Detailed information on TCONS_00074321

lncRNA-RNA interactions

Number of interactions: 157

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
ENST00000075120 solute carrier family 2 (facilitated glucose transporter), member 3 protein coding TCONS_00074321 522 290 UTR3 Trans
ENST00000227155 CD82 molecule protein coding TCONS_00074321 638 320 UTR3 Trans
ENST00000264893 septin 11 protein coding TCONS_00074321 548 295 UTR3 Trans
ENST00000280571 Rab interacting lysosomal protein-like 2 protein coding TCONS_00074321 611 281 UTR3 Trans
ENST00000292069 zinc finger protein 667 protein coding TCONS_00074321 507 304 UTR3 Trans
ENST00000309060 zinc fingers and homeoboxes 3 protein coding TCONS_00074321 646 303 UTR3 Trans
ENST00000323699 delta(4)-desaturase, sphingolipid 1 protein coding TCONS_00074321 512 281 UTR3 Trans
ENST00000324537 SH3-domain GRB2-like 3 protein coding TCONS_00074321 578 284 UTR5 Trans
ENST00000336787 RAB27A, member RAS oncogene family protein coding TCONS_00074321 558 318 UTR3 Trans
ENST00000338983 Mitogen-activated protein kinase kinase kinase MLT protein coding TCONS_00074321 589 313 UTR3 Trans
ENST00000355285 adenomatosis polyposis coli down-regulated 1 protein coding TCONS_00074321 533 296 UTR3 Trans
ENST00000357613 transmembrane protein 170A protein coding TCONS_00074321 622 281 UTR3 Trans
ENST00000367590 xenotropic and polytropic retrovirus receptor 1 protein coding TCONS_00074321 517 252 UTR3 Trans
ENST00000367590 xenotropic and polytropic retrovirus receptor 1 protein coding TCONS_00074321 592 250 UTR3 Trans
ENST00000376020 shroom family member 4 protein coding TCONS_00074321 615 320 UTR3 Trans
ENST00000378004 Rho GTPase activating protein 26 protein coding TCONS_00074321 609 308 UTR3 Trans
ENST00000380641 centlein, centrosomal protein protein coding TCONS_00074321 619 302 UTR3 Trans
ENST00000382142 myotubularin related protein 12 protein coding TCONS_00074321 621 288 UTR3 Trans
ENST00000391877 delta(4)-desaturase, sphingolipid 1 protein coding TCONS_00074321 512 281 UTR3 Trans
ENST00000396307 RAB27A, member RAS oncogene family protein coding TCONS_00074321 558 318 UTR3 Trans
ENST00000399322 diacylglycerol kinase, beta 90kDa protein coding TCONS_00074321 618 299 UTR3 Trans
ENST00000421422 zinc fingers and homeoboxes 3 protein coding TCONS_00074321 646 303 UTR3 Trans
ENST00000439138 transmembrane protein 98 protein coding TCONS_00074321 522 262 UTR5 Trans
ENST00000439138 transmembrane protein 98 protein coding TCONS_00074321 531 292 UTR5 Trans
ENST00000442007 antisense antisense TCONS_00074321 629 272 noncoding Trans
ENST00000448214 antisense antisense TCONS_00074321 642 296 noncoding Trans
ENST00000478730 ORAI calcium release-activated calcium modulator 2 protein coding TCONS_00074321 500 306 UTR3 Trans
ENST00000478730 ORAI calcium release-activated calcium modulator 2 protein coding TCONS_00074321 603 293 UTR3 Trans
ENST00000498813 delta(4)-desaturase, sphingolipid 1 processed transcript TCONS_00074321 557 298 noncoding Trans
ENST00000504904 zinc finger protein 667 protein coding TCONS_00074321 507 304 UTR3 Trans
ENST00000521027 pleckstrin and Sec7 domain containing 3 protein coding TCONS_00074321 502 304 CDS_UTR Trans
ENST00000524750 CD82 molecule protein coding TCONS_00074321 518 231 UTR3 Trans
ENST00000549365 DNA-damage regulated autophagy modulator 1 nonsense mediated decay TCONS_00074321 527 261 UTR3 Trans
ENST00000560870 sense_intronic sense intronic TCONS_00074321 548 268 noncoding Trans
ENST00000568559 transmembrane protein 170A nonsense mediated decay TCONS_00074321 622 281 UTR3 Trans
ENST00000569540 transmembrane protein 170A protein coding TCONS_00074321 622 281 UTR3 Trans
ENST00000591226 tropomyosin 4 retained intron TCONS_00074321 624 299 noncoding Trans
ENST00000591790 zinc finger protein 667 protein coding TCONS_00074321 507 304 UTR3 Trans
ENST00000592189 zinc finger protein 667 nonsense mediated decay TCONS_00074321 507 304 UTR3 Trans
ENST00000620139 melanoregulin protein coding TCONS_00074321 587 295 UTR3 Trans
ENST00000620788 pleckstrin homology-like domain, family B, member 1 retained intron TCONS_00074321 653 298 noncoding Trans
TCONS_00001821 low density lipoprotein receptor adaptor protein 1 novel protein coding TCONS_00074321 662 306 UTR3 Trans
TCONS_00001823 low density lipoprotein receptor adaptor protein 1 novel protein coding TCONS_00074321 662 306 UTR3 Trans
TCONS_00004719 ST6 (alpha-N-acetyl-neuraminyl-2,3-beta-galactosyl-1,3)-N-acetylgalactosaminide alpha-2,6-sialyltransferase 3 novel protein coding TCONS_00074321 608 296 UTR3 Trans
TCONS_00004721 ST6 (alpha-N-acetyl-neuraminyl-2,3-beta-galactosyl-1,3)-N-acetylgalactosaminide alpha-2,6-sialyltransferase 3 novel protein coding TCONS_00074321 608 296 UTR3 Trans
TCONS_00009095 xenotropic and polytropic retrovirus receptor 1 novel protein coding TCONS_00074321 517 252 UTR3 Trans
TCONS_00009095 xenotropic and polytropic retrovirus receptor 1 novel protein coding TCONS_00074321 592 250 UTR3 Trans
TCONS_00009128 uncharacterized LOC100287948 novel protein coding TCONS_00074321 545 308 UTR3 Trans
TCONS_00009136 calcium channel, voltage-dependent, R type, alpha 1E subunit novel protein coding TCONS_00074321 545 308 UTR5 Trans
TCONS_00009834 SRY (sex determining region Y)-box 13 novel protein coding TCONS_00074321 615 294 UTR3 Trans
TCONS_00009834 SRY (sex determining region Y)-box 13 novel protein coding TCONS_00074321 627 297 UTR3 Trans
