ENST00000484447.6 USP24

Information
Transcript ID
ENST00000484447.6
Genome
hg38
Position
chr1:55,071,268-55,215,378
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 55,071,268 55,071,490
67 55,071,814 55,071,924
66 55,072,317 55,072,403
65 55,072,786 55,072,861
64 55,073,828 55,073,906
63 55,075,457 55,075,523
62 55,077,235 55,077,300
61 55,078,538 55,078,651
60 55,079,538 55,079,659
59 55,081,322 55,081,424
58 55,083,272 55,083,364
57 55,083,772 55,083,888
56 55,085,942 55,086,038
55 55,089,627 55,089,740
54 55,092,023 55,092,126
53 55,092,821 55,092,916
52 55,093,937 55,094,087
51 55,095,255 55,095,396
50 55,096,498 55,096,622
49 55,096,952 55,097,172
48 55,097,598 55,097,717
47 55,097,943 55,098,084
46 55,098,476 55,098,558
45 55,099,771 55,099,869
44 55,100,839 55,100,964
43 55,101,584 55,101,703
42 55,103,876 55,104,020
41 55,106,146 55,106,263
40 55,107,239 55,107,430
39 55,110,185 55,110,246
38 55,120,596 55,120,756
37 55,121,436 55,121,506
36 55,123,447 55,123,602
35 55,124,469 55,124,628
34 55,125,320 55,125,548
33 55,125,663 55,125,758
32 55,129,477 55,129,574
31 55,132,545 55,132,700
30 55,134,070 55,134,163
29 55,134,328 55,134,413
28 55,137,515 55,137,688
27 55,137,806 55,137,904
26 55,138,608 55,138,718
25 55,138,944 55,139,010
24 55,141,616 55,141,731
23 55,142,742 55,142,795
22 55,142,979 55,143,119
21 55,144,127 55,144,203
20 55,145,998 55,146,109
19 55,146,929 55,147,060
18 55,147,649 55,147,798
17 55,148,463 55,148,570
16 55,153,870 55,153,917
15 55,154,119 55,154,280
14 55,154,371 55,154,466
13 55,154,671 55,154,778
12 55,156,948 55,157,051
11 55,157,256 55,157,370
10 55,158,878 55,159,036
9 55,159,611 55,159,685
8 55,162,199 55,162,264
7 55,165,885 55,165,950
6 55,166,568 55,166,603
5 55,171,556 55,171,678
4 55,172,377 55,172,520
3 55,176,376 55,176,443
2 55,177,967 55,178,132
1 55,214,790 55,215,378
CDS
Exon number Type Start Stop
68 CDS 55,071,434 55,071,490
67 CDS 55,071,814 55,071,924
66 CDS 55,072,317 55,072,403
65 CDS 55,072,786 55,072,861
64 CDS 55,073,828 55,073,906
63 CDS 55,075,457 55,075,523
