Fungal Genomics

at Utrecht University

General Properties

Protein IDAni_SJS100_1|g9432.t1
Gene name
Locationscaffold_086:22622..26745
Strand+
Gene length (bp)4123
Transcript length (bp)3099
Coding sequence length (bp)3099
Protein length (aa) 1033

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PFAM Domains

PFAM Domain ID Short name Long name E-value Start End
PF07690 MFS_1 Major Facilitator Superfamily 1.6E-35 76 457
PF00083 Sugar_tr Sugar (and other) transporter 1.8E-10 107 285
PF04082 Fungal_trans Fungal specific transcription factor domain 6.2E-06 631 766
PF00172 Zn_clus Fungal Zn(2)-Cys(6) binuclear cluster domain 1.5E-04 507 534

GO

GO Term Description Terminal node
GO:0016021 integral component of membrane Yes
GO:0006351 transcription, DNA-templated Yes
GO:0008270 zinc ion binding Yes
GO:0000981 DNA-binding transcription factor activity, RNA polymerase II-specific Yes
GO:0022857 transmembrane transporter activity Yes
GO:0003677 DNA binding Yes
GO:0055085 transmembrane transport Yes
GO:0006355 regulation of transcription, DNA-templated Yes
GO:1903506 regulation of nucleic acid-templated transcription No
GO:0008152 metabolic process No
GO:0051252 regulation of RNA metabolic process No
GO:0003700 DNA-binding transcription factor activity No
GO:0009987 cellular process No
GO:1901363 heterocyclic compound binding No
GO:0050794 regulation of cellular process No
GO:0006810 transport No
GO:0051171 regulation of nitrogen compound metabolic process No
GO:0065007 biological regulation No
GO:0031326 regulation of cellular biosynthetic process No
GO:0019219 regulation of nucleobase-containing compound metabolic process No
GO:0043170 macromolecule metabolic process No
GO:0097659 nucleic acid-templated transcription No
GO:0090304 nucleic acid metabolic process No
GO:0043167 ion binding No
GO:1901360 organic cyclic compound metabolic process No
GO:0016070 RNA metabolic process No
GO:0031323 regulation of cellular metabolic process No
GO:0140110 transcription regulator activity No
GO:0071704 organic substance metabolic process No
GO:0003674 molecular_function No
GO:0044249 cellular biosynthetic process No
GO:0044238 primary metabolic process No
GO:0060255 regulation of macromolecule metabolic process No
GO:0050789 regulation of biological process No
GO:0010556 regulation of macromolecule biosynthetic process No
GO:0043169 cation binding No
GO:0044271 cellular nitrogen compound biosynthetic process No
GO:1901362 organic cyclic compound biosynthetic process No
GO:0009889 regulation of biosynthetic process No
GO:0003676 nucleic acid binding No
GO:0009059 macromolecule biosynthetic process No
GO:0005488 binding No
GO:0005215 transporter activity No
GO:0097159 organic cyclic compound binding No
GO:0018130 heterocycle biosynthetic process No
GO:0005575 cellular_component No
GO:0006139 nucleobase-containing compound metabolic process No
GO:0046872 metal ion binding No
GO:0031224 intrinsic component of membrane No
GO:0008150 biological_process No
GO:0046483 heterocycle metabolic process No
GO:0006807 nitrogen compound metabolic process No
GO:0006725 cellular aromatic compound metabolic process No
GO:0019438 aromatic compound biosynthetic process No
GO:0051234 establishment of localization No
GO:0032774 RNA biosynthetic process No
GO:0010468 regulation of gene expression No
GO:0051179 localization No
GO:0080090 regulation of primary metabolic process No
GO:0034641 cellular nitrogen compound metabolic process No
GO:2001141 regulation of RNA biosynthetic process No
GO:0044237 cellular metabolic process No
GO:0034654 nucleobase-containing compound biosynthetic process No
GO:0009058 biosynthetic process No
GO:0046914 transition metal ion binding No
GO:0019222 regulation of metabolic process No
GO:0110165 cellular anatomical entity No
GO:1901576 organic substance biosynthetic process No

SignalP

[Help with interpreting these statistics]
SignalP signal predicted Location
(based on Ymax)		 D score
(significance: > 0.45)
No 1 - 68 0.45