TCONS_00020768 processed_transcript novel protein coding TCONS_00074321 630 261 UTR5 Trans
TCONS_00023682 pre-mRNA processing factor 18 novel protein coding TCONS_00074321 620 295 UTR3 Trans
TCONS_00023685 pre-mRNA processing factor 18 novel protein coding TCONS_00074321 620 295 UTR3 Trans
TCONS_00023687 pre-mRNA processing factor 18 novel protein coding TCONS_00074321 620 295 UTR3 Trans
TCONS_00023689 pre-mRNA processing factor 18 novel protein coding TCONS_00074321 620 295 UTR3 Trans
TCONS_00030130 calcium/calmodulin-dependent protein kinase II gamma novel protein coding TCONS_00074321 580 303 UTR3 Trans
TCONS_00030132 calcium/calmodulin-dependent protein kinase II gamma novel protein coding TCONS_00074321 580 303 UTR3 Trans
TCONS_00030165 antisense novel protein coding TCONS_00074321 642 296 UTR5 Trans
TCONS_00030588 cytoplasmic polyadenylation element binding protein 3 novel protein coding TCONS_00074321 615 295 UTR3 Trans
TCONS_00030591 cytoplasmic polyadenylation element binding protein 3 novel protein coding TCONS_00074321 628 294 UTR3 Trans
TCONS_00030591 cytoplasmic polyadenylation element binding protein 3 novel protein coding TCONS_00074321 607 306 UTR3 Trans
TCONS_00030591 cytoplasmic polyadenylation element binding protein 3 novel protein coding TCONS_00074321 615 295 UTR3 Trans
TCONS_00030591 cytoplasmic polyadenylation element binding protein 3 novel protein coding TCONS_00074321 576 295 UTR3 Trans
TCONS_00030592 cytoplasmic polyadenylation element binding protein 3 novel protein coding TCONS_00074321 607 306 UTR3 Trans
TCONS_00030592 cytoplasmic polyadenylation element binding protein 3 novel protein coding TCONS_00074321 628 294 UTR3 Trans
TCONS_00033132 dynein heavy chain domain 1 novel protein coding TCONS_00074321 636 254 UTR5 Trans
TCONS_00034642 CD82 molecule novel protein coding TCONS_00074321 638 320 UTR3 Trans
TCONS_00034643 CD82 molecule novel protein coding TCONS_00074321 638 320 UTR3 Trans
TCONS_00037377 NAD synthetase 1 novel protein coding TCONS_00074321 600 294 UTR3 Trans
TCONS_00039117 nicotinamide N-methyltransferase novel protein coding TCONS_00074321 541 297 UTR3 Trans
TCONS_00039782 GRAM domain containing 1B novel protein coding TCONS_00074321 608 298 UTR5 Trans
TCONS_00041296 RIC3 acetylcholine receptor chaperone novel protein coding TCONS_00074321 609 302 UTR3 Trans
TCONS_00041298 RIC3 acetylcholine receptor chaperone novel protein coding TCONS_00074321 609 302 UTR3 Trans
TCONS_00050741 spermatogenesis associated, serine-rich 2 novel protein coding TCONS_00074321 524 234 UTR3 Trans
TCONS_00050741 spermatogenesis associated, serine-rich 2 novel protein coding TCONS_00074321 602 297 UTR3 Trans
TCONS_00051891 RNA binding motif, single stranded interacting protein 2 novel protein coding TCONS_00074321 612 308 UTR3 Trans
TCONS_00053503 anoctamin 4 novel protein coding TCONS_00074321 600 300 UTR3 Trans
TCONS_00053513 anoctamin 4 novel protein coding TCONS_00074321 600 300 UTR5 Trans
TCONS_00057601 transcribed_unprocessed_pseudogene novel protein coding TCONS_00074321 611 291 UTR3 Trans
TCONS_00057601 transcribed_unprocessed_pseudogene novel protein coding TCONS_00074321 514 293 UTR3 Trans
TCONS_00067572 DCN1, defective in cullin neddylation 1, domain containing 2 novel protein coding TCONS_00074321 602 278 UTR3 Trans
TCONS_00070307 pecanex homolog (Drosophila) novel protein coding TCONS_00074321 639 289 UTR5 Trans
TCONS_00075827 forkhead box N3 novel protein coding TCONS_00074321 616 295 UTR3 Trans
TCONS_00075844 forkhead box N3 novel protein coding TCONS_00074321 567 291 UTR3 Trans
TCONS_00075845 forkhead box N3 novel protein coding TCONS_00074321 567 291 UTR3 Trans
TCONS_00076763 protein phosphatase 1, regulatory subunit 13B novel protein coding TCONS_00074321 668 297 UTR3 Trans
TCONS_00090929 nucleoporin 93kDa novel protein coding TCONS_00074321 642 301 UTR3 Trans
TCONS_00090941 nucleoporin 93kDa novel protein coding TCONS_00074321 642 301 UTR5 Trans
TCONS_00095053 epithelial membrane protein 2 novel protein coding TCONS_00074321 544 262 UTR3 Trans
TCONS_00098643 fatty acid 2-hydroxylase novel protein coding TCONS_00074321 616 292 UTR5 Trans
TCONS_00098644 fatty acid 2-hydroxylase novel protein coding TCONS_00074321 616 292 UTR3 Trans
TCONS_00098645 fatty acid 2-hydroxylase novel protein coding TCONS_00074321 616 292 UTR3 Trans
TCONS_00098647 fatty acid 2-hydroxylase novel protein coding TCONS_00074321 616 292 UTR3 Trans
TCONS_00098745 transmembrane protein 170A novel protein coding TCONS_00074321 622 281 UTR3 Trans
TCONS_00101169 myosin phosphatase Rho interacting protein novel protein coding TCONS_00074321 635 298 UTR3 Trans
TCONS_00101169 myosin phosphatase Rho interacting protein novel protein coding TCONS_00074321 649 300 UTR3 Trans
TCONS_00103261 Rap guanine nucleotide exchange factor (GEF)-like 1 novel protein coding TCONS_00074321 608 298 UTR5 Trans
TCONS_00103262 Rap guanine nucleotide exchange factor (GEF)-like 1 novel protein coding TCONS_00074321 608 298 UTR5 Trans
TCONS_00107851 transient receptor potential cation channel, subfamily V, member 1 novel protein coding TCONS_00074321 601 297 UTR5 Trans
TCONS_00107864 transient receptor potential cation channel, subfamily V, member 1 novel protein coding TCONS_00074321 669 311 UTR3 Trans