62 CDS 55,077,235 55,077,300
61 CDS 55,078,538 55,078,651
60 CDS 55,079,538 55,079,659
59 CDS 55,081,322 55,081,424
58 CDS 55,083,272 55,083,364
57 CDS 55,083,772 55,083,888
56 CDS 55,085,942 55,086,038
55 CDS 55,089,627 55,089,740
54 CDS 55,092,023 55,092,126
53 CDS 55,092,821 55,092,916
52 CDS 55,093,937 55,094,087
51 CDS 55,095,255 55,095,396
50 CDS 55,096,498 55,096,622
49 CDS 55,096,952 55,097,172
48 CDS 55,097,598 55,097,717
47 CDS 55,097,943 55,098,084
46 CDS 55,098,476 55,098,558
45 CDS 55,099,771 55,099,869
44 CDS 55,100,839 55,100,964
43 CDS 55,101,584 55,101,703
42 CDS 55,103,876 55,104,020
41 CDS 55,106,146 55,106,263
40 CDS 55,107,239 55,107,430
39 CDS 55,110,185 55,110,246
38 CDS 55,120,596 55,120,756
37 CDS 55,121,436 55,121,506
36 CDS 55,123,447 55,123,602
35 CDS 55,124,469 55,124,628
34 CDS 55,125,320 55,125,548
33 CDS 55,125,663 55,125,758
32 CDS 55,129,477 55,129,574
31 CDS 55,132,545 55,132,700
30 CDS 55,134,070 55,134,163
29 CDS 55,134,328 55,134,413
28 CDS 55,137,515 55,137,688
27 CDS 55,137,806 55,137,904
26 CDS 55,138,608 55,138,718
25 CDS 55,138,944 55,139,010
24 CDS 55,141,616 55,141,731
23 CDS 55,142,742 55,142,795
22 CDS 55,142,979 55,143,119
21 CDS 55,144,127 55,144,203
20 CDS 55,145,998 55,146,109
19 CDS 55,146,929 55,147,060
18 CDS 55,147,649 55,147,798
17 CDS 55,148,463 55,148,570
16 CDS 55,153,870 55,153,917
15 CDS 55,154,119 55,154,280
14 CDS 55,154,371 55,154,466
13 CDS 55,154,671 55,154,778
12 CDS 55,156,948 55,157,051
11 CDS 55,157,256 55,157,370
10 CDS 55,158,878 55,159,036
9 CDS 55,159,611 55,159,685
8 CDS 55,162,199 55,162,264
7 CDS 55,165,885 55,165,950
6 CDS 55,166,568 55,166,603
5 CDS 55,171,556 55,171,678
4 CDS 55,172,377 55,172,520
3 CDS 55,176,376 55,176,443
2 CDS 55,177,967 55,178,132
1 CDS 55,214,790 55,215,113
Other genome
Genome Chromosome Start End Links
hg19 chr1 55,536,941 55,681,051 Link
CDS sequence