Transmembrane Domains

Domain # Start End Length
1 69 91 22
2 106 125 19
3 132 151 19
4 161 183 22
5 195 217 22
6 227 246 19
7 302 321 19
8 336 358 22
9 379 398 19
10 413 435 22
11 471 493 22

Transcription Factor Class

Transcription Factor Class
(based on PFAM domains)
Fungal Specific TF

Expression data

No expression data available for this genome

Sequences

Type of sequenceSequence
Locus Download genbank file of locus
The gene with 5 kb flanks (if sufficient flanking sequence is available). For use in cloning design programs. NOTE: features (genes or exons) that are only partially contained within the sequence are completely excluded.
Protein >Ani_SJS100_1|g9432.t1
MSNLRDSETSSQISQTLEADVEKCPGQLPSMGQGKVFPPALPNREDYVVDFDGPDDPEHPFNWPLPTKLLISMIA
CFATFIPSFASGVFAPGSEEAAKAFNVGSKVGILGTTLFVLGFASGPVLWAPASELFGRRWPLTLGLLGGAVFTI
TSAVSKDIQTLIICRFFAGMFGASPLAVVPAVLSDIWNNSHRGAAISVYALFVFVGPLSAPFIGGFITASSLGWR
WTLYIPAFVGFAWGAISVFFLRETYASCLLLSKAVTLRRLTGNWGVHAKQEEVEVDIQQLIQKYFTRPLRMLVTE
PIILVISLYMSFIYGIVYALLEAYPYVFESVYGMSMGIDGLPFIGIIIGQLAACGFILSQQSAYVKKLAANNNVP
IPEWRLETVVIGAPVFTAGIFWFSWTGFTASIHWMAPTAAGVLIGFGILCIFLPCFNYLVDSFLPVAASTVAANI
ILRSSVAAGFPLFSKQMFANLGVQWAGTLLGCLSAIMIPIPFLFRAYGPRLRGEGRQNSRKCNGESPCSTCTSWG
YECHYQAPRRVRGKPADRGSSIHDQNEPILESSPRQVGRFTETLEANSGAAFVRKIGLKVDPANAPKLNLFGWNV
GRRKSPTGLAPVAAFPIVEILSLMQMRTLANVYFAKIDPCYGFIDSNDFFRRMDSRWQPNAVASTYDGVLAGVAA
LGCLFSGTNINITESHLVELARSISETHIGSVRPSLHLVTIWTLRVVYLRMTAPPYPSWVASSTLMHLIEASKLH
QLSANDDRDIDTRRRLIGVAQHLNLWISYDLGLSRVPLGDTLGLPSARPGDFTTELLGLLPVTASLGPENQRPDQ
EIEELLYQTLDRTHTKPPSLLCQCNLVLCLLRRLRLTNLTASPTTMTKVLDLLRRSLSAAREMVAECSPWHHVPN
VPFQMISIILEMDTSPALELLPEAMQTLRVVASTYDTETMREAYNTACLLILLYERRRRADTRLLSTVLQEYQQS
PATESPLQQMPTSDEVSWLEGLVADVPTLQGLDFSQFLQPDMLRMSPDASAWGNKSG*
Coding >Ani_SJS100_1|g9432.t1
ATGAGTAACCTGCGAGATAGTGAAACCAGCAGCCAGATCTCCCAAACACTAGAGGCTGATGTTGAAAAATGCCCG
GGGCAGCTTCCGTCCATGGGACAGGGCAAAGTCTTTCCTCCTGCCCTGCCGAATCGGGAAGACTATGTCGTCGAT