TCONS_00107867 transient receptor potential cation channel, subfamily V, member 1 novel protein coding TCONS_00074321 669 311 UTR3 Trans
TCONS_00116668 desmoglein 3 novel protein coding TCONS_00074321 623 312 UTR3 Trans
TCONS_00140000 long intergenic non-protein coding RNA 152 novel protein coding TCONS_00074321 515 297 UTR3 Trans
TCONS_00140732 NCK adaptor protein 2 novel protein coding TCONS_00074321 618 295 UTR3 Trans
TCONS_00141667 Rho guanine nucleotide exchange factor (GEF) 4 novel protein coding TCONS_00074321 693 307 UTR3 Trans
TCONS_00141667 Rho guanine nucleotide exchange factor (GEF) 4 novel protein coding TCONS_00074321 612 297 UTR3 Trans
TCONS_00141670 Rho guanine nucleotide exchange factor (GEF) 4 novel protein coding TCONS_00074321 628 308 UTR5 Trans
TCONS_00141670 Rho guanine nucleotide exchange factor (GEF) 4 novel protein coding TCONS_00074321 693 307 UTR3 Trans
TCONS_00141673 Rho guanine nucleotide exchange factor (GEF) 4 novel protein coding TCONS_00074321 628 308 UTR5 Trans
TCONS_00141673 Rho guanine nucleotide exchange factor (GEF) 4 novel protein coding TCONS_00074321 693 307 UTR3 Trans
TCONS_00141679 Rho guanine nucleotide exchange factor (GEF) 4 novel protein coding TCONS_00074321 693 307 UTR3 Trans
TCONS_00141679 Rho guanine nucleotide exchange factor (GEF) 4 novel protein coding TCONS_00074321 628 308 UTR5 Trans
TCONS_00141679 Rho guanine nucleotide exchange factor (GEF) 4 novel protein coding TCONS_00074321 612 297 UTR3 Trans
TCONS_00141681 Rho guanine nucleotide exchange factor (GEF) 4 novel protein coding TCONS_00074321 693 307 UTR3 Trans
TCONS_00142157 LY6/PLAUR domain containing 6B novel noncoding TCONS_00074321 653 280 noncoding Trans
TCONS_00142168 LY6/PLAUR domain containing 6B novel protein coding TCONS_00074321 653 280 UTR3 Trans
TCONS_00147100 ATPase family, AAA domain containing 2B novel protein coding TCONS_00074321 640 271 UTR3 Trans
TCONS_00148048 potassium voltage-gated channel, subfamily G, member 3 novel protein coding TCONS_00074321 615 299 UTR3 Trans
TCONS_00150599 four and a half LIM domains 2 novel protein coding TCONS_00074321 627 258 UTR3 Trans
TCONS_00150696 septin 10 novel protein coding TCONS_00074321 623 293 UTR3 Trans
TCONS_00166381 GRB2-related adaptor protein 2 novel protein coding TCONS_00074321 605 319 UTR3 Trans
TCONS_00184373 neutral cholesterol ester hydrolase 1 novel protein coding TCONS_00074321 615 295 UTR3 Trans
TCONS_00184373 neutral cholesterol ester hydrolase 1 novel protein coding TCONS_00074321 611 281 UTR3 Trans
TCONS_00186316 KIAA0232 novel protein coding TCONS_00074321 640 273 UTR5 Trans
TCONS_00186316 KIAA0232 novel protein coding TCONS_00074321 626 296 UTR3 Trans
TCONS_00190999 zinc finger protein 721 novel protein coding TCONS_00074321 600 276 UTR5 Trans
TCONS_00194652 E74-like factor 2 (ets domain transcription factor) novel protein coding TCONS_00074321 640 290 UTR5 Trans
TCONS_00194655 E74-like factor 2 (ets domain transcription factor) novel protein coding TCONS_00074321 640 290 UTR5 Trans
TCONS_00194682 E74-like factor 2 (ets domain transcription factor) novel protein coding TCONS_00074321 643 315 UTR3 Trans
TCONS_00194686 E74-like factor 2 (ets domain transcription factor) novel protein coding TCONS_00074321 643 315 UTR3 Trans
TCONS_00195633 aspartylglucosaminidase novel protein coding TCONS_00074321 508 265 UTR3 Trans
TCONS_00196475 F-box and leucine-rich repeat protein 7 novel protein coding TCONS_00074321 614 319 UTR3 Trans
TCONS_00196475 F-box and leucine-rich repeat protein 7 novel protein coding TCONS_00074321 662 307 UTR3 Trans
TCONS_00196897 oncostatin M receptor novel protein coding TCONS_00074321 578 290 UTR3 Trans
TCONS_00202828 myotubularin related protein 12 novel protein coding TCONS_00074321 621 288 UTR3 Trans
TCONS_00203984 family with sequence similarity 169, member A novel protein coding TCONS_00074321 613 289 UTR5 Trans
TCONS_00203985 family with sequence similarity 169, member A novel protein coding TCONS_00074321 613 289 UTR5 Trans
TCONS_00203985 family with sequence similarity 169, member A novel protein coding TCONS_00074321 644 307 UTR5 Trans
TCONS_00210637 polymerase (DNA directed), eta novel protein coding TCONS_00074321 517 267 UTR3 Trans
TCONS_00210928 leucine rich repeat containing 1 novel protein coding TCONS_00074321 663 291 UTR3 Trans
TCONS_00211226 antisense novel protein coding TCONS_00074321 603 295 UTR5 Trans
TCONS_00213181 tubby like protein 4 novel protein coding TCONS_00074321 656 299 UTR3 Trans
TCONS_00213191 tubby like protein 4 novel protein coding TCONS_00074321 656 299 UTR3 Trans
TCONS_00213738 enoyl-CoA delta isomerase 2 novel protein coding TCONS_00074321 601 266 UTR3 Trans
TCONS_00219453 WD repeat domain 27 novel protein coding TCONS_00074321 611 287 UTR3 Trans
TCONS_00222403 protein tyrosine phosphatase, non-receptor type 12 novel protein coding TCONS_00074321 609 294 UTR5 Trans
TCONS_00227594 GLI family zinc finger 3 novel protein coding TCONS_00074321 506 211 UTR3 Trans
TCONS_00230811 kielin/chordin-like protein novel protein coding TCONS_00074321 676 302 UTR3 Trans
TCONS_00235281 NADH dehydrogenase (ubiquinone) complex I, assembly factor 6 novel protein coding TCONS_00074321 672 318 UTR5 Trans
TCONS_00235393 processing of precursor 1, ribonuclease P/MRP subunit (S. cerevisiae) novel protein coding TCONS_00074321 669 296 UTR5 Trans
TCONS_00239255 tumor protein D52 novel protein coding TCONS_00074321 608 297 UTR5 Trans
