCAGGTGACCCTTGAGAAAAGAACTTGATAAATTCAGTTACATTTTCCATGACATGGAATTACTATCAATTTTCCAAAAACTGGAAATGACATTGATTTA
TATAATAATCAAATAATCTTAAAAATACACTCTGTTCACATGAAACATAATTCAGTAAATGAATGAAGTTTTAGTAACAGTGACACCTTTCATTTGAACT
GATTTATCCCTTAATTATGCCAAAATGGAATTTTTAAAAACCTTCAGTTCTTTCATTATTAACACTTCATTGTTATTAGTTCATTATTTAGACTTATTTC
TTAGAAAAGTTTAACTCATGTTTGGAATGAATTAAGTTCCAAGGAAGTCTTTCTCATATACCACTATATCAAGTATTTCCTTTTTGAGGAGCCTACAATA
GCTCCTTACTATCTATTGCATCATGTCTAAATTACTCTACCTGTTTTTTGAATTTGGGTGCATACAGCCTATCGTCCACTACTTCTCATCAGGACTCTAT
AGCATCTCCAGGGGACTATGGCTGGCAATCTGATTGGAAGGGGACAACTGGATTTGAGTTGAAACTGCCTTGGCATAGCATGCATGGCTTGTTGGAGAGG
TCTTAGGAAGGAGCTGATGAAGATTATGGCAAATGTAACAAAACCTAAAACCACCTCATGTCATTTATTGTCCCAGATAGTGTGCGTAAGTGCTCTTTGT
TGAGCTAATGCCTCACAAACATTACTGCAAACCATTGTTTGCAGAGTGAAGTGAACAGAGCATTCAGCACATGCAAAACCTAGTGGTGGTGGAGATAACT
AATGTCGAATAATATATGGTCATTGCGGCCAACAGAAGTAGAGTCCTGAGCAAACTTAATACAAAGTAGTGTGTATACAGAGGGTAGAAGAATAGAGAAA
TAAGACCAGCACTCAGAATTTAAAGGTGAAATATTATTTTGCAACATGTCAAAGGCCACTTGGAAAATACTATCTGGTAGCCAAATGCCAGAAAAGGAGA
GAAAATATTAAACAGTGCCAGAAAGGGAGAGAAAATAAGGCTGGGTTGGCCAAGTACAGTGGCTGATACCTGTAATCCCAGCACTTTGAGAGGCTGAAAT
GGGTGGATCTCTTGAGCCTAGGAGTTCAAGACCAGCCTGGGCAACAGAAAGAAACCCCATCTCTATAAAAATTAGCCAGACAAGGTGACATGCGCCTGTA
GTCCCAGCTACTTGGGAGGCTGAGGTGGGAGGATCTGTTGAGCCCAGGAGGTCAAGGCTGCAGTGAGCCAAGATCATGCCACTGCACAACAGCCTAGGCA
ACAAAGCAAGACCCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAACTGGGTGGAGCAGATGGTGGCACAGTGTTTTAATGACTGCCTGGTGTCCTG
GTTAATGGTAGACTTCTTCTTCTATCTGGCAGATATAGCCAGGATGGAAGAGGAACAAAATAATAAAGAACCTGATATATATATATATATCAGGTTGGAA
TATATATATGTATATATATTTCAAATATGCATATATAGTTATTAATTTAAGAGATACCAGACTATGTTGAGTAAAACAAATGTGGCTTATCTACCTGGAA
CTCCAATTTCACGTTAAGATTAGGGGAAAGATTTAACCGAATGCAGAGATGCAACATTTTTAAAGGTGAAACATGAGACCTCAAAATAATGAATGCTTTG
CAGTGGAATACTGAAGTTACCTCCTTCAGTCCCCCTGGAGATAACCTTGTCTGCTTTTAATCTAGAGGATCATCACTTGCAAAGTGTGAGAAGCATTGCC
CTAAAGCATCAGTCTCTCTGGACTGTTTTGAACTATAATGAGCATATTCTCCAGAATTTTGGAAGGCTTGCTCTGCTTTTCTTTGATTTTTGTTTTGTTT
TGTTTTGTGTTTAACATGGGCTTTAGGATGGTCTCTTGATCCTCTGATTTTGAGGACTAGTGTTATCACCATGAAGCCCTCGTGTCATCTCTTGTCTCTA
GGAGGACAAGCAGAAGACATTTCTTCTGTTTGGCATAGTCCGTGCTCTTCTCCACTTACTCTGATGCCACCTATCTTTCAATGTCTAGCTCAAGTTAATT
TCAGGTCATATCATTCTCTTGACTTTTTAACTCATGTTAAATCTCTCTCTCTCTCTATCTCTATCTCTCTATCTAATATGTATAGATCTCTATATCTAGA
TAGACATATATAGTAGCCAGCACTGCCTGTGTACTCAACTGTACTCCACCATTTAGCACCTCATTAGATCTTATTGATTTATATACCCACATACACATTC
GCTTCATGTTTACTGTATTCTGACTCTTTAAGTGGGTCACTACTCTTTAAGTGGGATGATATGTGAGAGAGCCACCACACTTGCTAATGTATAGTAGGAA
TTCACTAAAGACTATATATTATATTGTTTTTTATTCCTTGAACATACTCCAAGGCAGCAAATAAATGATAACATGGTTCTAGCTAATTAATTGATTTGAA
TATTTTAAAGTCATGCACTACATAATGATGTTTTGGTAAATGAGGGACTATTTATACTACAGAGGTCTCATGAGATTAAAATGCTGTATTTTTACGTACT
TTTTCTATGTTTAGATAGATTTAGGTTCACAAATACTTAACATCATGTTATAGTTTCCTATAGTATTCAGTATAGTGACATGCTATACAGGCTTGTAGCC
TAGGAGCAATAGACTATACCATACAGCCTAGGTATGTGTAGCAGGGTATACCATCTAGATGTGTGTAAGTACACTCTATGATGTTCACATAACAACAAGA
TCACCTAATGACACATTTCTCAAAATGTATCCCTGTCGTAAAGTGACACGTGACTGTATTTGATTACCGTAATGTTTTCTATTTCTTGAGCACATTTATC
ATAAATCTAATGTTTTCCTCTGTAAATTAAGAGACAACTAGCAAAATTTAGCTACTGTACTTGGGCAGCTTATGCTGCTCTCAGAAAAGAAATTGTAGAG
GCAAAATCTACTCTGAACTCAGATACTGAAATCTCTCTCTTTTTCTGTAGACTATATATGAGAATTTTTTTCTATTTCTAATTAAATATAGGAGGTTTGG
