ENST00000484447.6 USP24

Information
Transcript ID
ENST00000484447.6
Genome
hg19
Position
chr1:55,536,941-55,681,051
Strand
-
CDS length
7,857
Amino acid length
2,619
Gene symbol
USP24
Gene type
protein-coding
Gene description
ubiquitin specific peptidase 24
Gene Entrez Gene ID
23358
Variants

Display target variant


Search Word
Target data :
MGeND data only
Category :
Search word :
Filtering :
Variant name Gene AA change CDS Japanese
frequency		 TogoVar MGeND Genome ClinVar CIViC evidence DisGeNET entry COSMIC
occurrence		 Prediction
Entry Origin Type Annotation Entry Origin Annotation
Search Word
Target data :
MGeND data only
Category :
Search word :
Filtering :
Name MGeND Type Genome Size Chromosome Start Stop Ref Alt ClinVar Origin Entry CIViC evidence DisGeNET entry
Entry Origin Type Annotation
Search Word
Target data :
MGeND data only
Category :
Search word :
Filtering :
Name MGeND Type Genome Gene symbol Chromosome Genomic start Genomic stop Strand Ref Alt ClinVar Origin Entry CIViC evidence DisGeNET entry
Entry Origin Type Annotation
Exon
Exon number Start Stop
68 55,536,941 55,537,163
67 55,537,487 55,537,597
66 55,537,990 55,538,076
65 55,538,459 55,538,534
64 55,539,501 55,539,579
63 55,541,130 55,541,196
62 55,542,908 55,542,973
61 55,544,211 55,544,324
60 55,545,211 55,545,332
59 55,546,995 55,547,097
58 55,548,945 55,549,037
57 55,549,445 55,549,561
56 55,551,615 55,551,711
55 55,555,300 55,555,413
54 55,557,696 55,557,799
53 55,558,494 55,558,589
52 55,559,610 55,559,760
51 55,560,928 55,561,069
50 55,562,171 55,562,295
49 55,562,625 55,562,845
48 55,563,271 55,563,390
47 55,563,616 55,563,757
46 55,564,149 55,564,231
45 55,565,444 55,565,542
44 55,566,512 55,566,637
43 55,567,257 55,567,376
42 55,569,549 55,569,693
41 55,571,819 55,571,936
40 55,572,912 55,573,103
39 55,575,858 55,575,919
38 55,586,269 55,586,429
37 55,587,109 55,587,179
36 55,589,120 55,589,275
35 55,590,142 55,590,301
34 55,590,993 55,591,221
33 55,591,336 55,591,431
32 55,595,150 55,595,247
31 55,598,218 55,598,373
30 55,599,743 55,599,836
29 55,600,001 55,600,086
28 55,603,188 55,603,361
27 55,603,479 55,603,577
26 55,604,281 55,604,391
25 55,604,617 55,604,683