TCONS_00240685 metastasis suppressor 1 novel protein coding TCONS_00074321 519 233 UTR3 Trans
TCONS_00243477 osteoclast stimulating factor 1 novel protein coding TCONS_00074321 685 313 UTR5 Trans
TCONS_00243482 osteoclast stimulating factor 1 novel protein coding TCONS_00074321 685 313 UTR5 Trans
TCONS_00251977 G protein-coupled receptor 82 novel protein coding TCONS_00074321 545 279 UTR3 Trans
TCONS_00252827 discs, large homolog 3 (Drosophila) novel protein coding TCONS_00074321 685 303 UTR5 Trans

Sequence

>TCONS_00252827 (25820 nt)
ATTTTCTTAAATTTTAAAAAAAATTATAGCTGGGGGTTTCTTTTATTTTTACTGCTGATAATTTGTAAGATACAATTCTGTAGTTTTGTCAGAGAATGGC
TTGTAAGACCTTGAATAATATACTTAAATTTGTGGGTGTTTTAGTTTATCAGTTTAAGAAATAAAACAGTCATCTGTTGAATTCTTGGTTTACAGATTTT
GAAATTTGCATATTTATACTCTTCCTGCCTCATCATCCCCCCAATTTTCAACTGTTCATTGGTTTATTTGGGGATTTTAGCCCAGAAACTTTCTGATTGC
ACTGGGGTATGAGTATGTATTACTATGTGTACCTTCTTTTAAGAAATATAATATTTATAATTTATAAATGCCATGACCAATTATTTAGACTTAGTTTTAT
ATTTAGTAGATTTACTACCCACCATTGGTCTTTTTATGCCATTTCCTTTCCATTCTCACCTACTTAGTATCAACTATCAATAGGCTAAGTCATATTATCA
AAAAGATTTTCCCGTATTAGGAATATTATAATTTAAATCCATAAATTGATTATTCTTCTCAAACCTGCTTTTCTTCTGCATTTTGCTAAGCAGTTAACCC
ATCCACAAATGTAGGCATTAACCTCGATTTCTCTCTTTTATTTGTGCTCAAGAATCAGTCTGTCAGCAAGTTCCCTCAGCTCTACCTCCAGAACACATCC
TGAATCCATCTACTTGTCTTTGTTACCCATCTCCACCCTTCTAGTGCCTGTTGCCTTGCCCACACCTCCCATTCCCCACCATCTATTTTCCAGAAAGCCT
CTGGAGTGAACTTTTAAAAACATAAATCATATCATCACTTCTGCTTAACACTTCCCTGAAGCTTTCATATCAACTTAGAAAAATACTCAGATTTTTAGCC
TTGTTTATAAAACCCTACATGATCTGTTCTATCCACCTCTCTGAGCTCATCGCATATGTTTCTGCCTACTCTACTATGCCTCTGTTTTCTTTTTATTTAA
ACAGTCCAAGATTAAAGCAATTCTTCCCTTTTGCCTGAGGTAACTGTTTTTCAAGATCTTTGCTCTGAAGGCTCCTGGTCATTCAGACCTCAGCTTAAAT
AAATATCATATCCTCGGAGAGGCCAATGCCCTTGTTATTTTAGTTCGCTGCATAGGACACGTGAGTGCCTGATACTTTTCTTGTTTGTTTATATGTATAC
GTGTATATATTGTGTTTGTCTCTCTCCTAGAATGTAAGATCAATGAGAATAGCGATTATCTATCCTCACTGCTATATTTCACCACTTGGGACAGTGTAAG
CATGTAACGGACACTGCAATAAATATTCCTCCTATAAAAGAATATTACAGATGTCTTTCTGTTGCCTTTGAATGAGAATGACGATTTGACTAGGTATAAA
ATGATTGCATCACACGTTCTTCTCCCTCTACCCTCAAAAAACTCTATAGACATTTTTTTCCCTTGAATATTGTTGGAAAGAAATGTAAGGCCTAACTGAT
ATTTTTCCCCTGGTAGATAACTTGCTGTTACTACCTGATTGTAGCAAAAGCTGGCATTTCTTTCTTTGTCTTCAAAATTAGTAATCTCAACAGAATATAA
CTTGGTCTCAATAATTTTCTACAGATTTTTCTCCCTGAGACACAATGAGCTGCTTTTTTCATCTGCAGTTTTGATTTTTTCTTTATTTCAAGAAACTTTG
TTTTAAGATTCTTGAATTTATTTCATTACTTTGGAAAGTAATGAATTTTTAAAGTCTTCCATATCAGTGACTTTTTTTTTTTTTTAAACAGGGTCTCTTT
CTGTTGCCCAGGCTGGAGTGCAGTGGCACAATCTGGGCTCACTGCAACCTTTGCCAACCGGGTTCAAGTGATTCTCGTGCCTCAGCCTCCTGAGTAGCTG
GAATTACAGGCATGTGCCACCACACCCAGCTAATTTTTGTATTTTTAGTAGAGACAGAGTTTCGCCATGTTGTCCAGGTTGGTCTTGGACTCCTGGCCTC
AAGTGATCTGCCCGTCTAGGCCTCCCAAAGTGCTGGGATTACAGATGTGAACCACCATGCCTGGCCCCCAATACTGCTTCTATTCCTTGTTGGTTCCAAT
GTTTTTATTAGTTCTATATAAGTATTATTTTTACACAGCTTTCCCCCCTTAACTCTACCAGCATTCTTTCTGTTTCATTTTGTTGCCTTAATTTTCCTGT
ACTCTTTTTTCCCCCTTTCATATCCCTGAGAGTTTGAAGCACTGTTGTCTTAAATTTTCTTTCAAAACAAATTCTTCGTATCTTCAGCATCCTGTATTTG
TCTTTTTTTTTTTGCTGTGGAATTTTTGTGGAAAATCAGTGGACTTTTAGCATTGTCAGTAAAGCCAAAGTAGATGGTATTTTTCACATTTTTGGAACAG
ACTTAAGGGTATCTTTAGGTTAAAAATATGATGGTATGCTAATGAATTTTCCCAACATTCAGTTCAGATACTTCAAATAATTTTGGAGACTGCTGTATTT
CAAAAATGAATTCTCAACTGTATTTAGCAGCTTTCAAAAACTTGCACTAAAGCCAGCATAATACAAAAGTGCTTTCTTGTATTGATTTAACAGATGAACT
GGTTTAAAATTGTATTTAGACATGAAAAGATAATTATTTGCCAGTGTGACTTAGAAAAAAACTTATGTCTGGTAATACATAAACAAAAATTTTTTTAAGT
AAATGAAATTCCAGCTGTAAACTTAACATGCTTTTCTCCATGGTGAAAAATAGGATATTAAAGTTTATAGTAATTTTAGAGTCCTAAATTGTATTTACTG
ACTTGCCCCTGGCAATTTAATTTTATAATGCTATATTCAAAATTTTGCTGAAACAGATTGCTTTTGAAGGTCTTCCTAATAGTCAAAAAAATGCTACAGT
AAGCCTTAGAGTTGAAAATAGGTTAGCACAGAAAATCGCGTTTATTAATTAGCCACAAAAATATTTGTAAAAGAAAATGAAGTCAGCATTCCTTCCTATG
TTTGTATGTTCTTGTTGCTCTTTGTATATATAGGCAAAATGATTATTTTCAGGAATGATTTAACCATTTCTATCTCATTTTTATAGTAGATACTTACTAA
AGTCACCACCTTACAAATGGTAACATTAAATAGAGTTTGACTTACCAGTGATTAGCATTGAAAATAATACCACCAGTGATACCATTGTGAGTTTTAGTTG
CATTTTTCATCTCTTTGATTAGACATCCAGAGTGCCCTATAAGCCCAGGCAGATACTGTGATGGTTCATGCCACCATGTTTTCCTGTCTTCTGTCTGAAT
TTCAGCCTACCATCTAACTCATTTTACAGATGCTCAGTTTGCCCAACAAGTCTGTAGCTATTGGTGGCCAACAGCCAGAGCAGGAACAAAGTTTGTGGGA
AAACTTACCATCAGAATCCTACTTTCCCTTCCCTCTCTCCTCCTTCCATTACCCCTCTTTTATGGCAAAACTACAAAATAATATTTTAAGCTTATGAAAA
TTACAGTTTATTTAAATATTTTCGGCCTTGCTTACAGGGATGTAATTTAATACATCACTACCCAGGATGATTAATGCAATACCCTTTTGGTTTGTTCCCT
TGCTTGTCTTTTAAAACGGTAAATCGGAAATACTTATAAAATAGTTTAGTATTTTTTAATAAAATAAGTTAAATGTGTTTCTTTAGACAGTTTTTGAAAT
AAATAGGAATCTTTAAATATCTTTGAATAGATGTTTAAAGCTTTCCTTGGACTTGCAGGGAATACTTTAACTTGTTTCCTGAAAGTATAAGCAGAGAAGG
TAGTGTAAGTGTTAAAAAGTCAGGAACTATACGGAGGTTTAAACCAGCCATTAGTTTGCCTTGTTCTTGAAAGAACTTGGCAAAGTTCTTGAAAGAAATC
CCAGGGTAGGCTGTTTGGCCAAATAGGACAAGTGTCATCTATTCAGGTTACGTGGTATGTTCTTTTCAGACTTTCTATTCAAAAACCTAACAATCTTGAT
TTTTAAAAATATTCTGTAAAGTAAAATATTTGTATCCTGTCTTCACTGTTTGGACAGTTCAAGTCTGAATTAATGGAAAATGTTAATTTGAAGGCACAAA
TACATGCCCCAAATGTCATTTTATTGGTTTTAAATAATAGATACAGAAAATGAATAAAGGTTAGTGTTGTTTACTAATGTCTTCTGTTTAACATTGTACA
TTCATTATGCTCAATGGAAAAAAACCATATTTACTTATTATGAACCAAAACAACCATATTCACAAGATTGCCACCATTGTGTCACTGTATTTTTCATAGT
TATTTAAAAATTAGCTGATTGAATATTTAGCATTGGATTGATTTTCTGAAAAAGTACTGCTAATTTATTCACTGTATAATGAACTACCGCTAAAATTAGT
TTTCGTTTTGATAACTATCTTTAACATTATTTCATAAACTTCAGAAATGTATCTAGTACTTACTAATACAGAAAACTTTTGCCATTGCAAATATTAATTA
AGAGATCTAATTTTTACATTGTAATTTTGCTCTAAATGATATACAAATTTTTAGGTTACTGCATATTTATTTTAAATACTTGTTTTAAAAGTTTTTATTT
TTATTTTTATTTTTATTTTTATTTTTTTGGTCTGGGAGCGGTGGTTCACACCTGTTGTAGTCTCAGCACTTTGGGAGGCTGAGGTGGGAGGATCTTTTGA
GCCCAGGAGTTCAAGACCAGCCTGGGCAACATGATAAGACCCAGTCTTTACAAAAATTTTTAAAAATTAGCAGAGCACGGCAGCCTGCTTCTGTAGTCCC