TATGTGAGGAAATAAGAATCTGTTTAGATAAAAAAGGCTATCCTGATATATGTTCAACACAGCATTATAACCAACGGAAAAAAGAATGAAAATATCATCA
AGATATCCAAGTGGAAGGCAATTAAATAAAATATTGTATAGCCACATAATAGAATATGTATAGCTATTAAAGTAATATTTCTGAAGAATATATAATGAGA
AAAATAAACATGGAAAACATAGTAGTAAATTTGTTTAAAGAATGATATGGCAAAATGATTTCAATGTTGTGTATGTTTTTAGGATGTTGAGCTCATTGTA
TTGTATTTAATTGAGGCTAAAAATTTAGGGCTGCATTCCTGTGTGGTCCAGGGACAGAACTGCCATTGAATGTATACTCCGTGTCAGTCATGGGGAAAGA
GGTGTCAGGGAACTTAGGCAGGTCCCACTCTCTGGTCATTGCTCTCTTTTGTCTGTGCTTCTGGAGGAAGAAGGAAGGTAGCCTTGACCACATGGTATTA
AGCGAAGTCAGGCCATCTCTTTGGAAGCAATAAGCTGAAGATGAGTAAATTACACCTTGTAAACTATACCTGTGGCTTTAAAATTTGCTTTAAATCGATC
CACAGTGAGAAATAGATTTTATGTTGGAACACAGTAAACACACACTTATCCCCACACACGGCCAAAACAAAAGCTTCACAAAACAGAGCTTACACTTTCT
ATGTGTTATGGCCTCTGATATTTTTTCTTCCATTATATTCTTTTCTCTTATTTAACAACTAATTGGAAAGTATATACTGATTATGATCCACAAATTATAT
GTAGCATTGTTTTTGAAACTCGAATAAGTGGAAAAATACTGTACCAAACATTGCATAATGTCCTTTTTTAAATTGAACATGAAGTTTTTGAGATAAACTG
TTGTATAGTATTCTAGCATATGAATATCTCTTCAGCCAGCCTTCTATTCCTAGGCATTTCAGTTTTTTGGATTTTACACTCTAAGGTTCTTGATTGGTGT
TGTCAAATTGTCCACCAGAAAGATAGAGAAAGATAGTTAACAATTTGTACTTCTACCAGCATGTTATGCAAATATGCTAGTCATTATCCTCATCAATACT
GCACATTATATTCTCACATTTTCTTACACTAAAAGGCCTTAGCAAATAAATGAGGATATGGAGTTTAACCAAAAGAATAATGACAAAATTATCTTATTCC
CACCATCTGTTTTCCTAAGGTTATAATGTTTTAAATTTGAGATTGATATAGGGACATATTTGAAGGTAAAAATGGCATTTCATTTTTTTTAAAGATGCAT
TTATTGAGAGGGTTGATTTTTAATATGTTTCTTGGCTATTTAAATTTCTTTATTTCTAACTGTAAGAGTTTTAACTCCTTTGTACTTTTTGCCTCTTGGA
TTCTAACTTTTTACTAAAGCCAAAAATTAATACTTATTTATATATATGTAATATTTGGACCTTTTACAAAAACTCCATTTTCTGTCAGCATAATCCATTC
AAAATATGAATATCTTTTTGCCATAGAACAGATATCATTTCAGAGACTTTTCCACACTCCTCATTTTGTGGAAATGTTATGGATTTCTGCACTGGATTTT
GGTGGTAGAGACATAATCTTAGGGCTGGGAAAGATTCATCTGAGTGCCTGCTTCTGTCTTTTGTTCCTATTATAAGAACTTGGCTAAGTTGTCATTTACT
CTCAGGCAAAGCATCCTTTCCCCTTAGAATCAGTCCCTTTGAAAAAAGTTGAATCCTAAAACATAATTCCTTGTATAAAACTGCTGGTATGAAATCTGCT
CTGGTTTTAATTCACCAGTCTAATTGGCAGGCTGGTTTTTTGTGTGCCATTTAAAAATTTCAGAGTTTCTTTTCTTACAAAAGGGGAAAATGATGAAATT
TGTTTCATAAGCATAAGATTGGAAAAAACTTACTGAGATCGGCAGGTTGTAAATTTCTTTTCACCTTGCTAGGAATAGATAGATTCATATAGTATCTATT
CCATGAAAATTAAAGATGTGAGCTGAGGAAAAAACAGAATTGGTTTCTCTTTGACCTGCTTTGAAGCTGACTTCTAAAATATTAAATGAAGAATTGAACT
AAGTGTTGCTCCAGTACAAAGAAATAGCCCTTTTGTTTCAGAGAGTTGATGTCCATTGAGAAGTCCAGCTGCCGACATTATCATGAGGCCATATCTGCAC
AGTGATTTTTCACCGTCATATGTGGCATTTTGTTGCTTTCCTGTTGCTCCCTTTCCTTCTTGGAAATTGTAAAATGAAGAAATCAAGTACACTTCCAGAC
AATTTCTAAGCGTGGTCTGGAAACTTGTCTTGTGTTTCAGCAATGTTGTCATGGTTCCTCTATAGTGATTCGTATGAAGGAAAAAATTATAAACTGGTAG
AAAAGATTAGACAAGTGTAAGGAATATGAAGCCTGCCGAGAAGTTAAAAGACTGTTCTAGAAAAAGAATTCTATATTTCAAAGAAAGATATTTTAGTGTG
TGCATAGGTGCCAGAAGACATGAATGTGGGATGTGTAAAACTATAAATTGTCTGCCAGATATGGAGAGCTGAGATTTGTAGGTCATATGAAGGTTATACT
AAAGGGCCTCAATCTTTTTGAAAATGACATTCAAAATTTTTGGATTCCTTTGTGGGTCAGAGTAGACTGAGGTCATTCATATTGTGGACCGTCTGCATGC
TCTCTCAAGAGAGAACAGAATCCAATGTGTGTGGTCTGCATAACTTACAGAAGAAGATGTGTGCATGACATAGAGAAAATGAGTTGGTGGCCAATATGCT
AATCTGAGGTTGGTTGTTGATGCCTGGGCCACTCCATATGGGTTTTTATTTCAAAGTTTAGAAAGACTAATCTTATATGAGGTGTTAGGGAGCATACTCA
TCAATGTGGCTACTATCTGGCTCAGAATCATGTTCTATTTAGCCATCACGGGAGACAGTGCTTTTATAGTGCCGAGCATGGTGTGATGCATATAGGAGTA
GTTACATGCTTGTTGAATTGAACTTTGTGCTATATTTTTACAGATAATACTTGTAGCTGATATTTATGAAGAACTTACATGGTGTCATGCACTGTACTGA