24 55,607,289 55,607,404
23 55,608,415 55,608,468
22 55,608,652 55,608,792
21 55,609,800 55,609,876
20 55,611,671 55,611,782
19 55,612,602 55,612,733
18 55,613,322 55,613,471
17 55,614,136 55,614,243
16 55,619,543 55,619,590
15 55,619,792 55,619,953
14 55,620,044 55,620,139
13 55,620,344 55,620,451
12 55,622,621 55,622,724
11 55,622,929 55,623,043
10 55,624,551 55,624,709
9 55,625,284 55,625,358
8 55,627,872 55,627,937
7 55,631,558 55,631,623
6 55,632,241 55,632,276
5 55,637,229 55,637,351
4 55,638,050 55,638,193
3 55,642,049 55,642,116
2 55,643,640 55,643,805
1 55,680,463 55,681,051
CDS
Exon number Type Start Stop
68 CDS 55,537,107 55,537,163
67 CDS 55,537,487 55,537,597
66 CDS 55,537,990 55,538,076
65 CDS 55,538,459 55,538,534
64 CDS 55,539,501 55,539,579
63 CDS 55,541,130 55,541,196
62 CDS 55,542,908 55,542,973
61 CDS 55,544,211 55,544,324
60 CDS 55,545,211 55,545,332
59 CDS 55,546,995 55,547,097
58 CDS 55,548,945 55,549,037
57 CDS 55,549,445 55,549,561
56 CDS 55,551,615 55,551,711
55 CDS 55,555,300 55,555,413
54 CDS 55,557,696 55,557,799
53 CDS 55,558,494 55,558,589
52 CDS 55,559,610 55,559,760
51 CDS 55,560,928 55,561,069
50 CDS 55,562,171 55,562,295
49 CDS 55,562,625 55,562,845
48 CDS 55,563,271 55,563,390
47 CDS 55,563,616 55,563,757
46 CDS 55,564,149 55,564,231
45 CDS 55,565,444 55,565,542
44 CDS 55,566,512 55,566,637
43 CDS 55,567,257 55,567,376
42 CDS 55,569,549 55,569,693
41 CDS 55,571,819 55,571,936
40 CDS 55,572,912 55,573,103
39 CDS 55,575,858 55,575,919
38 CDS 55,586,269 55,586,429
37 CDS 55,587,109 55,587,179
36 CDS 55,589,120 55,589,275
35 CDS 55,590,142 55,590,301
34 CDS 55,590,993 55,591,221
33 CDS 55,591,336 55,591,431
32 CDS 55,595,150 55,595,247
31 CDS 55,598,218 55,598,373
30 CDS 55,599,743 55,599,836
29 CDS 55,600,001 55,600,086
28 CDS 55,603,188 55,603,361
27 CDS 55,603,479 55,603,577
26 CDS 55,604,281 55,604,391
25 CDS 55,604,617 55,604,683
24 CDS 55,607,289 55,607,404
23 CDS 55,608,415 55,608,468
22 CDS 55,608,652 55,608,792
21 CDS 55,609,800 55,609,876
20 CDS 55,611,671 55,611,782
19 CDS 55,612,602 55,612,733
18 CDS 55,613,322 55,613,471
17 CDS 55,614,136 55,614,243
16 CDS 55,619,543 55,619,590
15 CDS 55,619,792 55,619,953