AGCTACTCAGGACACTGAGGCAGGAGGATCACTTGAGCCCAGGAGGTTGAGGCTTCAATGAACCATGTTCACATCACTGCGTTGCACCATGGGCAACAGA
ATGAAATCCTGTCCCAAAAAAGAAAGAAAGAAATATATATATAATAATATATGTGTGTGTGTATATATATATTCATTTAAACATCCAGCTGTAGTGAAAT
GATTAAATTAGGCTATGCTCACATCATTTTAATATTTTTAAAATTTCAGTAAAAAACACATAAACTTTACCATCTTAACCATTTTTGTTTTTTTGCTTTT
TGTTTTGTTTTTGTTGAGTTGGAGTCTTGCTCTTGGCACCCCGGGTGGAGTGCAATGGCACAATCTTGGCTCACTGCAACCTCCACCTCCCGGGATCAAG
CCATTCTCCTGCCTCAGCCTCCCGAGTACCTGGGATTACAGGCTCCCACCACGACACCCGACTAATTTTTTATGTTTTTGGTAGAGACAGGGTTTCACCA
TGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGATGATCCACCTGCCTCGGCCTCCAAAAGTGCTGGGATTACAGATGTGAGCCACCATGCCCAGCTG
TCTTTACCATTTTTAAGTGCATCTTTTAGTAGTTTTAACTATATTTGCGTTGTTGTGAAATAGTTGTCTAGAATTTTTCATCTTGCAAAACTAAAACTCT
ATATTCATTAAACAACAACAACTCTTTGCTGCCTCCCCACAGCCACTAGTAACCACCATTCTACTGTTGGTATCTATGAATTTGGCTCCTTTAGATACTT
TATATAAGTGGAATCATACAGTATTTGTCCTTTTCTGACTAGGCTGTTTCACTTAGCATAATGTTCTCAAGGTTCATCTATGTTATAGCATATGACAGGA
TTTCCTTCCTTTTTAAGTCTGCATGGTTTTCATATACTACAGTTTTATTCATTCATCTGTCAATAGACATTCTGTCAAACTGGGTTGCCTCTACCTCTTG
GCTATTGTAAATAGTGCTGCTATGAACATGGGTGTACAAATCTCTCTTTGAGATCCTATTTTCAGTTCTTTTGGATATAAACCTAAAAGCATGAATTGGT
CATATGATAGTTCCACCTTTAATTTGTTGAGAAATACTGTTTTCTGTTGCAGTCTCACCAGTTTGCAATGTCAGTAACAGTATACAAGGGTTCTAGCTTC
TCCACATCACCTCTAACCAGTTTTATTTTCTGCTTTTTTTAATTGTAGCCATCCTAATGGATGTGAAGTGATATCTCATTGTGGTTTTATTTGAGTTTCT
CTGATTAATGATGTTGAGCATGTTTTTATGTGCTTATTGGCTGTTTGCAGGTCATCTTTGGATAAATGTCTATTCAAGTCCTTTCCCATTTTTAAAATCA
GGTCATTTGATTTTTTCTTGTGAGTCGTAGGAGTTCTTTATATATTCTGGGTATTAAACCCTTCTTAGATACAGGATTTGAAAATATTTTCTCCTGTTCT
ATAGGTTGCCTTTTCAACTCTGTTGATTTTGTCCTTTGGTGAACAAAATTTTTTAAATTTCATTTGTAGTCTCGTCTGTTTTTTGTTGCCTGTGCTTTTG
GTATCATATACCAGAAATAACTGCCAAATCTGATGTCATGAAGCTTTTCTTCTGTGATTTCTTCTAGGAGTTTGATAATTTGGGGTCTTACATTTATATC
TTTAAATCATTTTAAGTTTTGTGTATGGTTTAAGGCAGGGGTCCAACTTTATTCTTTTGCATGTGAATATCCAGTTTCCCCAAACCATTTGTTGAAGAGA
CTGCCCTCTCCCCATCAAGTAGTTCTGATACCCTTGTTGAAGATCATTTGACCATATATACTACATGAGGGTTTGTTTCTGGGCTGTCGGTTCTATTCCA
TTGGTCTTTAATATATCTGTCTTTATGTCAGTACCCTACTGTTTTGATTATGGTAGCTTTTAGTAAGTTTTGAGATCAGGAAGCATGAGTCTTCCAACTT
TGTTCTTCTTTTTCAAAATTGTTTTGGCTATGGAGAGTCTCTTAAAATTTTATACAAATTTTAGAATGATTCTTTTTTATTTCTGCAAAAAAAAATGTTA
CCAGAATTTTTCATAGGGATTGTGTAGCTATTTATATCACTTTGGGTAGTATTGACATCTTAGTAATATTAAGTTGGGTTGGGCACGGTGGCTCACGCTT
GTAATCCCAGCACTTTGGGAGGCTGAAGTGGGCGGATCACGAGGTCAGGAGTTCGAGACCAGCCTGGCCAATATGGTGAAACCCGTCTCTACTAAAAATA
CAAAAATTAGCCCAGTGTGGTGGCATGTGCCTATAGTCCCAGCTACTCGGGAGGCTGAGGCAGAAGAATCACTTGAACCCCGGGAGGCGGAGGTTGCAGT
GAGTTGAGATTGTGCCACTGCACTCCAGCCTGGGTGACAGGCGAGACTCTGTCTCAAAAAAAATAAATAAATAAAATAATAATAATAATATTAAATTTTT
CAATCCATGAGCATGGGATGTCTTTCCACTTATTTGTGTCATCTTTAATATCTTTCAGCAATGTTTTATAGTTTTTAGTGCACGAGTCTTTCAGTTCCTT
AGTTCAGTTTATTTCTAATTGTTCTTTTTTTTGTTTTTGTTTTTGTTTTTTTTTGCGATGGATTCTCACTCTGTCGCCCAGGCTGGAGTGCGGTGGCATG
ATCTCAGCTCACTGCAACCTCCACCTCCCGGATTCAAGTGATTCTCGTTCTTCAGCCTCCCAAGCAGCTGGGAGTACAGGCGCCCACCACCACGCCCAGC
TAATTTTTGTATTTTTAGTAGAGACAGGGTTTCACCGTGTTGGCCAGGCTGGTCTCTAACTCCTGACCTCAGGCGATCTGCCCGTGCTGGAATTACAGGC
GTGACCCACTGCACCCGGCCTAATTGTTATTTTTGATGCTATTGTAAATAAATTGTTTTCTTAATTTCCTTGTCTGATTGTTCACTGTGTATAGAAACAC
AACTGATTTTTCTGTTTTGATTTTGTATCTTACAATTTTGCTAAATTTGTTTATTTGTTCTAATAGATTTTTTTAATGGACTTTAGGATTTTCTATACAT
ATGATCGTGTCATCTGTGAACAGAGATTTTTTAACTTATTTCTTTCCAGTTTGGGTAACTTTTATGTGATTTTTAATGACATGAGAAATGCTTACACAAT
ATTGATTAGTGAAAATAGTCTGTGAAACTCTGGAGTATGGTCCAAATTGTGTATGTGATATGCAGAACTTCATAAGTATAGTACTTACAGGACTGGAAAA
AAAATCAAAATGCTCATGGTGTCAGCCTGAGCAACGTAATGGAGATCATGTCTCTACTAAAAATTTTTGAAAATATTAGCCGGATATGGCAGCATATACC
TGTAGTCCCAGCTACCTGGGAGGCTGAGGCAGAAGGACTGCTTGAGCCCAGGAGTTTGAGGCTGCAGTGAGCAATGATCGTGTCCCTGCATTCCAGCCTG
GGTGACAGCAAGACCTTGTCTCTTGAACAAACAGAAAGCTAACAGTGGGTGTCTCTGGTACATTTATGGGTGATTTTTATTTCATTCTCTTTTTTTTTTT
CCTTTTTTTTTCTTTTTTTTGAGACAGAGTCTCAGGCTGGAGGGCAGTGGTGCAGTCATAGCTCAGTGCAGCCTCAAACTCATGGGCTCAAGCAGTCCTC
CCACCCCAGCCTCCTGAATAGTGGGGATTTCAGGCATGAGCCACCGTACGTGGCTTACATTCTTTATATTTTTCTACATTGGCTTACTTTTCTAAGATAA
GTATATTAATGTGGATACAATAATATGGAATAAAACAATTATTTTTAGTTTAAGAAATGGTAGTTTCCATTATTGATACCTATATAGGATAGGCATGAGT
CTGATAGTTTTCTTTACATATTCTGGATATTAACTTCTCAACCAGATATATCTTACCAGATACAGGATTTGCAAATAGTTTCTCCTATAGGTTGCTTTTT
CACTTTGTTGGTTGTGTCCTTTCGTGAGCAAATTTTTTTTTTTTTTTTTTGAGATGGGGTCTTGCTGTGTTACCCAGGCTGGAGTGCAGTGGTGATCATA
GCTCACTGCAGCCTTGAACTCCTGGGCTCAAGTAATCCTCCCAGCTCAGCCTCCTGAGTAGGTGGGGCTACAGGCACACGCCAGCACATCTGGCTAATTT
TTGTGTTTTTTTTGTGGAGACAGAGTCTTGCTATGTTGCCCAGGCTGGTCTTGAACTCCTGGGCTCATATGATCTTCCCACTTTGGCCTTCTAAAGTGTT
GGGATTATGCGTGAGCCTCTGCACCCAGCCAAAATTTTGAAATTTGAGGCAGTCTCATCTCTCTGTTTTTGCTTTTGTTACCTGTGCTTTTGGTGTTGTA
TCTTGGAAATCACTACCAAATCCAGTGTCATGGATTTATTAATAATTCTGTGAGATTAGTTAAAAATTAGAGGATTAAAATAGGAAATACAACTCGAAGC
ATCACGTTAATAATTTCAACATGAACAATGAAGTAGAAATACAGTAGACATAAAAAGCATAAACCAGTTGATATTTGATGAAATAACAAATGGAAAATAC
TCACTAATATACTTTTTGTAGAATTATTATAATGTGCTAACTTTCTGAAAGCTCAGGCCAGGTGTGGTGGCTCACACCTGTAATCCTAGCACTTTGGAAG
GCTGAGTCAGGCAGATCGCCTGAGCTCAGAAGTTCGAGACCAGCCTGGGCAACATGGCAAAACTCAGGCTCTACAAAGAATACAAAAAATTAGCTAGGTG
TCATGACATGTGCCTGTAATCCCAGCTACTTAGGAGGCTGAGGTGGGAGAATTGCTTGAGCCCAGGAGGTTGAGGCTGCAGTGAGCCAAGATCGTGCCAC
TGTACTCTAGCCTGGGCAATACAGTGAAACCCTGTCTCGAAAAAAAAAAAAAAAGAAAGTTCAGTATGTAATGTTAGAGGATAGTTTTTGGTATTAGTTC
ATGCTTATAGCTTGGAACACAGTTTTAGGAGTTTAAGAGATAATAAGCTGCGTGCTGTGGCTCATGCCTGTAATACCAGTGGTTTGGGAGACCAAGGCTG
GTGGATCACCTGAAGTCGGGAGTTTGAGACCATCCTGGCCAACATGGTGAAACCCCGTCTCTATTAAAAATACAAAAAGTAATCCCAGCTACTCTGGAAG
CTGGGGCAGGAGAATCACTTGAACCCAGGAGGTAGAGGTTGCAGTGAGCTGAGATCACACCACTGCACTTTAGCCTGGGTGACAGAGCGAGACTCCATCT