AAGCTTGGACTGTGTTGGTTCTTATAATCCTCAGTCCTATCTTATCCTTACTCACCAGAGTAATTGGAGCCTGAGGTTAAATAATTATTCTAAGTAAGTA
GTGCAAACAGGATATAAACCCACTCTGACATCTACGTTCCACTCTTAAACTATTCTATTCCTCCCCTAATTTTATTTGCAGCATATGGAATAAGACCATA
GTGAAAACCTTTTTTAAAAAATCAAATTTTTGATTTGGGCTGTGAGCTACAATACTATCATTTTGTTATTTAAAAAGCCTTTCATCTGAAATAACCTCAG
AAAATTGGATTGTGTAAACAGAGTGTATGGAAGGTTGAAAATACATATTACGTGATGAGTGTCTTCATTCAGGGATAAGAGAACTGATCAACAGTGTTTG
TTTCCATTCTTGCTTTCTTTTCCATTAACGTGTTCATATAAATGGAAATAAGCTGTTAGAAATCATAGAGAGCGGAGTACATATTGTATTCATCATGTAA
AAAACAGAATAATAAGTCAGCAACTGTTGGCTAGTTAACAAAATCATATTCTTGTGGGTGAGGTGTTGAGAAAAGTAGTTAGTGTGATGCTTTTGTTTTG
TTTTTGGTTTTTTACAGTATCAATAACAACTGTTATCATATAGCCAACTGCCTACATGCTGTCTCTACTTGGATGTCTAGTAGGCAGTTTAAACTTAATG
TGTTTATTATAGAACTCTTGATTTCTTCTTCCTAAATCTATTCTGCCTCTAGTATTTCCCATATCTGTAAATGGCAACTTATATTCATCTAGCTGCTGAA
GATGAAAAATCTAAGAATCCTCCTTAACTCCTTTATATCCCTCACAACATATATTAGCAAGTGCTGTTAGCAAAATCGTCAAGATATATTGCAAATCCAA
CCACTTTTTACCTTCTCCACTGCCAACAGCCAGGTCTCAACCAGCTGTGTCTCTAGGCTAGACTCCCGCAGTATCTCCTAATTGGTCTCCCTGCTTCCTA
CTTTTGTCCTACTATCAACATCATTTATATACTATATAATATAAGCTATTATAAAATAGAGACGTACGTAACATAATAATGTATGTGTGTGTATAATTTA
AAAAAATCTCAGCCAGTCTGACCCTTTCCTTGTTCATTTTTTCTCGTAACTTTGTGTCCATTCAACATCATATGCTAACCCTTACTACTGCCTGGAACTT
CCTATCTAATCTGGCTCCTGCATGCCTCTCTAACCTCCACTGTCATTGCTCCCACCTTGCTCAGTCCTCTCTAGCTGCACCCTTTTGCTGTTCCTTGTAA
CACTGTTTATTCCTGCTTCTTTGCTTGGATCTGCATTCTCAATATCTTCCTATAGTTTTTTCCTAACTTTTATTCAGGTCTCCACTTAAAAAACCTCAAA
GGGGCCTACCTGACCACCCTATTGAAATGCATCCTCTGAATTTTTTATGGGGATTATAGTAAAAATATTTACAAACCGGGACAGCACAAATACTGACCAA
TCAGAAGAGATGACAATGGTTTTACTCCTTACAGGCCACTTTCTGACTATCAGACTATAACTGATATCTCATAGGTTATATATTTGCTCATTTATTTATA
TCTCTTTTCCCCTCCAGAATACAAGCTCCAAAGGGTAGGAACTGTGTTTCGTAGTGCCCATAGTAGAGCCCCATAAACATTTGTTAAATGAATGAATGAA
CCGTTAAACAGAGATATATTTGTTTGACCATAACCTTCATATCAAAGATTATTGCTCTGATATACACAAGGTCTTTGGGGTATTGGCTGTGCTGGAGGCC
CTTAATCTCTTAAAGGTCCTTAACCTTTAGCTTTATTTTTCAATTAAAAATATTTTAAGGTACATAAGCAGTATAATAAATACACGTGCAACCACAACTT
ATAGGCCGGGTGTGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGCAGGAGGATTACTTGAGGTCAGGAGTTTGAGACCAACCTGGCCAA
CATGGCAAAACCCCATCTCTACTAAAAATACAAAAATTGGCCAGGTGTAATGGTGTGCACCTGTAATTCCAGCCACTTGGGAGGCTGAGGTACGAGAATC
ACTTGAACCCAAGGGGCAGTGGTTGCAGTGAGTTGAGATCGTGCCACTGCACGCCAGCCTGGGTGACAGAGTGAAACTGTGTCTCAAAAAAAAAAAAAGA
AAAAAAGAAAAAACACCAAAAAAACCTCCACGACTTATGATTAACAGTGGTAATGTTATATTGTTTTTGTTAGAATTAAAAAAAAAAAGATATCACTGAC
AGAGTTGAAATAATCTTTGTCCCTATTTCCCTAAGAAGAAATCAGTATCTTGCATTGCTGTATTTCCTTCTAGTCCATGCTTTTATGCTTTTATACATGG
ATTATGTGTTCAAAAATAACACATACTTTTGATTTTGGATTTTTTTAATGTTACCATCCTGGAGAAAAAAAAAACTATTCTGTAACTTGCTTTGTCATTC
AATGTTATATTTGTAAATTATCCATTTGATCTATATGATCATGTTAATACTATATATATGTACATATGTATGCATATGTATATATTTTATTGTATAAATA
CATAACTCATTAATGGAAATTTAGGAAGTTTCTTTTTTTATTTTTAGTTTTTGCAATTACAAGCCACTCTACAAGAAATATCCTTGCACCAAACTCTTGG
TGTGTATGAGCAAGTTTTATTTTGTTTTTCCCAAGGAATGCACCCCAAAGACAATCTGTTGGACTGTAGAGTATGAACATTTTCGTCAAATGGGGATGCA
CTACTTTGAACTCCTATCGACAGATTTTAAGTATTCTCCTTAATAAGTTTTGTCGTGTTTATTGATATGCTTCCTCTTATTATGTAATTACTATATTAAG
AAATCATGTTTCTCTTATTTTCTTAGCTGTCAGGAATAGATTTTATGATGTATCATGGTAACCACAATTAACTTAGAATTTTTGGTAAAACTCTATGTAC