TTCGATGGCCCCGACGATCCAGAACATCCTTTCAATTGGCCACTTCCTACCAAACTCCTCATCTCGATGATAGCC
TGCTTTGCCACGTTTATCCCTTCATTCGCCAGTGGAGTTTTTGCACCCGGCTCCGAAGAAGCAGCCAAGGCTTTC
AATGTAGGATCTAAAGTTGGCATTCTCGGTACAACCCTCTTCGTTCTAGGATTCGCCTCCGGTCCTGTCCTTTGG
GCCCCCGCTTCGGAGCTGTTTGGAAGACGATGGCCATTGACACTGGGCTTGCTCGGAGGAGCCGTGTTCACCATT
ACATCCGCCGTGTCCAAAGACATCCAGACGCTCATTATTTGTCGCTTCTTTGCGGGGATGTTTGGGGCCAGCCCA
CTCGCGGTGGTTCCTGCTGTGCTCTCGGACATTTGGAACAATTCGCACCGCGGGGCGGCTATTTCCGTGTATGCG
CTCTTCGTGTTCGTGGGTCCGTTAAGTGCCCCCTTTATTGGAGGCTTCATCACTGCCAGCTCGCTCGGATGGCGG
TGGACCCTGTATATTCCGGCGTTTGTTGGCTTTGCTTGGGGTGCTATCAGCGTGTTCTTCTTGAGAGAGACCTAC
GCGTCTTGCCTTCTCCTGTCGAAAGCAGTCACTCTACGGCGGCTAACTGGTAATTGGGGTGTTCATGCTAAACAG
GAGGAGGTCGAGGTGGACATACAGCAGCTGATTCAGAAATATTTCACCCGTCCGCTGCGTATGCTGGTAACTGAG
CCTATCATTTTGGTTATCTCCCTCTATATGTCCTTCATCTATGGGATTGTGTATGCGCTTCTTGAAGCGTACCCG
TATGTTTTTGAGTCCGTTTACGGCATGAGCATGGGGATCGATGGCCTTCCATTTATTGGCATCATTATTGGGCAG
CTGGCTGCTTGTGGGTTCATTCTCTCGCAGCAGTCCGCCTATGTGAAGAAATTGGCTGCCAACAACAACGTTCCC
ATACCAGAATGGCGATTGGAAACCGTTGTGATTGGGGCTCCTGTGTTCACGGCCGGAATCTTCTGGTTCAGCTGG
ACTGGCTTTACCGCCAGCATTCACTGGATGGCTCCCACTGCGGCAGGTGTACTGATCGGATTCGGGATTCTCTGT
ATTTTCCTACCATGCTTCAACTACTTAGTCGATTCTTTTCTTCCCGTGGCTGCCTCGACCGTGGCTGCCAACATC
ATCCTCCGATCTAGCGTTGCGGCTGGCTTCCCACTTTTCTCGAAGCAGATGTTCGCGAATCTGGGGGTGCAGTGG
GCGGGAACACTGCTGGGATGTCTGTCGGCGATCATGATCCCTATTCCATTCCTATTCCGAGCATATGGACCCAGG
TTGAGAGGGGAAGGCAGGCAAAATAGCCGGAAATGTAATGGCGAATCTCCCTGCTCGACGTGCACCAGCTGGGGC
TATGAGTGTCACTATCAGGCTCCGCGACGCGTGAGAGGCAAACCCGCCGACCGGGGAAGCAGCATCCACGACCAG
AATGAACCCATCCTCGAATCGAGTCCCCGACAGGTGGGCCGCTTCACGGAGACCCTCGAGGCCAATTCGGGAGCG
GCCTTTGTGAGAAAAATAGGCCTCAAGGTTGACCCAGCCAACGCACCCAAATTGAACCTCTTTGGCTGGAATGTG
GGTAGGCGCAAGTCCCCCACCGGACTCGCCCCGGTCGCGGCCTTTCCTATTGTCGAGATCCTCTCGTTGATGCAG
ATGAGAACTCTGGCCAATGTCTATTTTGCCAAGATAGATCCCTGCTATGGATTTATTGATTCGAATGATTTCTTC
CGCCGCATGGACAGCCGCTGGCAGCCCAACGCGGTGGCGAGTACATATGACGGCGTTCTGGCTGGGGTCGCCGCT