14 CDS 55,620,044 55,620,139
13 CDS 55,620,344 55,620,451
12 CDS 55,622,621 55,622,724
11 CDS 55,622,929 55,623,043
10 CDS 55,624,551 55,624,709
9 CDS 55,625,284 55,625,358
8 CDS 55,627,872 55,627,937
7 CDS 55,631,558 55,631,623
6 CDS 55,632,241 55,632,276
5 CDS 55,637,229 55,637,351
4 CDS 55,638,050 55,638,193
3 CDS 55,642,049 55,642,116
2 CDS 55,643,640 55,643,805
1 CDS 55,680,463 55,680,786
Other genome
Genome Chromosome Start End Links
hg38 chr1 55,071,268 55,215,378 Link
CDS sequence
ATGGAATCGGAGGAGGAGCAGCACATGACCACGCTGCTGTGCATGGGCTTCTCAGACCCCGCCACCATCCGCAAGGCCCTGCGCCTGGCCAAGAACGACATTAACGAGGCCGTGGCACTGCTCACCAACGAGCGGCCGGGCCTCGACTACGGCGGCTACGAGCCCATGGACAGCGGCGGTGGCCCCAGCCCCGGGCCCGGCGGGGGCCCGCGGGGCGACGGCGGAGGTGACGGCGGCGGCGGCGGCCCCTCCCGCGGCGGGAGCACCGGAGGCGGGGGCGGCTTCGACCCCCCGCCCGCCTACCACGAGGTGGTGGACGCGGAGAAGAATGATGAGAATGGAAACTGCTCAGGGGAAGGAATTGAATTCCCTACAACAAATTTATATGAACTGGAAAGCCGTGTTTTGACTGATCATTGGTCCATCCCTTACAAGCGAGAAGAATCACTAGGCAAATGCCTGTTGGCATCTACCTACCTAGCAAGACTTGGTCTTTCCGAGTCTGATGAGAATTGTAGAAGGTTTATGGACAGGTGTATGCCTGAAGCATTTAAAAAGCTCCTGACATCAAGTGCTGTTCACAAGTGGGGTACTGAAATTCATGAAGGAATTTACAACATGTTGATGCTATTAATAGAACTGGTCGCAGAGAGAATAAAACAAGATCCAATTCCCACTGGTCTCCTGGGTGTGCTTACAATGGCTTTCAATCCTGATAATGAATACCATTTTAAAAACAGAATGAAAGTGTCTCAAAGGAATTGGGCAGAAGTGTTTGGAGAGGGAAATATGTTTGCTGTTTCACCTGTATCGACTTTCCAAAAGGAGCCTCATGGATGGGTTGTGGATTTGGTAAATAAGTTTGGAGAATTAGGTGGATTTGCAGCAATCCAAGCCAAGCTCCATTCAGAAGATATAGAACTTGGGGCTGTCTCAGCACTGATTCAGCCCTTAGGAGTGTGTGCAGAGTACCTCAATTCCTCCGTGGTACAGCCCATGCTAGACCCAGTCATTCTTACTACAATCCAGGATGTACGGAGTGTAGAAGAGAAAGACCTCAAAGACAAGAGATTGGTTAGCATCCCTGAGCTCTTGTCTGCCGTTAAGTTACTTTGCATGCGCTTCCAACCGGATCTGGTGACAATTGTGGATGACCTTCGACTAGATATTCTATTGCGCATGCTGAAATCACCACATTTCAGTGCTAAGATGAATTCTCTCAAAGAAGTAACCAAACTAATAGAAGATAGCACTTTATCCAAATCTGTGAAGAATGCTATAGATACAGACAGATTATTAGATTGGCTAGTTGAAAACTCAGTTCTGTCGATTGCACTGGAAGGCAACATAGACCAAGCACAATACTGTGACCGTATAAAGGGAATTATTGAACTCTTGGGTAGTAAATTGTCGTTAGATGAACTCACTAAAATTTGGAAGATACAGTCAGGACAATCATCTACTGTGATTGAGAACATTCATACTATTATTGCTGCAGCGGCTGTGAAATTTAATTCAGATCAGCTTAATCATTTGTTTGTTCTCATTCAGAAGAGCTGGGAGACTGAGAGTGATAGAGTAAGACAGAAGCTTTTGAGCCTGATTGGACGAATAGGCCGGGAAGCTCGCTTTGAGACCACTTCTGGAAAGGTTTTAGACGTACTCTGGGAACTGGCTCACCTTCCAACCCTGCCCAGTAGCCTTATTCAGCAGGCCTTGGAGGAGCACCTGACAATCCTTAGTGATGCATATGCAGTGAAAGAAGCAATCAAGAGGAGCTACATCATCAAGTGCATAGAAGATATTAAGAGGCCTGGAGAATGGTCAGGTTTGGAAAAAAACAAGAAGGATGGATTCAAGTCATCTCAGCTTAATAATCCCCAGTTTGTATGGGTGGTACCAGCTTTGCGTCAGCTCCATGAAATTACTCGCTCATTCATAAAACAAACCTATCAAAAGCAAGACAAGAGCATTATTCAAGACTTGAAGAAGAATTTTGAAATAGTGAAATTGGTAACGGGAAGTTTGATCGCTTGTCATCGGCTTGCAGCTGCTGTGGCCGGGCCTGGAGGCTTAAGTGGCTCGACACTAGTGGATGGCCGGTACACTTACCGGGAGTATTTAGAGGCACATCTAAAATTTCTAGCGTTTTTCTTGCAAGAAGCTACTCTGTATCTGGGCTGGAATCGTGCCAAGGAGATCTGGGAGTGTCTTGTAACTGGCCAGGATGTTTGTGAATTAGATAGAGAGATGTGTTTTGAATGGTTTACAAAAGGACAGCATGATCTTGAGAGTGATGTTCAGCAGCAGCTCTTCAAGGAGAAAATTCTTAAATTGGAGTCATATGAAATCACTATGAATGGTTTTAACTTATTTAAAACTTTTTTTGAAAATGTGAATCTTTGTGATCATCGATTGAAAAGACAAGGAGCTCAGTTGTATGTAGAAAAGCTGGAATTGATAGGAATGGATTTCATTTGGAAAATAGCCATGGAATCACCTGATGAAGAAATTGCTAATGAAGCTATTCAGCTAATCATAAACTATAGTTACATTAATCTAAATCCTAGATTAAAGAAGGATTCAGTATCTTTACATAAGAAATTCATTGCTGATTGCTACACAAGATTAGAAGCAGCCAGTTCAGCACTTGGTGGCCCCACTCTAACACATGCTGTGACCAGAGCAACAAAAATGCTTACAGCAACTGCCATGCCAACTGTAGCAACCTCAGTTCAGTCTCCTTATAGATCTACTAAACTTGTAATAATTGAGAGATTGCTGCTTCTGGCAGAGCGCTATGTGATCACTATAGAGGATTTTTACTCTGTTCCACGAACTATTCTACCTCATGGTGCCTCATTTCATGGACATCTTTTAACCCTTAATGTTACCTATGAGTCTACCAAAGATACCTTCACTGTCGAGGCTCACAGTAATGAAACCATAGGGAGTGTCCGGTGGAAAATAGCCAAGCAGTTGTGCTCTCCTGTGGATAATATACAGATATTTACAAATGATAGCCTGCTGACAGTGAATAAAGATCAAAAGCTACTCCACCAACTGGGCTTTTCTGATGAACAAATCCTTACAGTGAAGACTTCTGGCAGTGGGACCCCATCTGGGAGTTCAGCAGATTCTTCAACCAGCTCCAGCAGCAGCAGCAGTGGGGTTTTTAGTTCTTCATATGCCATGGAGCAGGAGAAATCCCTCCCTGGTGTAGTGATGGCTCTCGTATGTAACGTATTTGACATGCTTTATCAGCTCGCCAATCTGGAAGAGCCAAGGATAACTCTACGAGTACGGAAGCTTCTGCTCTTGATACCCACTGATCCAGCCATTCAGGAAGCCCTTGATCAACTTGATTCTTTAGGAAGAAAGAAAACATTGCTGTCTGAATCAAGTTCTCAGTCCTCAAAATCTCCATCCCTGTCATCAAAGCAACAGCACCAGCCAAGTGCCAGTTCAATTTTAGAAAGTCTGTTTCGATCTTTTGCCCCGGGAATGTCTACCTTCAGAGTGCTCTACAACTTAGAAGTTCTAAGCTCCAAACTCATGCCAACAGCTGATGATGACATGGCCAGAAGCTGTGCCAAATCCTTCTGTGAAAACTTCCTCAAAGCTGGCGGTTTGAGTTTGGTTGTAAATGTCATGCAGAGAGACTCCATCCCATCAGAAGTAGACTATGAAACAAGGCAGGGTGTTTATTCCATCTGTCTACAGCTTGCAAGATTTTTACTTGTCGGACAAACAATGCCCACGTTATTAGATGAAGACCTCACCAAAGATGGTATAGAAGCACTTTCTTCCCGCCCATTCCGAAATGTCAGCCGGCAGACAAGCAGACAGATGTCCTTATGTGGTACCCCAGAAAAGTCATCCTACCGACAGTTGTCCGTGTCTGATAGGTCTTCTATTAGGGTTGAGGAAATCATCCCTGCTGCTCGAGTTGCAATACAAACAATGGAAGTAAGTGATTTCACTTCTACTGTGGCTTGCTTCATGAGATTGTCATGGGCTGCGGCTGCAGGACGGCTTGATCTTGTTGGGAGTAGCCAGCCAATTAAAGAAAGTAATTCCCTGTGTCCTGCTGGAATTCGAAACAGACTCAGCAGTTCAGGAAGCAATTGCAGCTCTGGAAGTGAAGGAGAACCAGTAGCCCTGCATGCGGGAATCTGTGTTCGACAACAGTCTGTATCCACCAAAGACTCGCTGATTGCGGGAGAGGCTTTGTCTCTTCTTGTTACGTGCCTACAGCTTCGGAGCCAGCAACTGGCATCTTTCTATAACTTGCCCTGTGTTGCTGATTTCATCATTGATATTCTGCTCGGATCACCAAGTGCTGAGATTCGCCGGGTTGCCTGTGATCAGCTGTACACTCTTAGTCAGACAGACACATCAGCGCATCCAGATGTGCAGAAGCCAAATCAGTTTCTTCTAGGCGTAATCCTCACGGCTCAGCTGCCTCTCTGGTCTCCAACTAGTATTATGAGAGGAGTCAATCAGAGACTGTTATCTCAGTGTATGGAGTATTTTGATTTGAGATGCCAGTTATTAGATGATCTGACAACTTCAGAAATGGAGCAGTTAAGGATCAGCCCAGCTACGATGCTTGAAGATGAGATTACTTGGCTGGATAACTTTGAACCTAATCGTACAGCTGAATGTGAGACCAGTGAAGCGGACAACATCTTACTGGCAGGGCACTTACGCCTCATCAAGACCCTTCTTTCACTCTGTGGGGCAGAAAAGGAAATGCTTGGTTCATCACTCATTAAACCATTGTTAGATGACTTCCTTTTCCGAGCTTCTAGAATTATTTTAAATAGTCATTCTCCAGCTGGCAGTGCCGCCATCAGTCAACAGGACTTTCATCCAAAGTGTAGTACAGCGAATAGCCGATTGGCAGCCTATGAAGTCCTTGTGATGTTGGCTGATAGTTCACCTTCAAATCTTCAAATTATTATAAAAGAACTGCTTTCTATGCATCACCAGCCTGACCCTGCTCTTACCAAGGAGTTTGATTACCTTCCCCCAGTGGATAGCAGGTCCAGTTCAGGGTTTGTGGGGCTGAGAAATGGTGGTGCAACTTGTTATATGAATGCAGTCTTCCAGCAGCTGTATATGCAACCTGGGCTCCCTGAGTCATTACTTTCAGTGGATGATGACACAGACAATCCAGATGATAGCGTGTTTTACCAAGTGCAGTCTCTCTTTGGACATTTAATGGAAAGCAAGCTGCAGTACTATGTACCTGAGAATTTTTGGAAGATTTTCAAGATGTGGAATAAAGAACTTTATGTGAGAGAACAGCAGGATGCATATGAATTCTTTACTAGTCTCATTGATCAGATGGATGAATACCTCAAGAAAATGGGGAGAGACCAAATTTTTAAGAATACATTTCAGGGCATCTACTCTGATCAGAAGATCTGTAAAGACTGTCCTCACAGATATGAGCGTGAAGAAGCTTTCATGGCTCTCAATCTAGGAGTGACTTCTTGTCAGAGTTTGGAAATTTCTTTGGACCAATTTGTTAGAGGAGAAGTTCTAGAAGGAAGTAATGCGTACTACTGTGAAAAGTGTAAAGAAAAGAGAATAACAGTGAAAAGGACCTGTATTAAATCTTTACCTAGCGTCTTGGTAATTCACCTAATGAGATTTGGGTTTGACTGGGAAAGCGGACGCTCCATTAAATATGATGAACAAATAAGGTTTCCCTGGATGCTAAACATGGAGCCTTACACAGTTTCAGGAATGGCTCGCCAAGATTCTTCTTCTGAAGTTGGGGAAAATGGGCGAAGTGTGGATCAGGGCGGTGGAGGATCCCCACGAAAAAAGGTTGCCCTCACAGAAAACTATGAACTTGTCGGTGTCATCGTACACAGTGGGCAGGCACACGCAGGCCACTACTATTCCTTCATTAAGGACAGGCGAGGGTGTGGAAAAGGAAAGTGGTATAAATTTAATGACACAGTTATAGAAGAATTTGACCTAAATGACGAGACCCTGGAGTATGAATGCTTTGGAGGAGAATATAGACCAAAAGTTTATGATCAAACAAACCCATACACTGATGTGCGCCGAAGATACTGGAATGCCTATATGCTTTTCTACCAAAGGGTGTCTGATCAGAACTCCCCAGTATTACCAAAGAAAAGTCGAGTCAGCGTTGTACGGCAGGAAGCTGAGGATCTCTCTCTGTCAGCTCCATCTTCACCAGAAATTTCACCTCAGTCATCCCCTCGGCCCCATAGGCCGAACAATGACCGGCTGTCTATTCTTACCAAGCTGGTTAAAAAAGGCGAGAAGAAAGGACTGTTTGTGGAGAAAATGCCTGCTCGAATATACCAGATGGTGAGAGATGAGAACCTCAAGTTTATGAAGAATAGAGATGTATACAGTAGTGATTATTTCAGTTTTGTTTTGTCTTTAGCTTCATTGAATGCTACTAAATTAAAGCATCCATATTATCCTTGCATGGCAAAGGTGAGCTTACAGCTTGCTATTCAATTCCTTTTTCAAACTTATCTACGGACAAAGAAGAAACTCAGGGTTGATACTGAAGAATGGATTGCTACCATTGAAGCATTGCTTTCAAAAAGTTTTGATGCTTGTCAGTGGTTAGTTGAATATTTTATTAGTTCTGAAGGACGAGAATTGATAAAGATTTTCTTACTGGAGTGCAATGTGAGAGAAGTACGAGTTGCTGTGGCCACCATTCTGGAGAAAACCCTAGACAGTGCCTTGTTTTATCAGGATAAGTTAAAAAGCCTTCATCAGTTACTGGAGGTACTACTTGCTCTGTTGGACAAAGACGTCCCAGAAAATTGTAAAAACTGTGCTCAGTACTTTTTCCTGTTCAACACTTTTGTACAAAAGCAAGGAATTAGGGCTGGAGATCTTCTTCTGAGGCATTCAGCTCTGCGGCACATGATCAGCTTCCTCCTAGGGGCCAGTCGGCAAAACAATCAGATACGTCGATGGAGTTCAGCACAAGCACGAGAATTTGGGAATCTTCACAATACAGTGGCGTTACTTGTTTTGCATTCAGATGTCTCATCCCAAAGGAATGTTGCTCCTGGCATATTTAAGCAACGACCACCCATTAGCATTGCTCCCTCAAGCCCTCTGTTGCCCCTCCATGAGGAGGTAGAAGCCTTGTTGTTCATGTCTGAAGGGAAACCTTACCTGTTAGAGGTAATGTTTGCTTTGCGGGAGCTGACAGGCTCGCTCTTGGCACTCATTGAGATGGTAGTGTACTGCTGTTTCTGTAATGAGCATTTTTCCTTCACAATGCTGCATTTCATTAAGAACCAACTAGAAACGGCTCCACCTCATGAGTTAAAGAATACGTTCCAACTACTTCATGAAATATTGGTTATTGAAGATCCTATACAAGTAGAGCGAGTCAAATTTGTGTTTGAGACAGAAAATGGATTACTAGCTTTGATGCACCACAGTAATCATGTGGACAGTAGTCGCTGCTACCAGTGTGTCAAATTTCTTGTCACTCTTGCTCAAAAGTGTCCTGCAGCTAAGGAGTACTTCAAGGAGAATTCCCACCACTGGAGCTGGGCTGTGCAGTGGCTACAGAAGAAGATGTCAGAACATTACTGGACACCACAGAGTAATGTCTCTAATGAAACATCAACTGGAAAAACCTTTCAGCGAACCATTTCAGCTCAGGACACGTTAGCGTATGCCACAGCTTTGTTGAATGAAAAAGAGCAATCAGGAAGCAGTAATGGGTCGGAGAGTAGTCCTGCCAATGAGAACGGAGACAGGCATCTACAGCAGGTTACTGAAAGTCCCTCGTTTGCTCTCACCAGCCTTCCTGGAAATGTGGACTCTTGA
Amino sequence
MESEEEQHMTTLLCMGFSDPATIRKALRLAKNDINEAVALLTNERPGLDYGGYEPMDSGGGPSPGPGGGPRGDGGGDGGGGGPSRGGSTGGGGGFDPPPAYHEVVDAEKNDENGNCSGEGIEFPTTNLYELESRVLTDHWSIPYKREESLGKCLLASTYLARLGLSESDENCRRFMDRCMPEAFKKLLTSSAVHKWGTEIHEGIYNMLMLLIELVAERIKQDPIPTGLLGVLTMAFNPDNEYHFKNRMKVSQRNWAEVFGEGNMFAVSPVSTFQKEPHGWVVDLVNKFGELGGFAAIQAKLHSEDIELGAVSALIQPLGVCAEYLNSSVVQPMLDPVILTTIQDVRSVEEKDLKDKRLVSIPELLSAVKLLCMRFQPDLVTIVDDLRLDILLRMLKSPHFSAKMNSLKEVTKLIEDSTLSKSVKNAIDTDRLLDWLVENSVLSIALEGNIDQAQYCDRIKGIIELLGSKLSLDELTKIWKIQSGQSSTVIENIHTIIAAAAVKFNSDQLNHLFVLIQKSWETESDRVRQKLLSLIGRIGREARFETTSGKVLDVLWELAHLPTLPSSLIQQALEEHLTILSDAYAVKEAIKRSYIIKCIEDIKRPGEWSGLEKNKKDGFKSSQLNNPQFVWVVPALRQLHEITRSFIKQTYQKQDKSIIQDLKKNFEIVKLVTGSLIACHRLAAAVAGPGGLSGSTLVDGRYTYREYLEAHLKFLAFFLQEATLYLGWNRAKEIWECLVTGQDVCELDREMCFEWFTKGQHDLESDVQQQLFKEKILKLESYEITMNGFNLFKTFFENVNLCDHRLKRQGAQLYVEKLELIGMDFIWKIAMESPDEEIANEAIQLIINYSYINLNPRLKKDSVSLHKKFIADCYTRLEAASSALGGPTLTHAVTRATKMLTATAMPTVATSVQSPYRSTKLVIIERLLLLAERYVITIEDFYSVPRTILPHGASFHGHLLTLNVTYESTKDTFTVEAHSNETIGSVRWKIAKQLCSPVDNIQIFTNDSLLTVNKDQKLLHQLGFSDEQILTVKTSGSGTPSGSSADSSTSSSSSSSGVFSSSYAMEQEKSLPGVVMALVCNVFDMLYQLANLEEPRITLRVRKLLLLIPTDPAIQEALDQLDSLGRKKTLLSESSSQSSKSPSLSSKQQHQPSASSILESLFRSFAPGMSTFRVLYNLEVLSSKLMPTADDDMARSCAKSFCENFLKAGGLSLVVNVMQRDSIPSEVDYETRQGVYSICLQLARFLLVGQTMPTLLDEDLTKDGIEALSSRPFRNVSRQTSRQMSLCGTPEKSSYRQLSVSDRSSIRVEEIIPAARVAIQTMEVSDFTSTVACFMRLSWAAAAGRLDLVGSSQPIKESNSLCPAGIRNRLSSSGSNCSSGSEGEPVALHAGICVRQQSVSTKDSLIAGEALSLLVTCLQLRSQQLASFYNLPCVADFIIDILLGSPSAEIRRVACDQLYTLSQTDTSAHPDVQKPNQFLLGVILTAQLPLWSPTSIMRGVNQRLLSQCMEYFDLRCQLLDDLTTSEMEQLRISPATMLEDEITWLDNFEPNRTAECETSEADNILLAGHLRLIKTLLSLCGAEKEMLGSSLIKPLLDDFLFRASRIILNSHSPAGSAAISQQDFHPKCSTANSRLAAYEVLVMLADSSPSNLQIIIKELLSMHHQPDPALTKEFDYLPPVDSRSSSGFVGLRNGGATCYMNAVFQQLYMQPGLPESLLSVDDDTDNPDDSVFYQVQSLFGHLMESKLQYYVPENFWKIFKMWNKELYVREQQDAYEFFTSLIDQMDEYLKKMGRDQIFKNTFQGIYSDQKICKDCPHRYEREEAFMALNLGVTSCQSLEISLDQFVRGEVLEGSNAYYCEKCKEKRITVKRTCIKSLPSVLVIHLMRFGFDWESGRSIKYDEQIRFPWMLNMEPYTVSGMARQDSSSEVGENGRSVDQGGGGSPRKKVALTENYELVGVIVHSGQAHAGHYYSFIKDRRGCGKGKWYKFNDTVIEEFDLNDETLEYECFGGEYRPKVYDQTNPYTDVRRRYWNAYMLFYQRVSDQNSPVLPKKSRVSVVRQEAEDLSLSAPSSPEISPQSSPRPHRPNNDRLSILTKLVKKGEKKGLFVEKMPARIYQMVRDENLKFMKNRDVYSSDYFSFVLSLASLNATKLKHPYYPCMAKVSLQLAIQFLFQTYLRTKKKLRVDTEEWIATIEALLSKSFDACQWLVEYFISSEGRELIKIFLLECNVREVRVAVATILEKTLDSALFYQDKLKSLHQLLEVLLALLDKDVPENCKNCAQYFFLFNTFVQKQGIRAGDLLLRHSALRHMISFLLGASRQNNQIRRWSSAQAREFGNLHNTVALLVLHSDVSSQRNVAPGIFKQRPPISIAPSSPLLPLHEEVEALLFMSEGKPYLLEVMFALRELTGSLLALIEMVVYCCFCNEHFSFTMLHFIKNQLETAPPHELKNTFQLLHEILVIEDPIQVERVKFVFETENGLLALMHHSNHVDSSRCYQCVKFLVTLAQKCPAAKEYFKENSHHWSWAVQWLQKKMSEHYWTPQSNVSNETSTGKTFQRTISAQDTLAYATALLNEKEQSGSSNGSESSPANENGDRHLQQVTESPSFALTSLPGNVDS*