TATGCCTCTTAATGTCTCATTTTTGTTTTAATTATTTAATAATAAATCACTTGGAAGTTGCATAAGCATCACCAATAAATATTTAGAATGGCAAAATAAC
AGAAAGAAGCATGAAATTTGGATAAATAAACATTGAGCTAAATTATGAGCAAATTTCTTTGACTAGAACTTTACACAGGGGGCAACAAATTTTAAGAGTG
GCACCTTACATCTGGCCACCCGAATTAAAAGATATACTCTGACCTATACAATTTGTATAAAAGTCCTTCTTTTAAAATTTTTAATACTTAACCATATGTA
ATTTTTTTCCCAAATTTACCGTCTTCATTACTAGACTATAACAATAGCCTTATAGTGCTTTAAAACTGGAAGTCTTTTTGCTTACTTTGCAAGATGATAT
ATAAATATTGCATCATCCATCACTGGAATAACTTGTCTCCTAGATTAAAACCTGAGGGTGATGTGTAACTGTAATAAATTTGGACAGCAAGGAAGGGTTC
TATTTCCAATTAAAACCACAGCCAGGAAGTTTACATTTAGACTGACAAGGGAGGTAGATCAGTACACATTTTGTACATCTTCTTGTTTGTTCAGGGGGAA
TTGGAGGATCTTTTAAAAGTAGCAATGATAAGTCTTTACATTTCTTTATGACCTCATAAAAAAGAGTCAATTGTCCCTTCTTGAAAGGAAGTTTCTGGGA
TCAGAAGCTTTTTGGGTTTTTAGACATTTAGAGCCAAGTGTTCTGAAGTGCCATGTCTAACATGGGGAAGTGCATACCTTTATGGATATTTTATTTGGAT
TTAAACAGGTCTGAAGGTTCAAGATGTACCTCAGTCAAGTTATTTTACTTCTTTGTTTTGAAAAATAATAAGATGATGTACTTAGCACAGGGCCTGGCAT
ATAGTAAATACTCAATAAATATTAATTATCTTTATCATTGTGATTATCATTTCTCTTGCTAAAATGTACAAGTCCTTCTGATGCTTATTTTCTGCTTTGA
ATGAATCTTCTGAAGGTTTTCCTATTAGTTTCCCTTTCTGAAATGTGTCTGGCTTTCCTGGATGTTACTAATGGCAGCTAGTAGCTAACTGCTTGTGAGG
TTCAGGCTCCAAGTAAGGTATTTAAAATCAAAATAATTTCACAACTGTGATTTTAAATTAAACGAAGTGTATTCTAAATAACACAGAATTAAAATAATCA
CTCATGGATACAATGACATTTGCACTGAGATTATATTGGCTCGGTGTTTTAACAACTGCTTTAGAAATGTCTACGAACGATGTAATAACTATTTCTGAAA
ACAAAGAAAGCTAACAACATAAACAATTGTGCAAATAAATTAAAGCTCTTTTTATTAATGACATATTGGAATAGGCTCAATATGTTGGCTCTCATAAAGG
CATAGCAAGTGAGAGGAATTCCTGCTGCATGGGAAATGGAAATGCTAGGTTCTAAATCAATTATTTTGGCTGCCATATTATCCATATTATCCCCTTCCTC
AAAAGCATCCAATGGATTTCCGTCACACTGCTACTCAACAAAACAAAACATTATTAGATGGAAACTTAGCTCCATAATTTCTACTTACTCCAGTTGCATT
TTTTACTTCACAGTGTGTTCAATTAGAGACAGCAACAAGTTGCATTATCAAGGTGACTGTGAATTAAAAAGAGGTGCTATTTCCTTCCAATACATGTAGC
TTTGTACTGTGGCTTGAGGAGGGGAGAGCAGGCTGGATCTCAGCCTCCACCTCTAGCTTGGTTGGACTTCCTTGTGCTGGTCACAGCCTGGCCAACAGTG
CCTGCTGGTCCCAAGCACCATGCAGGCCTCACAATTATAACTTGATTTTGTGCAGGACTCATACTACATTCTGGAAAGAGAACCATGAAGGGTGAAAAAG
CTGTTGTAATCCATACAGAAACTTTATTGATGTGACCATTGGGTGATAAAAGTAACAAGTGTTAGTAATTTAACTTACTGAGTACCTGTTATGTGCAAGG
TACTGAGCTAGAGGTACAAAAATGTGCAAAACAGACTTATTTCCTAACCTCTTGGAGCTCATAGCGAAAGCAGAGAGAAATACTTAAATAAGTACACCAG
TAACTACTACTGTGATAAACACTTCAAAGAAGAAATTTAAGCTCCTATGAGAGTATGTAATCTTAATGCTGGTGATGTCAGGAAAGTAAAGACCATTGTT
CTTGAGGAAAATATGAACGTTGTCAAATGCTAGATTTGTGCAGTAATGGTTTTGGTTTTGCATCTACATTTTTACAGCTGTTAGAAACAAAACGCTTGTT
CCTCAGTGCCACAAAGAAATAGCACTCAAACATAAATTTAATTTTCTCAGCAAGGCAATTTTTACTTCTATAGAAGGGTGCAACTTGCGACTGAATAATG
GCGAGAGCATACCTAGACAAGGGAGGGGAAGGGGTTCTTATTCCTGACGCTGTGTGGTTCCCCTGTTGGCTAGGGTTGGACCGCACAGTCTAAGCTAATT
CCGATTGGCTATTTTAAAGAGAGCAGGGATACGAGCCAGAGTGGGGTGAGTAGTTTGGCGGGAAGGGCGGTTACAGAACAGGTGACTCAGGATGATTCAG
GTCAGAGAAGGTGACCAGGAGTGACTCAGGATGGAGCAAGTGACCAGGGGTGACTCAGGTCAAAGCAGGTGACCAAGGGAACAGATGTGAACTACTGATT
AGAACTAGCGGGAAAGCTGTTTACTGAAACTAGAGGCAAGGGGCGAAGAGAACCAGGAAGTTAAACTTTAAAATGGAGAATCAAAGAATAAGAGAGCTGA
ACATACTGACATACGGATTCTTTGAAGAGAAACTTGGAATTCACTATATCTAACAGCGTTTAAGACATGCAACTTTATTATTAAAATTCCTACATTAAAA
TAGCTTTGCTGTTATAAGACGAAAAATCCCTAACTCCTTTTTGTCACTGAAACTATGTTTTTAAGTTAATTAAAGAGCAAGTTTTCTTAGCAATGCAACT
GCCCTCTTGTAGTAGGTAATTCTCCTTAACAATGCACTCACCATTTCATTTTGTAATTATTAGTTACTAGTCTGCCCCCCACATCAGATTGTAAGCTCCT