CTGGGATGCCTCTTCTCAGGGACCAACATCAACATCACCGAGTCTCACCTGGTCGAACTGGCGCGCTCGATCTCC
GAGACTCATATCGGCAGTGTCCGTCCCTCACTACACCTGGTGACTATATGGACCCTGCGTGTGGTTTACCTGCGC
ATGACTGCCCCGCCGTATCCATCCTGGGTGGCAAGCTCGACCTTGATGCATTTGATTGAAGCTTCCAAGCTTCAT
CAGTTGTCGGCCAATGACGACCGTGATATCGATACCCGACGGAGACTCATTGGTGTCGCTCAACATTTGAATCTC
TGGATCTCCTATGATCTGGGCCTTTCCCGAGTTCCACTGGGTGACACGCTCGGACTGCCATCAGCGCGACCTGGC
GATTTCACCACAGAGCTCCTCGGTCTTCTACCTGTAACCGCCAGCCTGGGTCCGGAGAACCAACGTCCGGATCAA
GAAATTGAAGAGCTACTATATCAGACGTTGGACCGCACTCACACCAAGCCACCCTCTCTTCTTTGCCAATGCAAT
CTGGTCCTTTGTCTTCTCCGTCGCCTCCGGTTGACTAACCTCACGGCATCGCCGACCACAATGACCAAAGTCCTC
GATCTACTCAGACGCAGTCTAAGCGCAGCACGTGAAATGGTGGCCGAGTGCTCTCCATGGCACCATGTGCCCAAT
GTGCCGTTTCAGATGATCAGTATCATTCTCGAGATGGACACCAGCCCCGCACTCGAGCTACTGCCGGAAGCCATG
CAGACGTTGAGAGTGGTGGCCTCTACCTATGACACGGAGACCATGAGAGAAGCGTACAATACAGCGTGTTTGCTG
ATCCTTCTTTATGAACGGCGTAGACGCGCGGACACTAGACTGTTGAGTACAGTACTGCAAGAATATCAGCAGTCA
CCTGCCACAGAGTCGCCTCTTCAACAAATGCCAACCTCTGATGAGGTTTCCTGGCTAGAAGGGCTGGTGGCTGAT
GTACCGACCTTGCAGGGTCTGGACTTCAGCCAGTTTTTGCAGCCGGACATGCTTCGAATGTCTCCCGATGCTTCT
GCCTGGGGAAACAAGTCTGGATGA
Transcript >Ani_SJS100_1|g9432.t1
ATGAGTAACCTGCGAGATAGTGAAACCAGCAGCCAGATCTCCCAAACACTAGAGGCTGATGTTGAAAAATGCCCG
GGGCAGCTTCCGTCCATGGGACAGGGCAAAGTCTTTCCTCCTGCCCTGCCGAATCGGGAAGACTATGTCGTCGAT
TTCGATGGCCCCGACGATCCAGAACATCCTTTCAATTGGCCACTTCCTACCAAACTCCTCATCTCGATGATAGCC
TGCTTTGCCACGTTTATCCCTTCATTCGCCAGTGGAGTTTTTGCACCCGGCTCCGAAGAAGCAGCCAAGGCTTTC
AATGTAGGATCTAAAGTTGGCATTCTCGGTACAACCCTCTTCGTTCTAGGATTCGCCTCCGGTCCTGTCCTTTGG
GCCCCCGCTTCGGAGCTGTTTGGAAGACGATGGCCATTGACACTGGGCTTGCTCGGAGGAGCCGTGTTCACCATT
ACATCCGCCGTGTCCAAAGACATCCAGACGCTCATTATTTGTCGCTTCTTTGCGGGGATGTTTGGGGCCAGCCCA
CTCGCGGTGGTTCCTGCTGTGCTCTCGGACATTTGGAACAATTCGCACCGCGGGGCGGCTATTTCCGTGTATGCG
CTCTTCGTGTTCGTGGGTCCGTTAAGTGCCCCCTTTATTGGAGGCTTCATCACTGCCAGCTCGCTCGGATGGCGG
TGGACCCTGTATATTCCGGCGTTTGTTGGCTTTGCTTGGGGTGCTATCAGCGTGTTCTTCTTGAGAGAGACCTAC
GCGTCTTGCCTTCTCCTGTCGAAAGCAGTCACTCTACGGCGGCTAACTGGTAATTGGGGTGTTCATGCTAAACAG