CAAAAAAAAAAAAAAAAGAGAGATAATAGACTTTGTGCTCAGGAAACATAGCTATCCACATAATTATAGACATTGGTTGAATTAATTACCTCAGTATTAA
ATCTGTGATCTACTGTCATATTTTTGGAAGGAGGGGTGTGATGAATCTTACTGCCTTTTATCTTGGCACAACCAGGTTTTAATGCCTAGTACCTTTTTTT
GAAAAAAAATCTGAGGGTCTGCTGCTTTTAATCCCTTCCCAGGTACTATTTGTTAGGACTCATTTGATTGCAAGAAAGTTTTAAGAGGGTATTGAATCCA
AATGTAATGCAGAGGACCCTTATACACGAGGGGTGCAACCGACTTACTCCAGTTCATCCCCAGAGTATGAAGGCTTAACTGCTTTATGTCAACCTGCAGA
TAGTATTAGGAAACTCTAAAATTCTAGTCTTTTGCTTCCCAAGATTTCTACTTTTTTCTTACTATGTTTTTACAAGTGTTTTGAGTGTGGCATTAATAAT
GTCTAACTTGATCCTATTTTGATGCACTGATGGTAGCAGAAGCAAGTGGTAGCTAACACTGGCATTGGCTAATTGTATTCAGAGCTGTGAAACTGGGAGC
AAAGACCAGCCCCTCAAGGTGACCCCAGATACTAAGGCTGTATCTTTGTAGTGTAACTTGTTTTAGGGGGTTGGCTGCCCACTCCAGTTAAAAATTGTAG
TTTAGAGTTGCAGTGTGCCTGCTAGGCAGAAGGTGGCTTAGAAACAAGGGGCAGAAAACTTGGCCTTCAGGATCTTGTACTTGTACACTTTTTAGCAAAT
CTGTCTCTTAATGTCAGCCTTGAAACACTATGTTGGAGGCTGTGATCATTGCTCTAGTGGTTACTGAACATGCTTAATTTAAACAGTAATACAGTGGTTT
TTCAAAAAACTTTAAAACACAAACCCCCAATGTTAACATCATTTAGAACCCAGCATGCTATAACAAATATCTACATTTCTTAGTTAATTTTTATAGCTAC
CTCCCAGGGCTCAAGCCAGTTTTAGGAGCTTTTAATAATTTATCATTTTAATTAGGACTAGTTCCAGTGTCTACTGTCTCAGATACAGAACTACCATCCC
TTTTGGCTCTACATATTTCCCCTTTCTGGCTGAAGGGGGTCATTTTTTTTTTTTTCTAAGAGTATCAGGCTGAGTTCCCTTACACACACACACACACACA
CACACACACACTCTCACTCGCTCTCTGTCTCTCTCTGTCTGTCTCTCTCTCTCACACACACACACACACCCATGCATACTTGAGGAGCCCAAGGAAATAA
GCATCTGTCTTCAGTGGTTCCCATCTCTGTCTGCGGTTTGGTAGAACCTGCAACTGCCCTTACAGAAAGGAGGAGAAAAAAAACAACCTGTACTTTCGGT
CTCTAGTATTTCTCCCTTTCCTGTGTAAGGATGTACTCAGCAGCCAGGTTTCCAGTAGGACATCTCTAGGAATCTTAGCCATAGTCATTCATGGCCTCTT
GTTCTAATATTTCACTTTTATTATGATTCTGCTGGTAACTGACAACTGACCGAGTCTCCATGGTTCACATTTTCAAGAGATCAAATGTGATTAGCTCTTG
CCAGGCTATGGATTAGTTCTTTTCAAGTCAGTTGTTCACCCTGGTTCCTTTGGCTAGTACAAGGTCACATGACACAAACAGTGCCATGGATGGAGGTAGA
TTTTGTTAGGAGGGCTATGATCAGACTGGTAGTGATTAATCCTTTAGAATAAAGTGTCATTAACACAAACTGTAAAGTCAGGAAGAAAAATTGGTTTTTA
AGAGAAGATATTGGTACTTCAGGGCATGTATTAAATGTAAGGTACTAGCAAGACATTCAAATAGAAATAATAGGTATATAGTCAAAACTGAAGATAAGAT
AAGGGGCTCTGTGGTTCTCAACTAGTCTCATCCTTACATTGTCAGGGTGTGAAGAATAAAATTTCTCTTCTTTAAGCAAGTACCTTTTTCTTTGGAGACA
GACTCTCACTCTGTTCCCCAGTCTGAAGTGCAGTGGCGTGATTATAGCTCACTGCAACCTCAAACTCTTGGGCTCAAGCAGTCCTCCCACCTCAGCCTCC
TGAGTAGCTGGGACTACAGGTGCATGCCACCATGCCTAGCTTATTATTTTGGAAAGACGAGATCTCTCTATGTTGCCCAGGCTGGTGAGCAACAGGGCTG
GAACCTACAAGCCTAAGTTCTCTGAACCTAGTGGATTTTATGCCACATCTCAGTGGAAAGTAATATTAATTTGGCGTATCACCCAGTTAAAAGAATAAAA
TCAACTATCCGAATTTCAGATTATTTTTATGAGGCTGATGTAGGCCATCAAAGAATAGCTACATCTGTGATAACCATATTTAGCTTACTTACCTCTCAGG
ATAAACTACAAAAATAGTAGCTTTATGTAAGTCTCTTCCATGATACAATTTCAGTTCACAGAAGATTTTACTCTCTTTGCATTAAAGTTTCAAATAATAT
AATAGTGAAGCAGATATACGAAGAATATATCTGAAGGTGGAGTTCAAACATCTGACTTATTAATAACCTGTGCTTGGGAATTCTTGCTTCCAGCTACAGC
TGTAAAAAGTTGTCACTCACTCTCACCAAGACCTCACCTTGCCTGATAGAAACCTCACATAGCTGCTGCTGGAAACACAGTTGCAGGGTGGAACCCAGAA
CTCAAACTACTACCAAGAGTTAGTAGTTTGTTACTAGTAATATTAATTCAGCCATATTATTGACTTTTATGGGTCAGTTTAAGAATTTACACACAATTGA
GAAGTTAGGCACCATATTATGTGAAGCTACTCTTGTGAGAAAATCTGTTCTAAATCCCAGACTTAACTGAAGAATTTCTCAGCATAGCTCAGATATAAGG
CTTCTGTGCACATTTAAAAGTGAGTAGGTGGGAATCCAAAGAATAACATATTGATATGGTTAGGCTTTGTGTCCCCACCCAAATCTCATCTTGAATTGTA
ATTCTCAGGCATCAAAGGAGAGGCCTGGTGGGAGGTGATTGGATCATGGAGGTGGTTTCCCCCATGCTGTTCTCATGATAGTGAGTTCTCATGATAGTGA
GTTCTCATGAGATCTGATGGTTTTATAAGTGTCTGACAGTTCCTGTAACACACACACTCTCTCACCTGCCACAGTGTCAGACTTGCCTGCTTCCCCTTCT
GCCATGATTGTAAGTTTCCTGAGGCCTCCCAAGCCATGCGGAGGTGTAAGTCAATTAAACCTCTTTTCTTTATAAATTACCCAGTCTTGGGCAGTTCTGT
ATAGCAGTGTGAGAATGGACTATATATATATGTGTTAATATATATACACATATATTAACAAAATTATGTGCTGCTTTACTCTTCTTTGTAATTCATGTTT
TTTCAAACATGAAAGATGGGCTAGAATTTAGCCAGTTTGAGGGAAATTAGCATGCGTAAAGGAGAAGTTTTAATGCTATGATGGAAAAGGCTCAGATGGA
GGAGTGATATAAAAGAAGAAAGTATTCTGGTGCCCGCGAGTGAACACAGAAAGCAGGGCCTTTCCTCTGCACCTAGGTAGGCAGACTTTCTACTGTCACC
TTCAGGGCTTACTCACAGCTGGCTAAACTGATAATGAGGAACAGGAGATCATCTTCTATTTTGGATTATCTCCTTTGATCCTCTTTTATTGTAAAACCAT
TAAGAAGCACATTTTCAATTGTAACAAGTAGCCATTCGTACACTTATGTTTAAGGTATACGTAACCATTTATGTAATACATGTTTTCCCAGGTTACAAAT
AAAAGGTAGATTATCTTTAAAGGTTTTCTCTCAGACGTTCATTCAGTTAGAAGATTGTACCCTCATTTGGCTTCCCTAACCCTTTAAAATTGCTAACATG
AAATTCTGTAACTGAACTATCAGTTAATGTTTACGTGAATTGACTGTTAAAAAAAGTTCCAATGATTATAAATAAATGTGTCATATTAATAGTTAAACTA
AATGTATGTATGGGTTTTTGTTTTGTTTTGTTTTTGAGGTGGAGTCTCGCTCTGTCGCCAGGCTGGAGTGCAGTGGCATGCTCTCAGCTCACTGCGACCT
CCGCCTCCCAGGTTCAAGCGATTCTCCTGCCTTAGCCTCCCGAGTAGCTGGGACCACAGGCACCTGCCACTATGCTCAGCTAATTTTTGTATGAAACTAA
ATAGATGTTTAAACCACATCAGTAGTGATAGGTTCTTTAAAAGCTTTTAATGGCATGACAAGAATATTTAAAGCTCTGTTTTGGTTTTGAACTGAAAAAG
TTGAAAGTATAAAGGGAAAAAATATCTCTGACTTGTGTGAAGATTTTGTTTATTTATCTAAGACCTAATTGCTGAGTTTTTCCTTCTTGGCCTTGTATGT
TTTTCTAAGATGACTTTGAGTTAGAGCCAGAGTCTGTCTGGACACCACTGAACTTTTTTTTAGTTGGGAGAGGGAGGCTCACTATGTTGCCCACTGATTT
TAAACTTGAAGTTCCATTTCAAGTTTAAAGATTACAGGTGCCACCACCACACCCATCTAATTTTTGTGTTTTTAGTAGAAACGGGGTCTCACCATGTTGG
CCAGGCTGGTCTTGAACTCCTGACCTCAAGTGATCCGCCCACCTCGGCCTCCCAAGGTGCTGGAATTACAGGCGTGAGCCACCCTGCCTGGCCTAATGTA
GCTTTTTCTAATTAACTCATAAGGGTTTGATTGTAAAATACAGACCAAAAAGGAAGAAAGCAAAATTACTTTTGCAATACTTTTTCTATATACTTAAATA
ATATATAATCTTTTTCACATAATATAAACCTATTTTCATGTCACAGCACACTGTACTGTAATTTATTTAACCATCCTTGCATTATTAAACCATACTGTGG
TAAACATCTGTCTTTGTACATATCTCCTTAAGAAAAAAAAAATTTGTAAGTAAAATTGTGGGTTCAAAGATTCTGTATATTTTAAAGACTTCTGACTTTA
TAGAAAGATTCTACCAGTTTACATTTTCATTGAAGTATTAAGAATGCCTCATTCCTCATCTCTAATATTTATTGTAAAGTTTTCCTTCCTTCTTTTCATA
TGTAGAGATTTTGAGTAACATGATAAACAACTTATTTTGTTTTCCAGGAGATGATTTTTCTTTGATTCAACAAGAAATATTTATGGTTAAAGAATGTAAA
CATTGTAACATCGTTGCCTACTTTGGGAGTTATCTTAGGTAAGAGAAAAAAAAGCATCATCTCTCTCTGTATTTTATATATTCTTTGCTACTACACTCTC