TGCAGACAGAAATGAACCTGTGTTCTCTATTGTATCCCTGGCAATTAAGTATAGTGCCTGATACATAGTGAGCCCTTAATATCTAAGCATGGAATGAAGA
ATCCTTCTACCCTGTCTGCTTTCCTAAATTTCTGCTCTCCACTTTCACTCTTTCATTTTAATTATTGTCCGTCAATAATCTTTTCTGCCACATTTTTCTT
ATTTCCAGTGACTTTGCCATTATTTATTATGTCAAAGTAACCTCATGAAGAATCTGGCAGAAGGTGATACTTGGGGCTGTTTTGTGGGAGTATTTAGTGG
TTTCTCTCCACTGTGAAGTCCCTACGTTGTGTTCCCTAAGTGTTCTCTAAACAGTTAGTTTAGTGCTGCATGTATTTATGAAATTCCTTGCTCTGTAGAG
CCCTGGGCTGGGCATAATGGGAGATAACAATGACAGACTGGCCTCTGCCTTCAAGAAGCTTTATAAAGTCAATAATTATTTACAAAGAAGAAACAAATAT
TATGCCAGCACTACATGTAAATAGCAATGGGAACACAGAAAGAAGCAGTTCATTGCAAACTCAGAGGGATCAATGATAGCTTCATAAAACCAGAAGGCCT
TTGAGCTAAGCTTTGAGAAAAAAGTAGACTACTCTAAGCTGGAAGAAGAAATAGAAGGACATTCTAGCTTAAGGAAACTGCAAAGTCTTGTATTTCGCTT
TCCTTTTAAAATAAGTTTCTTTTGTAGATTTATCTCAACAGTAACAAATGTTACCATTGTGCTGTCTGTGAATTAATGTAAATCCTGCTCAGCTCTCCTT
GTGTTTCCCAATACATAATATACTACCATCGTTTCTTATACTTCGCTTCATCTCTCTATAAGCAATCTTTAAATGCAATAATGTAGGTGAAGGTACTTTA
TAAAATGCACAGTACTAGATAAAATAGGAGGAAAGTGGTATACAAAAGTAAGTTGCCATAATTCTTATTTTGTATTTATTTGCAAGCTCAGTGATCACAA
ATCATAAGTACTTAACAGATAATATAAAGATCCAATTCAAAATATATTTACAAAAGCCTGATCAAGTAATTTTGGACAAGTCACTTATTCAAACTTTCTG
GGTTTCAGGGAGTTTTTAATTTTTTTTTTATGAAGATTATCTGAAACAATTGACTGTGAAACCAAAAGTACAAGAAAAAGTCACTCTTAATAACATACCA
GACCCTTGGATTGACCCTGGCCTTTGCCTATCAAAAACGTTCTAGAGATATGAGACTTACATAATGGAGATATACAATATCTACATAACAGTAGATGGGG
AAATATCAAAGTCACTGGTGCTGTCATTAAGTACCATGGGTTTAAGTGCTTTTATTTAGAGATGGGTACAGTCAGAAGGATCACAATGACACAGAGTTCA
GATACAAGCAACTTAACCTGCTCTAGGTCGTAATCTCTGACATTCAGAGGACATTCTGTAATCCCAGCCCAAACCTCAGTTTTCCCTCCAATTCTCAAAT
ACTGATTCATGACTATATGACAGTTTCAGTGGTATATTGGACTGTTGGTTTTACCACTGTTTTCCAGTAAGAAAGATTTATAAAATTGCCTAAGTTCTAT
TTTATTTGATTTGCCCCTCAGTGTTACAGAACAGATCTTCATAACTTCATGAGACTGTCTACAGTTATCCTTAGAGTGGCACGAATTTATGCATGTTCAC
CGAGAAGAACTTTATTTTAGAAGAATCTATCTGTAATGACAGAACATCGGCATTACCTTTTCCACAGTTTATTAGTAGTGGGGATAATATATATTCTATA
TGATTTATTATTATCAGTGTTAAAATTTCGAAAGTGCCTAAAGTTCAAGACCCATATTTATTATACTAATAACTTGTATAATTATTAGTACAAATATAAA
AATAATATGTATTTTTATATTTGTATAAAAACTTAAATATGGTTTTATGTATCTTTAGTCATGTTAATTCTAATATGTAGGTAAAAGCCTCATTTAAAAA
ATGAGGAAACTGAGGTGAAGAGGTTAAATGACTTGCCATAAGTCACAGTAACTAATAAAAAATAGTTGTGAGATTGCTGGATATCATTAAGGTGATAATA
ATTAATTTTTATTGAGTATATTTCATCAGGCACTGTCTTAAATGCCTAACATGTATTAATATAATATTTGAATGAAAGCGTGAGTAGATTTTAGAAAGAT
GTAAGTATATTGCCCTTAAGTTTTCCAGTTTTTGTAAAGCCATTCTTTTTTTTTCATGTGTATATTGTTTGTTAGTTAAGTAAGCATTTGGAAAACAAAA
CAAAACTTTACAGTCATAATTGATGCTTCTTACCTTGGGTTGTCATAAGGCTTATGAAAGGCTCTGCAGAAATAATGCTAGAACAGACTCCTCTGGGCAC
TACAGGATGGAAGGCATTGGGCTATTGACAAATTGATACCAGAAGAGAACTTTGAGGTCTCTGAAGGAAAAACACCCTGTAATTTCACAGTATAACTAAA
GGGAGCTTTACTTTGAAACAAGATTATTCATGAAGTCTAGCCTGAAATGAACAAGACAATAAGTGTTGCTCTACTGCCCTCCCTCCCCGCATCCCCCTTA
TTTCCTTCCTTCCTTCTTTCTCTTTTTCTTTTTTAAGGAAGTACATCATCAGCACAGGAAATCACTGGTAAAGTCCTCATTTTCACTTTAGAATCCTGTC
AAAAAATGACCTTAGCAACTAGATTGTAATAAAAATAATTTCAGGAAGCTGTAAAATTATGTCTACAATTAGTTATTAATCGATGAAGTAAGACACTACA
TCTAGAAGAGTATTTTTCTGATATATAAATCTTATTTGTTTTTAATATTCTGGACAGTTTAAAATATTTCTCTCTCTCAGTAGAAACTTTTCCATATCTG
CTTTAACTTGACACTATGCCCCTGTCTACAACTGTTCATGAGCATCTCTGCTCCCTTGAGGAAAATAGAAGTGGAACTACTTTGTGGTGACATTTACCAA
GGACAACAAAATAAACCCAATAGTAAATCTAGCTTAAAATAATCATATTTTAAATTGCATCCTGGATAAACATAGGAATAAGCACATTGTATTATATCTA