GAGGAGGTCGAGGTGGACATACAGCAGCTGATTCAGAAATATTTCACCCGTCCGCTGCGTATGCTGGTAACTGAG
CCTATCATTTTGGTTATCTCCCTCTATATGTCCTTCATCTATGGGATTGTGTATGCGCTTCTTGAAGCGTACCCG
TATGTTTTTGAGTCCGTTTACGGCATGAGCATGGGGATCGATGGCCTTCCATTTATTGGCATCATTATTGGGCAG
CTGGCTGCTTGTGGGTTCATTCTCTCGCAGCAGTCCGCCTATGTGAAGAAATTGGCTGCCAACAACAACGTTCCC
ATACCAGAATGGCGATTGGAAACCGTTGTGATTGGGGCTCCTGTGTTCACGGCCGGAATCTTCTGGTTCAGCTGG
ACTGGCTTTACCGCCAGCATTCACTGGATGGCTCCCACTGCGGCAGGTGTACTGATCGGATTCGGGATTCTCTGT
ATTTTCCTACCATGCTTCAACTACTTAGTCGATTCTTTTCTTCCCGTGGCTGCCTCGACCGTGGCTGCCAACATC
ATCCTCCGATCTAGCGTTGCGGCTGGCTTCCCACTTTTCTCGAAGCAGATGTTCGCGAATCTGGGGGTGCAGTGG
GCGGGAACACTGCTGGGATGTCTGTCGGCGATCATGATCCCTATTCCATTCCTATTCCGAGCATATGGACCCAGG
TTGAGAGGGGAAGGCAGGCAAAATAGCCGGAAATGTAATGGCGAATCTCCCTGCTCGACGTGCACCAGCTGGGGC
TATGAGTGTCACTATCAGGCTCCGCGACGCGTGAGAGGCAAACCCGCCGACCGGGGAAGCAGCATCCACGACCAG
AATGAACCCATCCTCGAATCGAGTCCCCGACAGGTGGGCCGCTTCACGGAGACCCTCGAGGCCAATTCGGGAGCG
GCCTTTGTGAGAAAAATAGGCCTCAAGGTTGACCCAGCCAACGCACCCAAATTGAACCTCTTTGGCTGGAATGTG
GGTAGGCGCAAGTCCCCCACCGGACTCGCCCCGGTCGCGGCCTTTCCTATTGTCGAGATCCTCTCGTTGATGCAG
ATGAGAACTCTGGCCAATGTCTATTTTGCCAAGATAGATCCCTGCTATGGATTTATTGATTCGAATGATTTCTTC
CGCCGCATGGACAGCCGCTGGCAGCCCAACGCGGTGGCGAGTACATATGACGGCGTTCTGGCTGGGGTCGCCGCT
CTGGGATGCCTCTTCTCAGGGACCAACATCAACATCACCGAGTCTCACCTGGTCGAACTGGCGCGCTCGATCTCC
GAGACTCATATCGGCAGTGTCCGTCCCTCACTACACCTGGTGACTATATGGACCCTGCGTGTGGTTTACCTGCGC
ATGACTGCCCCGCCGTATCCATCCTGGGTGGCAAGCTCGACCTTGATGCATTTGATTGAAGCTTCCAAGCTTCAT
CAGTTGTCGGCCAATGACGACCGTGATATCGATACCCGACGGAGACTCATTGGTGTCGCTCAACATTTGAATCTC
TGGATCTCCTATGATCTGGGCCTTTCCCGAGTTCCACTGGGTGACACGCTCGGACTGCCATCAGCGCGACCTGGC
GATTTCACCACAGAGCTCCTCGGTCTTCTACCTGTAACCGCCAGCCTGGGTCCGGAGAACCAACGTCCGGATCAA
GAAATTGAAGAGCTACTATATCAGACGTTGGACCGCACTCACACCAAGCCACCCTCTCTTCTTTGCCAATGCAAT
CTGGTCCTTTGTCTTCTCCGTCGCCTCCGGTTGACTAACCTCACGGCATCGCCGACCACAATGACCAAAGTCCTC
GATCTACTCAGACGCAGTCTAAGCGCAGCACGTGAAATGGTGGCCGAGTGCTCTCCATGGCACCATGTGCCCAAT