TCCCTTGTATGTAAGTGCTACTATATTTGTATGTTTTTAAACACTGCAAAGTTCTAAATTTTTTAAGGTTTTCCTATTTCTACGGTTTTCCCCTATTACA
TATTAATAATGGTACTCCCATTTTTATAGTTGTACCTCATCTGGCAATTTTAATGAAACATAAGTGATTACAAGTAAGTGTTTTAACTTACAAAACTGAT
CATATTCTAAACCACTGAAGATGGGAACAAAGCTGAAATTAATGTGCTTTTCTGTATATTGTAGCAAGATTACATAGCAGTTTCCTGTTGCACTTCACAG
TCCATTCTGAACCCTGGTGTGCTAAAGAGTGAGAGCCTTAGAGTATTTCAGTGATTGAAAATTACTAGCTAATATAATTTTCTTTTTTTTTTGTATTAGT
CGGGAAAAACTATGGATTTGTATGGAATACTGTGGTGGCGGATCACTTCAAGATATTTACCATGGTACTGTTAATTTGACTTTACATTTTAAACAGACTT
TGGTTTTAATGATTGTTGTTCGATATTTCCAGTTAACCACGGAAATTAACAGGTAGACTTACTATTTTGCATTCTTCTGTTCCCGGAGCACTGCATAACA
GAAATCTGTATTTATTTTTTATTGGTTAGTCAATTAAACTTGCCTGAGCCTGAAGTGACAAATGCAAAAGTATTTATATAATCCAAATTTTACTCTTTAG
ATATCTCTAGGAAAGTGTTTTATCTACAAATGAAACTTCCTAAATTTCCTTGTAAAAAAAAATTGAAATGCAAGGGGTAACTCACAGAAGGGAAGTTACG
TGTCTGTCTTAGTAACTTAACCTGCTAACCAGAAAAGCAATTTGCTTGTTACTGTAATATTTTTGTATTAATATGTATGTTTTAAAGTTTCGAGTATTTT
ATTTAGTATTCATATTAATTTAGGCAGTTTCCTGAGTTGAATTTGACATTACAGTCTAATACTGTTTAGAAAGTTTTGTTTTGGCTCTACTGTTTAGCTT
TTAATTTGTTTTGTTGCTGCTGGCAATTTCTTGAATTTCTAGAATTTATGAGACTAAACATAGATCCTTATAATTTTTCTTCTCCTTGTTTAACATGGAT
ATGGGATAGTAAAACTCCCATTGCAGCTACTTATTTTATAATTTGTTTTAAAGAATTACGTGAAATATTTTTAAACGTTTCTATGCTGAAATCTTTATAT
TGGAAACCTTACCAAATTTCAGTCATGCAGTTTACAAATGCAGCCACAGTAGATATAAAAACAGAAGTGCTATTTCACTTCAAATAATAGGTTGTAACTA
CAGAGCTCAGTTTTAAAATGTCAATCAATAGAGCAGTGGTTAAATAAACTACTCTTCAACCTGTAATATGGAATACTGTGCGGCACTTAAAAAGATGAAG
TTACTTCATAATTATTGACCTGGGTATATATCCCTAAGGCTTGTTTTTAAATGGAAAAAGTGAATTGTGAAAGAATATGTATAACATACTGGGTCATACT
TAGGCTTTTAAAAATTACATTTTTATAAGTATAAATATAGAATGTAAATGTATAGCAAAATGAAAGAATACCTACCAGTTGACTAAGTCATTACCAGAGG
AGAGGGAAAGCAAAGCTCAGAAGTAAACTTTTAAATTACAAAAAAACTTATCAATATAGTACTTAATTATCAATTTTAAAATGTCATAATTATCTAATTT
TGTCACAACAAATAATCCATAACAACAAAAATTCTGACTGATGTCTAAACACTGATCACTACCTCTTTATTAACAAAAATGTTTTAACATCACATAAATG
TTACAAATACACAAATTACTATGATTTAGGCTATTTCTTAGGCATGTGGATTTAAAATTCTCTGTGCCACTGGATTTAATTTTTTTCTATGATTTTATAA
AGAATTGCTATCTTCTCATGCCTGTAATTCCAGCACTTTGGGAGGCCAAGGTCGGGAGTTTGAGACCAGCCTAGCCAACATGGTAAAACCCCATCTCTAC
TAAAAATACAAAAATTAGCCAAGTGTGGTGGCAGGCACCTGTAATCCCAGCTACTTGGGAGACTGAGGCAGGAGAATCACTTGCACCCAGGAGGCGGTGG
TTGCAGTGAACCAAGATCACGCCAGTGCACTCCAGCCTGGGCGAGAGAGCAAGACTGTCTCAATAAATAAATAAATAAATAAATAAATAAATAAATAAAT
AAATGGAATTGCTGTCTTTTCTGTGAAAAGTTTTTATTCGGTAATTGTAATTTTTGTCCATTCACATTTTTATAAAATGAGAGCACTCAAGATAGCTGGC
TTTTTTTTTTTTTTTTGCAACTTTTAAGTTTAAAGAATAGCTTTGAAACATTAATTTTATTTTTTCATGAAATTCTGACTTTCTCTTATTAAACCTGATA
TTTGTTGAATTAAATTGAACCTAAGAAGTACCCATCCCGGTAGTTAGTATACTAGATAGCATAATAATCAATAAAATCTACACTTATAATTAGATGTTGT
TAATAAAGTGACTTTTTTTCTTTTACTACTATTTATCATGTTACTAAGAATCAAAAATTTATGTTCCTGAATGGGTAGAGAGAGCCAGTGATTAAAATAC
GCGGTAGAAATTTCTCTAGGTGAAGAATACACATGACTACCTGATTTGGTTTCGCTGTCAGCAGATACCACCCCAGAGTTACTCTCATGGTACTGAAAGG
CATAGTCCCGAAGCCTCTGGTTGAGTTCTTGAAATAAGTAGAATTTTATATTTCATATTAGGGAGAGATCTGGTTGCCAAAAGTGACACGGTTATTTTTT
AAATTCTTAGATAAGGTACTGGATCAAGCCTCTCTTTTGATAGGTGTGGTAAAGAATTATACTAAAGAAATAGCATCTTGATCTATAAAAAAGTATATGA
TGCCTTTTAATATATTGGATAGTCAATCTCTTTATGATTCTCTATTTCTCTGTATAATTAGTTATATGTATTTCTTTATTTTTGAAAAATTGTTCAGGAT
TGCATTCTATAGACCTTCCTATAATGCATACCACTATGCTTTGCACATGAGTGCTTAATATTTTCAAGGACCACAGTTGTTACGGAGTTAAATCTTTTAA
AGTACATTTGAAAAAATTCTCAGTGTTACCTTTTGTTTTTGATTCTTGTTGACAGAAATAATATATGCTCACAATCAGAAGAGAAATCACTCAACTGTAT
AAATAGAAATTGTTTTATAATAGTTCGTCTGTTTTTTTGTTTTGTTTTGTTTTTTTGTTTTTTTCCGAGACCGAGTCTCGTTCTGCCGCCAGGCTGGAGT
GCGGTGGTGTGATCTCAGCTCACTGCAACCCCTGCCTCCCGGGTTCAAGCAATTCTCCTGCCTCAGCCTTCCGAGTAGCTGGGACTACAGGTGCGCACCA
CCATGCCCAGCCAATTTTTGTATTTTTAGTAGAGACGGGGTTTCACCATGTTGGCCAGGATAGTCTCGAGCTCTTGACCTCGTGATCCGCCTGCCTTGGC
CTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCTTGGCCTAGTTTGCCATTTTTTTTAAGTAGACTGTTTCTAATGTTAGGTTTAAATGTATAA
CAATGTGGTCTCTTTTTCTTTCTAGTTACTGGACCATTATCAGAATTGCAAATAGCCTATGTATGCAGAGAAACCTTACAGGTACTATATTTTCTTAATA
TAGTTAGAAAGGCAATTCTAGGCAATATTTTCTTAATGTAGTTAGAAAGGCAATTGCCTGACAATTGATAACTATAAAATGATAGTCTACCTTAAAGAGA
AAGGGTAAAACAAAATGATTTTTCTGTTAATCTCTTATAATTCTGTAAAACTAGTTATTTTTCTTTCATGAATGAATCACATGAATTCATTTAAGCTGAT
GCCGACATATACAGTGATCATATGTGGAATTCCACTTTGATGCTGATGCACACCATGGTCATGTGAGGTATTCTCCTTTATAGCACTTGGCCCTCAGTTG
TGTAAATTGGTTTTCAAGAATGAATTACCAAACCTCTCAATTGTAACATGTTGTCTAAGCGTTCCCTTCAAGTTTATGGCAGTAAAAGGAATCTCTTCCA
TGAGACATAGGGGCTTTTACTATTTCTCTTGAAATAAAATAAATTAGCACAGCATTAACTCAAGGTGTTATCTGAAAACCCTAGTTCTATGTGGTATTAA
ATGTTATTGATAGCAGAATCTCTTTTTGTAAGTTTGGTTAACATTGCATTAAACAGGTTTCTTTACTTCAGGGCCTGTGAGAACTTTTAGTATGCTAAAA
TGGGTTATGAATATTCAATAAAGATATAGAGTATGTGGTATTTCTCCCAATTTATTTATTTTTTTCAGTGCCCTGAAAGACTACTCACTGAGAAAATTAG
GAATTAACAATTTTGTTCATATAATTTAAGGCATTTAAATTTGCAGGAGGGAATAAGTAGTAGTGATTGTGGTTTGTATTTTTGTAATTTACAACTGATA
ATTGTTAATTAATGCTTCTATCCCTAAATTTCCTATATTGTGTAGTTTCAATTTAGAAAGAAATTGATACTCTATGTGTTGTTCTCTAATATTTTCCAAA
ATGGGAGATTTGGCTGATCAGGAAAAAGTTCTAGTCAATTTTGAAGAGTTGGTTCCCACATGCTTTAAAAGACATAAACACTGCCAAATCTTACTGAGAG
ATAAATCAGATTAATTTATCTAACATATATATATTTATATATATATATAGAGATGTGTAATATATATGTATGTACGTATGTGTGTGTATATTCCTATAAC
GTTTACATAACATAGAAACCTACTTCATTGTATCTACATAAAATACAAACTTAATTATACACTCATAGCAGAGAATTATTGACAAATTCATTTTCTTTGT
ATTTTAATTTCTAAAGTTCATTGTTTCCCTAAGTATTAAACAAAGTACTGAGTAGAGGTGAAAAAATAAAAAAAAAAAACAAAGTCGAATTTGCACTCTG
GCGCTGGTATGTGACCGTAATCTTTTATATAGTTCTAGTTCCCAAAATACAATCCTGTACTGCATAACATTTCAGTCAACAATGGGCTACATATACAACA
GTGGTCCCATAAGGTTATAATACTATATTTTTACTGTACCTTTTCTATGCTTAGATATGTTTAGATACACAGTAATTGTCATTGTGTTACAGTTCCTACA
ATATCAGTACACTAATGTGCTGTGCAGGTTTGTAGCTTAAGAACAATAGGGCTATACATATACCCTAGGTGTTTAGTAGGCTATGTGTATATACCATCCA