TAGCAATATCTGTGATTTCACTCCTATTTGGCTCAATCCTCCAAACTCAGGACAGGCCCATTAGTCTCTTAACCATAAAGGGCTGATTCATAGAACCAAC
ATAGCAAAACAAAATCTGCAGAAACATCTCAAAATAATTGGATATATTTGTTGAGCTGATGACATTTTGAAAAATTGATCAAATTGGTCACCAATTTCAA
ATATACATCATGTTTTTGACAGACTGAAATTTGCTGAAGCCATTACTAAGGCTTCCATATGTAGGCTAGCCTTCTTTTTCTATTCAATCTGTACCCATAT
TTAATGTATAGTTAAAATAAAACTAACCATTGCAAACAGTTTAATCTGTAAATGCATTATTTGACTCCATAGTCTTTGAATCAAATTCTTTTTTCTTGAA
TTTATAGATTTTACAAAGAATGGCAAGAGTATTAATATTTTAGAGCATCTTGGTAGGTTCCATTCTGATAATGAAATCCTTTGGGTATACATTCCTATAA
TTTACAGTCTTGGCCACCTGGGAGAAGTCAAACTTGTAATTCATTAGAAATTCAAGGAAATTTGGAGAATTACTAGTTCTGAGAGGACTGGCCCTTGGCC
AAGCTACACAGTAGCAATGCTTCCATTTGATGCTTACTCTTCTGCTGGTCTTTCATTATTATTAAAGATTTAGGGTATACAAGTGCAGTTTTGTTACACA
GATTTTCTGCATAGTGGTGAAGTCTAGACTTGTAATGTAGCCATCGCCTAAATAGTGTACATTAGATCCACTTAGTAATTTCTCATTTGCTGGTCCTTAG
AGCTCTCCTTCATATGTTCATATGAAGTGCCAAGAAGCACCTCAAGCAGGAGTAGGGAACCTCTAATGGTGAAGGCCTTCATAGGAATAGTTTATGCTGT
TACCCCTTCTGGAAATCCTGAATTTTTATAAAATCTTACAAATAAGTGAGTGGCTATCCAATAATGAAATTTAAAATGGTAAGGTGTATATTTAAAGCAA
GTAGTTTTTACTCTGTCTATTCTCTGACACAACCCCCAGGACGCCTTGCACTAGCCTACTATATCAGTCAGGGTTAGTCATTCATTAAGACATCGAATCT
TCACTGTAACCAGAGAAGCAGAGCTAGTAGGAGATGTACATTAAGAGATGCCTCGCAAAGAATTGGTTTATGCTATTGTGGAGGCTGCCTAGGCAACTGA
AAAATCTTTATGGCAGGCTGTAAGAAAGGGGAGTCTGGAACTCTTGTGCACAGACTAAAGCTGCTGTCCACAGCTGGAATTTTCTCTTCTTTAGGGAAGA
CTCAACTCTGCTTCTAAAACATTTCAATTGATTGAATCAGGCCCACTCAGATTATCTAGGATAATCTCCCTTACTGAAAATCAACTGATTATGGACTTAA
ATCACATCTATAAAATATCTTCACGGAGACACCTGGATTAATGTTTGGCAGAGTAACTGGTGACTGTAGCCTAGACGAGTTGATGCATCAAAAAGACCAT
CACCTCTACTTTTTAGGAATACTAAGAAAATTATTTTTAAAGTGGATTATTGATTAAGGCTTCTTACGTAAAAATAACTTAGACCTAAAGGAAGTAAAAA
TGAAAGGGAGTTTGAGCCTAAGGAAGATAAATAAGTTATTTCTTTTTTTCTTGGGCCACATCAATGTCATGTATGAAAATTCAAATGAGTAGCAAATTTT
AGTACCCATCTATTATTTTATTTATCTTTATGATCATCCTGTGGATGATATACTAGGTTAAGGGAAGTCTGTTCAAAATTGATTAGCAGTCTTAAAAAAA
TGACAAATGTATTAATTACAAGCAAAAAATTTTTGTCACTGATGATACTGGTAAAAGAAAATAATTATTTAAATGGCAGATTTAGCATCATTAGTATTAA
TAACCAGATATAAATGGAACATAATTATTGCTGCTGATAATCTAAACCCATTGGAAGTGGATTAATTGGATAGATTATTTGGTATTTATATGTTTTGTTT
TAATAGTAGCTATTGTATTGAATGTGATTTTTCTTGAGGGGGAAAAAAAAGAATAAAAAATGGAATAAAAGTAGCTATTATAAGCTAAGTTCCAAAAACA
CATTATAATTTATTAAGTTACCATTGCTGACTCCATAATCAAATATAGGCAGTCATTAAAGAATATATTCAAGCTTGCAATTCCCTTTTCTTTCTTTGGA
ACTCTTTAATCAGAATAGTAGATTCTAGTAAAGAATGCATTCTTCATATCTTAATAATGGGACCATCAATACTTATAGCATCGTACAAATATTTAGTGTC
CCAATCCACATTTTAATAAGACAAAATTTTATTGTGCTGAAATCTAGCCTTTAGTATGTGGTAAAATCAGATTGACTCATCTTATTTTGTCAGGTCAAAA
CCAGATACAGTTTTTAGCATGACATTTTCTATATTTCAAATCAATACCATACTCTGTGCCCTTTTTAATATTTAAAAATATTAATGGCTAAGTTATTGAT
GTATAAAAATGCTCAGTAAATATTTTTCCTTTTCCACCTTATATTTTTTGAGTTGAGTTTCAACACATCACAATTTTTCACCCCCAAAAAAGTTTTCATT
TTTTCTCATTGTATGTGTGTGTGTATATATATATTTATAATGATAACCCTTGCTCATTTTCCATGTCCATTCTATACTAGCTCTGAGTTTTGCACTTAGA
TTCCTTCCGTCCTTCAGCAAACAGCTTTTTCTCTTCCTCCTGGCCTTTCACTGTCTCCTCACAGCCATTGGCAGACAGCACTGGAAGGACTTTTATGACT
TGAGATTCAAGTTTTTCTCTCTCAAGGAGTCTGGATGACTCAAAGACACTGGGTTCTTTTTCGGTCTCCTCAGCAGCCAGTGGTCTGCCATTGTGTGTGC
CAGCAGGAGACTTAGAAGCTTCCAGACTGCCCTGTGTGTGGAACCTCCATGGGGCTCTGTACTGCAGTCGTCCTCAGTATTAGTCACTGCACACCGGCTG
CATTTATCGCTCTAAAATCCATTTCTCTGCCCCTCACAGACATAACTGCCATCCACCCTCTGAAAACCTGCAGTATTTCTGGAGATTCTGCAGTGACAAC