GTGCCGTTTCAGATGATCAGTATCATTCTCGAGATGGACACCAGCCCCGCACTCGAGCTACTGCCGGAAGCCATG
CAGACGTTGAGAGTGGTGGCCTCTACCTATGACACGGAGACCATGAGAGAAGCGTACAATACAGCGTGTTTGCTG
ATCCTTCTTTATGAACGGCGTAGACGCGCGGACACTAGACTGTTGAGTACAGTACTGCAAGAATATCAGCAGTCA
CCTGCCACAGAGTCGCCTCTTCAACAAATGCCAACCTCTGATGAGGTTTCCTGGCTAGAAGGGCTGGTGGCTGAT
GTACCGACCTTGCAGGGTCTGGACTTCAGCCAGTTTTTGCAGCCGGACATGCTTCGAATGTCTCCCGATGCTTCT
GCCTGGGGAAACAAGTCTGGATGA
Gene >Ani_SJS100_1|g9432.t1
ATGAGTAACCTGCGAGATAGTGAAACCAGCAGCCAGATCTCCCAAACACTAGAGGTGACGGATTAACCCAAAGTT
CTTCCTACATATTGCAGGATGGGTAGCTGACTGTTGATCCCATTCAGGCTGATGTTGAAAAATGCCCGGGGCAGC
TTCCGTCCATGGGACAGGGCAAAGTCTTTCCTCCTGCCCTGCCGAATCGGGAAGACTATGTCGTCGATTTCGATG
GCCCCGACGATCCAGAACATCCTTTCAATTGGCCACTTCCTACCAAGTATGCCACTCCTGTACTCAGTACTCACC
GGACTCTCGCTTACTTCCTCCATTCTAGACTCCTCATCTCGATGATAGCCTGCTTTGCCACGTTTATCCCTTCAT
TCGCCAGTGGAGTTTTTGCACCCGGCTCCGAAGAAGCAGCCAAGGCTTTCAATGTAGGATCTAAAGTTGGCATTC
TCGGTACAACCCTCTTCGTTCTAGGATTCGCCTCCGGTCCTGTCCTTTGGGCCCCCGCTTCGGAGCTGTTTGGAA
GACGATGGCCATTGACACTGGGCTTGCTCGGAGGAGCCGTGTTCACCATTACATCCGCCGTGTCCAAAGACATCC
AGACGCTCATTATTTGTCGCTTCTTTGCGGGGATGTTTGGGGCCAGCCCACTCGCGGTGGTTCCTGCTGTGCTCT
CGGACATTTGGAACAATTCGCACCGCGGGGCGGCTATTTCCGTGTATGCGCTCTTCGTGTTCGTGGGTCCGTTAA
GTGCCCCCTTTATTGGAGGCTTCATCACTGCCAGCTCGCTCGGATGGCGGTGGACCCTGTATATTCCGGCGTTTG
TTGGCTTTGCTTGGGGTGCTATCAGCGTGTTCTTCTTGAGAGAGACCTACGCGTCTTGCCTTCTCCTGTCGAAAG
CAGTCACTCTACGGCGGCTAACTGGTAATTGGGGTGTTCATGCTAAACAGGAGGAGGTCGAGGTGGACATACAGC
AGCTGATTCAGAAATATTTCACCCGTCCGCTGCGTATGCTGGTAACTGAGCCTATCATTTTGGTTATCTCCCTCT
ATATGTCCTTCATCTATGGGATTGTGTATGCGCTTCTTGAAGCGTACCCGTATGTTTTTGAGTCCGTTTACGGCA
TGAGCATGGGGATCGATGGCCTTCCATTTATTGGCATCATTATTGGGCAGCTGGCTGCTTGTGGGTTCATTCTCT
CGCAGCAGTCCGCCTATGTGAAGAAATTGGCTGCCAACAACAACGTTCCCATACCAGAATGGCGATTGGAAACCG
TTGTGATTGGGGCTCCTGTGTTCACGGCCGGAATCTTCTGGTGAGTCATTTCAGAGCTTCATGGATTGAAATCAT
TGCTAATTATTGCTACAGGTTCAGCTGGACTGGCTTTACCGCCAGCATTCACTGGATGGCTCCCACTGCGGCAGG
TGTACTGATCGGATTCGGGATTCTCTGTATTTTCCTACCATGCTTCAACTACTTAGTCGATTCTTTTCTTCCCGT