ATGGAATCGGAGGAGGAGCAGCACATGACCACGCTGCTGTGCATGGGCTTCTCAGACCCCGCCACCATCCGCAAGGCCCTGCGCCTGGCCAAGAACGACATTAACGAGGCCGTGGCACTGCTCACCAACGAGCGGCCGGGCCTCGACTACGGCGGCTACGAGCCCATGGACAGCGGCGGTGGCCCCAGCCCCGGGCCCGGCGGGGGCCCGCGGGGCGACGGCGGAGGTGACGGCGGCGGCGGCGGCCCCTCCCGCGGCGGGAGCACCGGAGGCGGGGGCGGCTTCGACCCCCCGCCCGCCTACCACGAGGTGGTGGACGCGGAGAAGAATGATGAGAATGGAAACTGCTCAGGGGAAGGAATTGAATTCCCTACAACAAATTTATATGAACTGGAAAGCCGTGTTTTGACTGATCATTGGTCCATCCCTTACAAGCGAGAAGAATCACTAGGCAAATGCCTGTTGGCATCTACCTACCTAGCAAGACTTGGTCTTTCCGAGTCTGATGAGAATTGTAGAAGGTTTATGGACAGGTGTATGCCTGAAGCATTTAAAAAGCTCCTGACATCAAGTGCTGTTCACAAGTGGGGTACTGAAATTCATGAAGGAATTTACAACATGTTGATGCTATTAATAGAACTGGTCGCAGAGAGAATAAAACAAGATCCAATTCCCACTGGTCTCCTGGGTGTGCTTACAATGGCTTTCAATCCTGATAATGAATACCATTTTAAAAACAGAATGAAAGTGTCTCAAAGGAATTGGGCAGAAGTGTTTGGAGAGGGAAATATGTTTGCTGTTTCACCTGTATCGACTTTCCAAAAGGAGCCTCATGGATGGGTTGTGGATTTGGTAAATAAGTTTGGAGAATTAGGTGGATTTGCAGCAATCCAAGCCAAGCTCCATTCAGAAGATATAGAACTTGGGGCTGTCTCAGCACTGATTCAGCCCTTAGGAGTGTGTGCAGAGTACCTCAATTCCTCCGTGGTACAGCCCATGCTAGACCCAGTCATTCTTACTACAATCCAGGATGTACGGAGTGTAGAAGAGAAAGACCTCAAAGACAAGAGATTGGTTAGCATCCCTGAGCTCTTGTCTGCCGTTAAGTTACTTTGCATGCGCTTCCAACCGGATCTGGTGACAATTGTGGATGACCTTCGACTAGATATTCTATTGCGCATGCTGAAATCACCACATTTCAGTGCTAAGATGAATTCTCTCAAAGAAGTAACCAAACTAATAGAAGATAGCACTTTATCCAAATCTGTGAAGAATGCTATAGATACAGACAGATTATTAGATTGGCTAGTTGAAAACTCAGTTCTGTCGATTGCACTGGAAGGCAACATAGACCAAGCACAATACTGTGACCGTATAAAGGGAATTATTGAACTCTTGGGTAGTAAATTGTCGTTAGATGAACTCACTAAAATTTGGAAGATACAGTCAGGACAATCATCTACTGTGATTGAGAACATTCATACTATTATTGCTGCAGCGGCTGTGAAATTTAATTCAGATCAGCTTAATCATTTGTTTGTTCTCATTCAGAAGAGCTGGGAGACTGAGAGTGATAGAGTAAGACAGAAGCTTTTGAGCCTGATTGGACGAATAGGCCGGGAAGCTCGCTTTGAGACCACTTCTGGAAAGGTTTTAGACGTACTCTGGGAACTGGCTCACCTTCCAACCCTGCCCAGTAGCCTTATTCAGCAGGCCTTGGAGGAGCACCTGACAATCCTTAGTGATGCATATGCAGTGAAAGAAGCAATCAAGAGGAGCTACATCATCAAGTGCATAGAAGATATTAAGAGGCCTGGAGAATGGTCAGGTTTGGAAAAAAACAAGAAGGATGGATTCAAGTCATCTCAGCTTAATAATCCCCAGTTTGTATGGGTGGTACCAGCTTTGCGTCAGCTCCATGAAATTACTCGCTCATTCATAAAACAAACCTATCAAAAGCAAGACAAGAGCATTATTCAAGACTTGAAGAAGAATTTTGAAATAGTGAAATTGGTAACGGGAAGTTTGATCGCTTGTCATCGGCTTGCAGCTGCTGTGGCCGGGCCTGGAGGCTTAAGTGGCTCGACACTAGTGGATGGCCGGTACACTTACCGGGAGTATTTAGAGGCACATCTAAAATTTCTAGCGTTTTTCTTGCAAGAAGCTACTCTGTATCTGGGCTGGAATCGTGCCAAGGAGATCTGGGAGTGTCTTGTAACTGGCCAGGATGTTTGTGAATTAGATAGAGAGATGTGTTTTGAATGGTTTACAAAAGGACAGCATGATCTTGAGAGTGATGTTCAGCAGCAGCTCTTCAAGGAGAAAATTCTTAAATTGGAGTCATATGAAATCACTATGAATGGTTTTAACTTATTTAAAACTTTTTTTGAAAATGTGAATCTTTGTGATCATCGATTGAAAAGACAAGGAGCTCAGTTGTATGTAGAAAAGCTGGAATTGATAGGAATGGATTTCATTTGGAAAATAGCCATGGAATCACCTGATGAAGAAATTGCTAATGAAGCTATTCAGCTAATCATAAACTATAGTTACATTAATCTAAATCCTAGATTAAAGAAGGATTCAGTATCTTTACATAAGAAATTCATTGCTGATTGCTACACAAGATTAGAAGCAGCCAGTTCAGCACTTGGTGGCCCCACTCTAACACATGCTGTGACCAGAGCAACAAAAATGCTTACAGCAACTGCCATGCCAACTGTAGCAACCTCAGTTCAGTCTCCTTATAGATCTACTAAACTTGTAATAATTGAGAGATTGCTGCTTCTGGCAGAGCGCTATGTGATCACTATAGAGGATTTTTACTCTGTTCCACGAACTATTCTACCTCATGGTGCCTCATTTCATGGACATCTTTTAACCCTTAATGTTACCTATGAGTCTACCAAAGATACCTTCACTGTCGAGGCTCACAGTAATGAAACCATAGGGAGTGTCCGGTGGAAAATAGCCAAGCAGTTGTGCTCTCCTGTGGATAATATACAGATATTTACAAATGATAGCCTGCTGACAGTGAATAAAGATCAAAAGCTACTCCACCAACTGGGCTTTTCTGATGAACAAATCCTTACAGTGAAGACTTCTGGCAGTGGGACCCCATCTGGGAGTTCAGCAGATTCTTCAACCAGCTCCAGCAGCAGCAGCAGTGGGGTTTTTAGTTCTTCATATGCCATGGAGCAGGAGAAATCCCTCCCTGGTGTAGTGATGGCTCTCGTATGTAACGTATTTGACATGCTTTATCAGCTCGCCAATCTGGAAGAGCCAAGGATAACTCTACGAGTACGGAAGCTTCTGCTCTTGATACCCACTGATCCAGCCATTCAGGAAGCCCTTGATCAACTTGATTCTTTAGGAAGAAAGAAAACATTGCTGTCTGAATCAAGTTCTCAGTCCTCAAAATCTCCATCCCTGTCATCAAAGCAACAGCACCAGCCAAGTGCCAGTTCAATTTTAGAAAGTCTGTTTCGATCTTTTGCCCCGGGAATGTCTACCTTCAGAGTGCTCTACAACTTAGAAGTTCTAAGCTCCAAACTCATGCCAACAGCTGATGATGACATGGCCAGAAGCTGTGCCAAATCCTTCTGTGAAAACTTCCTCAAAGCTGGCGGTTTGAGTTTGGTTGTAAATGTCATGCAGAGAGACTCCATCCCATCAGAAGTAGACTATGAAACAAGGCAGGGTGTTTATTCCATCTGTCTACAGCTTGCAAGATTTTTACTTGTCGGACAAACAATGCCCACGTTATTAGATGAAGACCTCACCAAAGATGGTATAGAAGCACTTTCTTCCCGCCCATTCCGAAATGTCAGCCGGCAGACAAGCAGACAGATGTCCTTATGTGGTACCCCAGAAAAGTCATCCTACCGACAGTTGTCCGTGTCTGATAGGTCTTCTATTAGGGTTGAGGAAATCATCCCTGCTGCTCGAGTTGCAATACAAACAATGGAAGTAAGTGATTTCACTTCTACTGTGGCTTGCTTCATGAGATTGTCATGGGCTGCGGCTGCAGGACGGCTTGATCTTGTTGGGAGTAGCCAGCCAATTAAAGAAAGTAATTCCCTGTGTCCTGCTGGAATTCGAAACAGACTCAGCAGTTCAGGAAGCAATTGCAGCTCTGGAAGTGAAGGAGAACCAGTAGCCCTGCATGCGGGAATCTGTGTTCGACAACAGTCTGTATCCACCAAAGACTCGCTGATTGCGGGAGAGGCTTTGTCTCTTCTTGTTACGTGCCTACAGCTTCGGAGCCAGCAACTGGCATCTTTCTATAACTTGCCCTGTGTTGCTGATTTCATCATTGATATTCTGCTCGGATCACCAAGTGCTGAGATTCGCCGGGTTGCCTGTGATCAGCTGTACACTCTTAGTCAGACAGACACATCAGCGCATCCAGATGTGCAGAAGCCAAATCAGTTTCTTCTAGGCGTAATCCTCACGGCTCAGCTGCCTCTCTGGTCTCCAACTAGTATTATGAGAGGAGTCAATCAGAGACTGTTATCTCAGTGTATGGAGTATTTTGATTTGAGATGCCAGTTATTAGATGATCTGACAACTTCAGAAATGGAGCAGTTAAGGATCAGCCCAGCTACGATGCTTGAAGATGAGATTACTTGGCTGGATAACTTTGAACCTAATCGTACAGCTGAATGTGAGACCAGTGAAGCGGACAACATCTTACTGGCAGGGCACTTACGCCTCATCAAGACCCTTCTTTCACTCTGTGGGGCAGAAAAGGAAATGCTTGGTTCATCACTCATTAAACCATTGTTAGATGACTTCCTTTTCCGAGCTTCTAGAATTATTTTAAATAGTCATTCTCCAGCTGGCAGTGCCGCCATCAGTCAACAGGACTTTCATCCAAAGTGTAGTACAGCGAATAGCCGATTGGCAGCCTATGAAGTCCTTGTGATGTTGGCTGATAGTTCACCTTCAAATCTTCAAATTATTATAAAAGAACTGCTTTCTATGCATCACCAGCCTGACCCTGCTCTTACCAAGGAGTTTGATTACCTTCCCCCAGTGGATAGCAGGTCCAGTTCAGGGTTTGTGGGGCTGAGAAATGGTGGTGCAACTTGTTATATGAATGCAGTCTTCCAGCAGCTGTATATGCAACCTGGGCTCCCTGAGTCATTACTTTCAGTGGATGATGACACAGACAATCCAGATGATAGCGTGTTTTACCAAGTGCAGTCTCTCTTTGGACATTTAATGGAAAGCAAGCTGCAGTACTATGTACCTGAGAATTTTTGGAAGATTTTCAAGATGTGGAATAAAGAACTTTATGTGAGAGAACAGCAGGATGCATATGAATTCTTTACTAGTCTCATTGATCAGATGGATGAATACCTCAAGAAAATGGGGAGAGACCAAATTTTTAAGAATACATTTCAGGGCATCTACTCTGATCAGAAGATCTGTAAAGACTGTCCTCACAGATATGAGCGTGAAGAAGCTTTCATGGCTCTCAATCTAGGAGTGACTTCTTGTCAGAGTTTGGAAATTTCTTTGGACCAATTTGTTAGAGGAGAAGTTCTAGAAGGAAGTAATGCGTACTACTGTGAAAAGTGTAAAGAAAAGAGAATAACAGTGAAAAGGACCTGTATTAAATCTTTACCTAGCGTCTTGGTAATTCACCTAATGAGATTTGGGTTTGACTGGGAAAGCGGACGCTCCATTAAATATGATGAACAAATAAGGTTTCCCTGGATGCTAAACATGGAGCCTTACACAGTTTCAGGAATGGCTCGCCAAGATTCTTCTTCTGAAGTTGGGGAAAATGGGCGAAGTGTGGATCAGGGCGGTGGAGGATCCCCACGAAAAAAGGTTGCCCTCACAGAAAACTATGAACTTGTCGGTGTCATCGTACACAGTGGGCAGGCACACGCAGGCCACTACTATTCCTTCATTAAGGACAGGCGAGGGTGTGGAAAAGGAAAGTGGTATAAATTTAATGACACAGTTATAGAAGAATTTGACCTAAATGACGAGACCCTGGAGTATGAATGCTTTGGAGGAGAATATAGACCAAAAGTTTATGATCAAACAAACCCATACACTGATGTGCGCCGAAGATACTGGAATGCCTATATGCTTTTCTACCAAAGGGTGTCTGATCAGAACTCCCCAGTATTACCAAAGAAAAGTCGAGTCAGCGTTGTACGGCAGGAAGCTGAGGATCTCTCTCTGTCAGCTCCATCTTCACCAGAAATTTCACCTCAGTCATCCCCTCGGCCCCATAGGCCGAACAATGACCGGCTGTCTATTCTTACCAAGCTGGTTAAAAAAGGCGAGAAGAAAGGACTGTTTGTGGAGAAAATGCCTGCTCGAATATACCAGATGGTGAGAGATGAGAACCTCAAGTTTATGAAGAATAGAGATGTATACAGTAGTGATTATTTCAGTTTTGTTTTGTCTTTAGCTTCATTGAATGCTACTAAATTAAAGCATCCATATTATCCTTGCATGGCAAAGGTGAGCTTACAGCTTGCTATTCAATTCCTTTTTCAAACTTATCTACGGACAAAGAAGAAACTCAGGGTTGATACTGAAGAATGGATTGCTACCATTGAAGCATTGCTTTCAAAAAGTTTTGATGCTTGTCAGTGGTTAGTTGAATATTTTATTAGTTCTGAAGGACGAGAATTGATAAAGATTTTCTTACTGGAGTGCAATGTGAGAGAAGTACGAGTTGCTGTGGCCACCATTCTGGAGAAAACCCTAGACAGTGCCTTGTTTTATCAGGATAAGTTAAAAAGCCTTCATCAGTTACTGGAGGTACTACTTGCTCTGTTGGACAAAGACGTCCCAGAAAATTGTAAAAACTGTGCTCAGTACTTTTTCCTGTTCAACACTTTTGTACAAAAGCAAGGAATTAGGGCTGGAGATCTTCTTCTGAGGCATTCAGCTCTGCGGCACATGATCAGCTTCCTCCTAGGGGCCAGTCGGCAAAACAATCAGATACGTCGATGGAGTTCAGCACAAGCACGAGAATTTGGGAATCTTCACAATACAGTGGCGTTACTTGTTTTGCATTCAGATGTCTCATCCCAAAGGAATGTTGCTCCTGGCATATTTAAGCAACGACCACCCATTAGCATTGCTCCCTCAAGCCCTCTGTTGCCCCTCCATGAGGAGGTAGAAGCCTTGTTGTTCATGTCTGAAGGGAAACCTTACCTGTTAGAGGTAATGTTTGCTTTGCGGGAGCTGACAGGCTCGCTCTTGGCACTCATTGAGATGGTAGTGTACTGCTGTTTCTGTAATGAGCATTTTTCCTTCACAATGCTGCATTTCATTAAGAACCAACTAGAAACGGCTCCACCTCATGAGTTAAAGAATACGTTCCAACTACTTCATGAAATATTGGTTATTGAAGATCCTATACAAGTAGAGCGAGTCAAATTTGTGTTTGAGACAGAAAATGGATTACTAGCTTTGATGCACCACAGTAATCATGTGGACAGTAGTCGCTGCTACCAGTGTGTCAAATTTCTTGTCACTCTTGCTCAAAAGTGTCCTGCAGCTAAGGAGTACTTCAAGGAGAATTCCCACCACTGGAGCTGGGCTGTGCAGTGGCTACAGAAGAAGATGTCAGAACATTACTGGACACCACAGAGTAATGTCTCTAATGAAACATCAACTGGAAAAACCTTTCAGCGAACCATTTCAGCTCAGGACACGTTAGCGTATGCCACAGCTTTGTTGAATGAAAAAGAGCAATCAGGAAGCAGTAATGGGTCGGAGAGTAGTCCTGCCAATGAGAACGGAGACAGGCATCTACAGCAGGTTACTGAAAGTCCCTCGTTTGCTCTCACCAGCCTTCCTGGAAATGTGGACTCTTGA
Amino sequence
MESEEEQHMTTLLCMGFSDPATIRKALRLAKNDINEAVALLTNERPGLDYGGYEPMDSGGGPSPGPGGGPRGDGGGDGGGGGPSRGGSTGGGGGFDPPPAYHEVVDAEKNDENGNCSGEGIEFPTTNLYELESRVLTDHWSIPYKREESLGKCLLASTYLARLGLSESDENCRRFMDRCMPEAFKKLLTSSAVHKWGTEIHEGIYNMLMLLIELVAERIKQDPIPTGLLGVLTMAFNPDNEYHFKNRMKVSQRNWAEVFGEGNMFAVSPVSTFQKEPHGWVVDLVNKFGELGGFAAIQAKLHSEDIELGAVSALIQPLGVCAEYLNSSVVQPMLDPVILTTIQDVRSVEEKDLKDKRLVSIPELLSAVKLLCMRFQPDLVTIVDDLRLDILLRMLKSPHFSAKMNSLKEVTKLIEDSTLSKSVKNAIDTDRLLDWLVENSVLSIALEGNIDQAQYCDRIKGIIELLGSKLSLDELTKIWKIQSGQSSTVIENIHTIIAAAAVKFNSDQLNHLFVLIQKSWETESDRVRQKLLSLIGRIGREARFETTSGKVLDVLWELAHLPTLPSSLIQQALEEHLTILSDAYAVKEAIKRSYIIKCIEDIKRPGEWSGLEKNKKDGFKSSQLNNPQFVWVVPALRQLHEITRSFIKQTYQKQDKSIIQDLKKNFEIVKLVTGSLIACHRLAAAVAGPGGLSGSTLVDGRYTYREYLEAHLKFLAFFLQEATLYLGWNRAKEIWECLVTGQDVCELDREMCFEWFTKGQHDLESDVQQQLFKEKILKLESYEITMNGFNLFKTFFENVNLCDHRLKRQGAQLYVEKLELIGMDFIWKIAMESPDEEIANEAIQLIINYSYINLNPRLKKDSVSLHKKFIADCYTRLEAASSALGGPTLTHAVTRATKMLTATAMPTVATSVQSPYRSTKLVIIERLLLLAERYVITIEDFYSVPRTILPHGASFHGHLLTLNVTYESTKDTFTVEAHSNETIGSVRWKIAKQLCSPVDNIQIFTNDSLLTVNKDQKLLHQLGFSDEQILTVKTSGSGTPSGSSADSSTSSSSSSSGVFSSSYAMEQEKSLPGVVMALVCNVFDMLYQLANLEEPRITLRVRKLLLLIPTDPAIQEALDQLDSLGRKKTLLSESSSQSSKSPSLSSKQQHQPSASSILESLFRSFAPGMSTFRVLYNLEVLSSKLMPTADDDMARSCAKSFCENFLKAGGLSLVVNVMQRDSIPSEVDYETRQGVYSICLQLARFLLVGQTMPTLLDEDLTKDGIEALSSRPFRNVSRQTSRQMSLCGTPEKSSYRQLSVSDRSSIRVEEIIPAARVAIQTMEVSDFTSTVACFMRLSWAAAAGRLDLVGSSQPIKESNSLCPAGIRNRLSSSGSNCSSGSEGEPVALHAGICVRQQSVSTKDSLIAGEALSLLVTCLQLRSQQLASFYNLPCVADFIIDILLGSPSAEIRRVACDQLYTLSQTDTSAHPDVQKPNQFLLGVILTAQLPLWSPTSIMRGVNQRLLSQCMEYFDLRCQLLDDLTTSEMEQLRISPATMLEDEITWLDNFEPNRTAECETSEADNILLAGHLRLIKTLLSLCGAEKEMLGSSLIKPLLDDFLFRASRIILNSHSPAGSAAISQQDFHPKCSTANSRLAAYEVLVMLADSSPSNLQIIIKELLSMHHQPDPALTKEFDYLPPVDSRSSSGFVGLRNGGATCYMNAVFQQLYMQPGLPESLLSVDDDTDNPDDSVFYQVQSLFGHLMESKLQYYVPENFWKIFKMWNKELYVREQQDAYEFFTSLIDQMDEYLKKMGRDQIFKNTFQGIYSDQKICKDCPHRYEREEAFMALNLGVTSCQSLEISLDQFVRGEVLEGSNAYYCEKCKEKRITVKRTCIKSLPSVLVIHLMRFGFDWESGRSIKYDEQIRFPWMLNMEPYTVSGMARQDSSSEVGENGRSVDQGGGGSPRKKVALTENYELVGVIVHSGQAHAGHYYSFIKDRRGCGKGKWYKFNDTVIEEFDLNDETLEYECFGGEYRPKVYDQTNPYTDVRRRYWNAYMLFYQRVSDQNSPVLPKKSRVSVVRQEAEDLSLSAPSSPEISPQSSPRPHRPNNDRLSILTKLVKKGEKKGLFVEKMPARIYQMVRDENLKFMKNRDVYSSDYFSFVLSLASLNATKLKHPYYPCMAKVSLQLAIQFLFQTYLRTKKKLRVDTEEWIATIEALLSKSFDACQWLVEYFISSEGRELIKIFLLECNVREVRVAVATILEKTLDSALFYQDKLKSLHQLLEVLLALLDKDVPENCKNCAQYFFLFNTFVQKQGIRAGDLLLRHSALRHMISFLLGASRQNNQIRRWSSAQAREFGNLHNTVALLVLHSDVSSQRNVAPGIFKQRPPISIAPSSPLLPLHEEVEALLFMSEGKPYLLEVMFALRELTGSLLALIEMVVYCCFCNEHFSFTMLHFIKNQLETAPPHELKNTFQLLHEILVIEDPIQVERVKFVFETENGLLALMHHSNHVDSSRCYQCVKFLVTLAQKCPAAKEYFKENSHHWSWAVQWLQKKMSEHYWTPQSNVSNETSTGKTFQRTISAQDTLAYATALLNEKEQSGSSNGSESSPANENGDRHLQQVTESPSFALTSLPGNVDS*