TGTTCACTTTATCTAAGTCAATATGTTTGCTGAAAGCTGACCAGAGTTACCAGCGATTTCCTAGTCTCACATTCACATTGAAACATAGGATACTTTTACC
AACAGCCTGGATTTTTTCCCCTTTTTTTTTGTTTTCCTTGGTTTTTTATTTTTTATTTTTATTTTTTATTTTTTTTGAGATGGCAAGTGAGAAATCTAGG
AGTTTTTAGAATGAAATGTTAACTTACTTTTAGTCTGTTTTTTATTCTTTTGCCAGTTTGACAATCTAGCATATATGCTATTTATTCACTTCAGTTGCTA
CATGCTATTCAGATAACCACCTGACTACGTATGCCAAGCATTTTGCCCCTTGCTTATTTAATCCTCAAACAGTTGTATGACATAGGTATTATTATCCTCG
AAACACTTGAGAACACTGAGACTCAGAGAGCTCAAAGGGTGTTGTCTATCACGACAAAGCTAATGAAGGACTGAGCTGAGATTCATCCCAGTTTCAAAAC
CTATACTCTGCCAAGGGAATTCTTGGGGACCTTAGCATAAATTATTAACAGCTAACCTCTGTCAAACATCAACTGCATATCAGGCACTATTGTAAGACTT
TTATATGTGTTCATTCATAACCATCTCAATGATTAGGTACTATAATTGACCCCACTTTTCAAATGCGGAAGGTAGGACACAGAAAAATTACAAAATCCGT
CCAAAGTCCCACAATTAGCAAAAATCTTGGCAGTCTGGTTTCTGACTCCTTATGTTTACCCTGCATCCCATAATGTGTGAAGTTAAGTTGCAGAGTCCAA
GACTTAAAATTGTCTTTATACTGTCACTATAAAAGAAAAGAGGCCAGTGGTTTGGTTAAGACATTCTTGGGCTGTGGCGAATACTGACTATGCTTTTAAA
AGTTGTCTTAAAAGGAAATGGAATTTTTATGGAATCAACCTGATTAAGAGTTTGCCTTACATTATAGACTCCTTGTCCCACGAGTCACTAGGGACTCTCA
TAAATAGAAATTTGCTATGTTATACCAGAAGAAAGATTTAAAAACTGGCATTTTTCGAGCAATAGGTACTTGGTAGAATCTTGTGATAGAAGAAAGTAAT
TTTTCTTGGCAGACTCTAAAGTAGATAATTTGGCAATGTCCTTCTGCAGTCTATGTGCTGTGAACTTGACTCTTGAGAACAGCTGCCTTTCTAGAGAAAT
CACCTCATTCAGAAGAGATGACTTTTCTGTTTCCAGATTAGTATGAGATTGGTTCAGGAGAGCTCAGTAATGAATTAACTGGTCCACGAGAACATCATAA
TGGCTCTGTAGTAGGAACTGAAATTATACTTCACTTCCAGGCCATTATATGATATTTGTCAAAGAATCATGTAGTAGTGTTTCAAGGATTTATTGAGATA
TATACCCAGCCAGGATTTTGTTGTGTTGCTGTTTAACGCATCTTAAAACCTCACAATTCACTATTCTAGCAGTTTTTCATTTTATGTTTTGTTCCTTTTT
TCCTTTATGCTTTTTTAAAATTTCTAAACCTTAGTCTAGGATACAGAAAGACTGGTGATTCTTTAGAAATAACCATTTCAAAGCCCTGGTGGAAGAGAAT
TGGTGTTTCTCTCCTTCAGTAATAGACAAATTGAATAACCTGGCTTATTGTTTGCTTGAGGCAGGGAAGAAGTAAAGGATTGGGCCTAAATTTCTTTGAC
AACAAAGTATGATCCACAACACTTCGCTTTGCCTGAAAAACTATATGCCAAACCCGGAATCCTTCAATAATGCTCAGCACACTCAATGCCTTAGAAGTGA
AGGTTTTACAGCTCTCTGGTTCTTAAGGAAGATGATACCAATCTGGTGAAAGGAGTGTGAGGTGTTTAATAAGTTCTTATTTAGAACAATGAAATACAGT
GAGAAAAATTGTAGCTCTTTTTTTTTTCTTTTTTCTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTGCCTGCTATTTTAAGGTAGATAAGCAATTCTAAAG
AATGAAATGATTTCATGAAGAAAATACTTCAGAGTCACACTGAGAGTTTGTTTTGTCCTGGAAGGTAGATTTGATTTTTAGCATTTCCTTTTCCATATGG
AATCCGAATTCCATCAGAATTTTCTGGTCTTGATTAATGAAAGTGTTACACTAGTCAACACTACCTTTGAGAGAGGAAAGTTGAGTCCTGTTTAGGATTA
ATGTGGCATAAAAAGTAATGTGTACTAGATCACATATTCCACAACAGAAAGATAAAACAGGATTGTTCTTATTTAATCTTGAGGTTTCAGTCTTCTAAAC
AAATGGAAATTATCACCTTAATCGAATCACTAAATTATTGTTTAATTTAAATAGTATCTGGGTTAGAATCCTCTAGATTTACTTAATGATGAGTGTTCAT
GGAATGTTTGCTTTATGCCATATTTTATTTCTGTTCTTTATAACAATCCTATAAGGTATCTATTGCCCCCAATTTAAAAATGAAGACAAAAATAAAAAGC
ACAGTTACTTGCTCAGGAGCATATTGTTGATGTTTGAGCTGAATCCCTTACTCCTTCCACTGTGGAATGCAGCACTTTGGCTGAATGTTTGCCCTTTAGT
TTATTGTGCTAAAATGTGTGTGTGTTTTTGCCTACTTAATTCTTTATTTTCTTGTCTCCCTCCTTCTGCCCTGATCCTTTTTGAAAGTTCTTTTGTTCTT
CTGTAGAAGCCATTAGGTTACTTTTATTGGTAAAACTCTCCCTGTTCATTCCTCTACCTGCTGCCCACCAAGACTTCCAAAGTGCTCCCATAACATGGGG
TCTATGCCTATGACAGCAATTAACACAGTGCATAATGATTTCCCATTTGTTGTGTAGTTCACCTCTTAGAGCAAGGATCTCATTCCCAGCTCCACATTAG
AACCTCCTAGGGTGTTTTTAAGAAATGCCAATATTTGAGAACTACTTTTGGAGATGAAATTTAGAGATTTTTTTTTTTTTAGTTGTCTACCTAATTTTAG
TGCAAGCTGAGAGTTGAAAATTTATCTTATAAATTCAAGGGCAAGGATAATTCAGCCATATTCCCAGAACTTAGTACCATCCCTGATATATAACAGATAC