TGTTTATGCAAGTACCCTCTGTGATACTTGCACAACAAAATTGCCTAACAATGCATTTCTCAGAATGTATGCATCCCTATTGTTATGTGAGCATGAGTTT
ATAAAATGAGGCTTATTTTCAAGAACAAGGATGGAGCTGGAGATCCTTATGTTATGTGAAATAAGCCGGGGACAGAAAGACAAACATCACATGTTCTTAC
TTATTTGTGGGATCTAAAAATCAAAACAATTAACTCACAGACATAGGAAGTAGAAGGATGGTTACCCGAGGCTGAGAAGGGATTTGATATGGTCGGAGGG
GAGTGGGGATGGTTAATGGGTACCAAAAAAAAAAAAAAGAAAGAATGAGTAAGTTCTAGTATTTGATAACACAACAGGGTGACTATAGTCAGTAATAACT
GAATTTTATATTTTAATATAACAGAGTGTCATTGAATTGCTTGTAACTCAAAGGATAAATGCTTGAGGGGATGGATACCGCTTTCTCCATGATGTGTTTA
TTTCACATTGCCGCCTGTACCAAATAAATTCCCCATAAATATATACCTACTATGTACCCACAAAAATTAAAATAAAAAAAAAACCAATATGAAGCTTAGG
AAGGGAATACCTCCAAGATTATTTCCAATTTTAAAATTCTATTATGCAGATAAACTTCCACATCTGGTCAAAATCAGGTAACAAGAAGTAGATTTACCAT
GCTACCCAAAACAATCAAATAAAGTAGGCAAAATATATGAAACAGTGATTTTCAAGAAACTGAACATCAGGTAATGAAGGACAATGAGGCCTGAAAAATA
GGAAACAAACCAAGGAAGCCATATAATTGCCCCAGCTTATGGCGTTGGGAAAGTTTTCAGGCCACAGTACAGGGAGAAGGAACCCAGGTGGGGTCCCAAG
CCAGTTAGAGTATTTAAGGTAGAGTATTGGAGAGTGCTTCAGAGTATTGGAGTATTTTTGAAAATTCAAAAATATACAGCACCCAACAAAGTAAAATTCA
CAATGTTGGGCATCTACTCAAAGATTACCAGACAAGCAAAGAAGCAAAATAAGATGAAAATCAGTAAAACCAACCCACACTGACAGATGCCAGAATTAGC
AGACAAAAACATTAAAACAGTTATAACTGTTTAAGATGCTTAACAAGTTGAGATATGGAAGGTATAAAAAAGGCCCAAGTCAAACTTCTAGAGATGAAAA
CCACAGTGTCTGATGGAATTAACAAAGGATGAAATTAGCAGATGATTAAATACTGAGTGAGCTTTGGATGGAATTAACAAAGGAATTAACAAAGGATGTT
AATTAACATGTGTCTGATGGAATTAACAAAGGATGAAATTAGCAGATGATTAAATATTGCAAAAAACGTATATTTGAATTTGAGGGCATAGAGGTGGAAA
ATATTCAAAATGAAACATGGAAAGAAAAAGTAATTTTTTATAAGTGAAGAGTATCATTAAGCTGTAGGACAATTTCAAGTGGCCTAATATGGATATAATT
GGTGTCCTTGAAGGGACAACAGAAGAAAAAGGGACAAAAATGAGAAAAAAAAAAAGAGAGAGAATGAAGAGACAAAGAGAAAAAAGGGAAACGAAAGAGA
AAAGGGAGACAAACTGAAAAGGGGAGATGGCTGAAAATTGTCCATACTTGATGATAACTATTAATATGGGCCCACAGATCCAAAGTGCTCAACAAACCCT
GAGCACAAAAAACAACAACAACAAAAAAAAAAAAAACGAAAAAAACTACACTAAGACACATGAATCAAATTGCTTATTTGATTAGAACATCTTAGAAGCA
TTCAGAACAGGACTCATGATATACAAAAGAACAAAGACAAGGAATATTTATTGTTAGAAATAAGTGAGAAGACAGTGGAAAATCTTTAAAGTACTGAAAA
AAAATTGTCAACCTAAAATTCTATTCCTAGAGAAAATCTCTTTCAAAAACAAAGGCAAAATAGAGTTTTTCAGACTTACAAACACTGAAAGAACAAGTCA
CCAGCAGACCTATCCTACAAGAAATGTTTAAGAAAGTCCAACATTATGCTCAAAGAAAATGCTCATTGGAGCATTTTGTATTTTCTGTTTTCTGATTAGG
GATGTTTAACCAGTATATATTCTGCAAGTACTAAAAAATCTGAAATCTGAAATATGTCTGGTCCCAAGCATTTTAGATAGGGATATTCAGCCTGTACTTA
TAGGGAAATTTATAGCACTAAACAGAAGCTCTCAAAATCAGTATCCTCAGCTTCCACCTAAGAAGCTAGAAAAAGATGAGCAAATATAATGCAAAGTAAG
CAGAGAAAGGAAATAAAGATCAGAATAAAAATAAACGAAATGGAAAGGAAAAAAAATAGTAATAGAGAATGTCAGTGAAATAAAAATCTGATTCTTTGAG
ATGAGCAATAAAAATGATAAACATCTAGACAGATTGATCAGGAAAAAAAGTAAAAAGAGAAGAAACAAGTGATAAGCATCAGAAATGAATGATGGGATAT
CAAGACAGAATTTACAAATATTAGATAACAAGACAGTATTATGAACAGTATTATGCCAATAAAATGGGCAGTTTCAACAAGAGATACAAACTACCAAAGC
TCACTCAATTATAAATAACCTGAATAATCCTATATGTATTCTCACAAAGAAAACTCCGGGCCAGATGATGCCATACAGTAAATTCTACCAGACATATAAG
AAAGAAATAATGCCAATCCTATATATACCTATCTAGAAAATTGAAGAATGAGAAATAACTCCCGAATCATTTTGAGTCAGCATTTTTCTGACACCAAAAT
TAGACAACAATCTTACAAGAGAACAAAACTACAGGCTAATGTTCTTCATAAACCTAGGTGCAAACATTAAAAATAAAAGGTTTAGCAAAGGTAATCCAGT
AATATATTTTAAAAGTTAATACATCATAAGTGGAGTTTATTCTAGAATGCAGTGTTGGTTTAATATCCAAAAATCATTTCATCTTAACAACTAAAAAAGA
AAAACCACATTATCATCTAAATACACACAGGGCATTTAGCAAAATCCAACATTCATTCCTGATAAAAAAAAGTTCTGAACATGGTAGGAATAGAAAGGAA
CTTGGTCAACCTGATAAAGCGTACCTGTGAAAAACCTATGACTAACTCATACTTAATGGTAAAAGACGGGATGTTTTTTCCTCCAGGCTCACCCAAACAG
GGTGATGAAGTCTGCCTTTACTACTACTTTTCAACATTGTCCTAGAGGTTTCAGCCAGTGCAAAAAGAGAAAATAATGAAATAAAAGGCATCTGGATTAG
AAAGTAGGAAGTACAACTCTCTTTATTCACAGACCACATCATCATCTGTGTAGAAAATGGAATAAAATCTACAAAGTAGCTACTAGAACTAATAAATTAG
GCTAGAAAGATTGTAATATTCACTATCAATGTACAAAAATCAATCAGATTTATATATACTAGCAACGGACAATCTGAAGTTAAAATAATACAACATATAA
TAACATAAAGAATATGACATTCTTAGGGATAAATATGACAAAAGATGCATAAACACCTGCATACAGAAAACTACAAAACTCCTGAAAGAAATTAAAAACC
CAAATAAATGGAGAACTATACCATGTTCACAAACCAGAAGACTCAATACTGTTGAGATGATAATTCTTCACAAATTGTTCTGTAGATTCAGTGCAACCCC
AATCACAATTTGAGGAGGCTTTTTATTAAAGAAGTTGACATGCTGATTCTAAAATTGCTGTGGAAATGTAAAACACCTAGAATAGTCAGACAACTTTGAA
AACCTGAACTATAGTGCCAGAAAGCACATCAGTGTTTGTGAGGGTTGTGGGGAAGAATGGGAAAATTATAAAGGAGCACCACATAAGGAAACTTTTAGGA
GTAATTAATATATTTGATATCTTGATTGTGTTTAGTGAAATATTTCTGATTTTTATCAGAAAATAAATTAGAAATCTTCAGGCCGGGTGTGGTGGCTCAC
GCCTGTAATCCCACCACTTTGGGAGGCTGAGGCGGGTGGATCACTTGAGGTCAGGAGTTCAAGACCAGTCTGGCCAACATGGTGAAACCCCGTCTCTACT
AAAAAATACAAAAATTAGCTGGGCATAGTGGCGCATGCCTGTAATCCCGGCTACTTGGGAGGCGGAGGCAAGTGAATCACTTGAACCCAGGAGATGGCAG
CTGCAGTGAGCCAAAATCACTGCCACTGCACTCCAGCCTGGGCAGTGAGACTCTGTCTCAAAAACAAAAACAAATCTTTAAAATATAGTAAACATTGATT
TACTTATCTAGGTTTTTTTCTCCCCAAAAAAGACATTCTAGTTTTTCTTATTCAATAAGAATTTAAGTAGAAAATTTAGGAGTCACATTTACAGTTTTGC
TGATACATTCTTTTTTTTTTTTTTTAAACTTTTAGGGTCTTGCCTATTTGCATACTAAAGGCAAAATGCATAGAGATATCAAAGGTGCTAATATTTTATT
GACAGACCATGGCGATGTAAAATTAGCTGACTTTGGTGTGGCTGCAAAAATAACAGCTACCATTGCAAAACGAAAATCTTTCATTGGCACCCCTTACTGG
ATGGCCCCAGAAGTTGCAGCAGTAGAGAAGAATGGTGGCTACAACCAACTCTGTGATATCTGGGCAGTAGGAATAACAGCAATTGAACTTGGAGAACTTC
AGCCACCTATGTTTGATCTCCACCCAATGAGGTGTTCTCATTATTTATAATTATCCAGTTATTGATCAAGTCTATGGGGAAAGTGAAATGCTGATAACTC
AGCATCAAGCTCATTTTTAAGAATGAAAAATAGTAAAGGTATTGTAAGGGATTTAGGAGTAATCTCATCCAAAACCTATTGTGGGCTAGTCCGAAGGTAG
TTACCTCAATTCATTTTTCACAATTACAGATCAAGCTCCTTGTTCTGCTTTTCTCCTTCTCACTACTGTACTTGACTAGTCTTTAAATAAATAAAACCTG
TCTTGTATTGCTGCTCCTAAAACAACATAAGAGTAAATTGTCTGTACTGTTTGAAGCTTTTCCATAAAACAAATTTCTCTTCATAATCACACTAGGATAT
GAGAGTTAACATTATTTTAAG

Expression



Full and truncated open reading frames discovered in TCONS_00252827

In silico ORF/peptide predictions
Nothing found.


RiboTaper predictions from Ribo-Seq data (HEK293 cell line)
Nothing found.

BLAST search results

No hits found.