TTCACTAATAATGACTGGTTGAATGAATGAATGGATGAATGAATGAATGAATGAATTTTTAAATGCTGACTTACCATGGTTTTCGTAATGTAAGTATTTT
ATTTATTGATTTGATCATTGTATGATTCTTGAATGCCTTAATGGTGAAATATTATCAAGCATTAAGCAGCAATTATAATATCTTCAAATTCGGTTAGTGC
TTTACGATTTTCACAACCAAATTGTATTTGCCTTTTGAAACCTAGCACAGTGGCTCTTCTATGATGCTTCTTAAGAATTCCAAACTCAAGAAAAATCAGC
TTATTGAGATGACTGAAGTTTAACAATAGTGCAATCAGAATGTGAGGGTTCTCTGCAATTTGATTTGGGACTTGAAGGATCTTTATCTACTGGTATGTTA
TATCCTGATCAAACTTTGCATCAGAAAGCAAGAGGCATTTTAGAATTCAACAGCCTGCAAAAGGATCCTGGCACCAGCACACAGCAGGTAGTAACCTGCC
TAGGGCAACTTCATAGGATAAATTGTTTGTTTCCCTAGGTAGCCATCAGGATATTACTAGATTTCTTAGAGCCATGAGAACATTAAGTGGGGTTTTCAGG
ACTATAATATATCCTTCAGCTCTCATTTCAACGGCAATCAATGTTCATAGCCCTCCTTTCAAAGCACTGGCAAACATTCTGGTATAATTAATGTCACTGA
GGTATTGTTTTTCCCATTGCTTTCTGTGTGTTTTGTTTTTTTTTTTCTAAGAAAGGCAAGTTACAAGACAGATGTCTTATATGAAAAGCTATTATGCTAT
TATGTAATTTGAAACAAAAGGCCAGTCTCTAATAATAGTGTGGGTGTTAGAGGGCACAGAGTGAATTTTCTTGAATGAGATAATTTATGGAAATTCTCTA
GGACACCATATTTCAACTTGGCATAAAAATTCCAGATTCATTTAACATATGCATGGTGAGAACAACTAAGTTTTAAGGCCAGTTTGGTAAAGATTCATAA
CTTTGTCAGTTGATTATGTCTCTGCATAGGATCATAAGTAGTTTTAGTGTTGACAAGTACAGATTCTTGCTGGGGGTTGTGTGAAGTTTAATTCAGCAAT
TCAGTACAAATCAATAGCTACTTATTGAGGGCCCACTGTTTTCACCTGGGTATTTTGAGGAGAAGGCAATTGGGTAAGACAAGGTTCCTACCTTCAGGGA
ACATATGGGTAGTTGAGTAAAATTTCTACTATTGGGTAGAAAAACTGCAGCTTTTGATTATAAAATAAAGTTTTGTTGCCAGTAAATTAGGTCTATAGAA
TAACACCATGGTAGGAGAGATTGATTTAGGGAGAGTTAAATGTTTTCCCATTTCCTATGAGTATCTTTCTTTTCTTTCAACTGCAATCAGCAACTTATTT
GATAAGGGAGGTTTGGAAAATTATGTACATTGTTTATTTCTGAAATTAAAATAAAAATATGCATTTTCATAGACATGAAGAGCATACCTTTACTCTTAAG
TATCTGAACACAAGATGCTTTGGAGGAATAAGTTCGCTGAATTAATCTTTATAAATAACTCAGTTGCATTCATCCTCAAGTAAGGAATTCAAGGGTTGCC
TTTGCCCATCTGTTTGACAAAGTATGAATCTTAACATCACGGTTAAGTGAATTATCTGACAGGATGAACTGCATATACACTTACAGTGAGGCTTAAGGGT
GCTGTGATACTTACATGAATTGGAGTATTTTGAAAATGTTCAGGTTGACTGCAATGCTATATTATGTTAGGAATTGACTAACATGGATAAACGGAATGTG
ATTTTTTACAATCTGTATTTTCAAAGGTTTTTGATTTTCATTTACCCATCCAGGTTGCCCCCAATACTACCAGTTTCTCCTCATCTTTCATTATTTCACT
CATTCCTTTATGTTATTTGCTTAGTTTGGTGTCTTTTTATCTCTCATATAAACAAATATACGTAGTCTAAAGCAAGGTTTCTCACACTTGGCATAATTGA
CATTTGAGACTGGATAATTTCCTGTTATAGGTGGCTATCCTGTATAGCAGCTTACTGGCACTAGATGCCAGTAGCACACACATCCAGTTGTGGCAAACCA
TCATATCTTCAGATATTGCCAAATATCCTCTGAGGAGCAAAATTGCCCCAGTTGAGAACCACTGGTCCAAGTCAACTTCCTAAATCTTCTTCTTCAGTCT
CAACTTCCTTCATGATAGCTGCTATTCTAATGATTCTAATGCATTATTTTACTGAGAATCACATGTCTCTCTTGTGCCACTGAACCTCCAATGACTCTTA
CCATAATATTCGAGGCCCTAACTGCCCTTACCCTGTTTTATTTAAGTTTCATTTGTAGCAAAATACTACATGCTCATGTTAACAAATGAGAGAGTACAGA
AGAGCTATGAAAAGCAAGTCACCTGGTCTCCTTCTCCCCACTCTCATGTCTAAGAAGCAACTTTTTTTTTTTTTCCTGAGACAGAGTCTTGCTCTGTCAC
CCAGGCTAGAGTGCAGTGGCACGATCTCAGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCAATTCTCTTGCCTCAGCCTCTTGAGTAGCTGGAATTGC
AGGCACTCACCACCATGCCCGGCTAATTTTTGTAGTTTTAGTATAGATGGGGTTTCAGCATGTTGGCCAGCCTGGTCTCAAACTCCTGACCTGGTGATCC
GCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAACCACCGCTCCCGGCCTTAAGAAGCAACTTTTAAAGAACTGTTGCTGATTTGCTTCTTG
CATTTTTCTCCATAACTCTAGATATGTCTATACTTTTGTTTGATTTATCAACTTTAGGCAACATTGTCTCTCTGTTTTCAAGATGAAGTTTTAGATCAGT
TATATAAATTGCC
In silico ORF/peptide predictions
Nothing found.
RiboTaper predictions from Ribo-Seq data (HEK293 cell line)
Nothing found.