GTAGGTGTGGTCTGCGTCATAATGGAAGGGGGTGTCATACTGATCTGTCTAGGGCTGCCTCGACCGTGGCTGCCA
ACATCATCCTCCGATCTAGCGTTGCGGCTGGCTTCCCACTTTTCTCGAAGCAGATGTTCGCGAATCTGGGGGTGC
AGTGGGCGGGAACACTGCTGGGATGTCTGTCGGCGATCATGATCCCTATTCCATTCCTATTCCGAGCATATGGAC
CCAGGTTGAGAGGGGAAGGCAGGCAAAATAGCCGGTGAGTTCTGCAGCGACTCTGAGGGTATTGCGGGTAGGATG
GAAGAGGCTTGAGTTCACCACTCCTCTACACTGGCACTGTGGCGCCTGGTCCCGGTCGTGGAAGGCTTTATAGCG
TACGACACTGTTGCTTGTCCACGCTTGAGATTGGTCTAGTGACTCCTAACTGGAGATTGATGAAGAGCCAGGAGC
GCAGGGTCAAGAAACAAGGCCCGGTCTGGCTGGATCTTGCAGTAGGCATGCCAATCTGTGGCCGTACGGGGCGCG
CTGGAAAGGTTTTATCGAAAGATGAGGCCTCAGTCATCACCGGCGTGTGGGGGGTGATATCATGGTAAGCACAAT
CGCGGTAGGGATCAATTAAGATTCTCTAGCTGGTTATGGTGGGGATGGGGGGGAGGTGGATCTGCTACAGCTTGT
GCTTGGGACCCTGGCTGCCTGCCCTGTTCTGCGATCCTACAGACCATTGATCCCGGATGTCGAACGGCGTCCAGG
ATTTCATACTGTTTATACAAATCCCTGTGTATATAATGTCTCGTTTATGATTAGTGTCTAGAATAATTGTTTTTC
TCTTCTATGAGATCATTGGCATTTGGGTGTTGCTGTTCTTCCAATTGCCGGTCGGGAGCAGACGGAAAACCGCGT
GCCGCCCGACCGAGGACCCTTGGCTACCTTTCCTTTTCCTGCTCACTCTTCGTATGCCCTCAAGATAACTAACTA
ATTCATCATGAGCGATACAACTGCCTCAAAGCGCAAGCGGGCTCGACTAGCCTGTGAACCTTGTCGAGAGCGAAA
AAGGAAATGTAATGGCGAATCTCCCTGCTCGACGTGCACCAGCTGGGGCTATGAGTGTCACTATCAGGCTCCGCG
ACGCGTGAGAGGCAAACCCGCCGACCGGGGAAGCAGCATCCACGACCAGAATGAACCCATCCTCGAATCGAGTCC
CCGACAGGTGGGCCGCTTCACGGAGACCCTCGAGGCCAATTCGGGAGCGGCCTTTGTGAGAAAAATAGGCCTCAA
GGTTGACCCAGCCAACGCACCCAAATTGAACCTCTTTGGCTGGAATGTGGGTAGGCGCAAGTCCCCCACCGGACT
CGCCCCGGTCGCGGCCTTTCCTATTGTCGAGATCCTCTCGTTGATGCAGATGAGAACTCTGGCCAATGTCTATTT
TGCCAAGATAGATCCCTGCTATGGATTTATTGATTCGAATGATTTCTTCCGCCGCATGGACAGCCGCTGGCAGCC
CAACGCGGTGGCGAGTACATATGACGGCGTTCTGGCTGGGGTCGCCGCTCTGGGATGCCTCTTCTCAGGGACCAA
CATCAACATCACCGAGTCTCACCTGGTCGAACTGGCGCGCTCGATCTCCGAGACTCATATCGGCAGTGTCCGTCC
CTCACTACACCTGGTGACTATATGGACCCTGCGTGTGGTTTACCTGCGCATGACTGCCCCGCCGTATCCATCCTG
GGTGGCAAGCTCGACCTTGATGCATTTGATTGAAGCTTCCAAGCTTCATCAGTTGTCGGCCAATGACGACCGTGA
TATCGATACCCGACGGAGACTCATTGGTGTCGCTCAACATTTGAATCTCTGGATCTCCTATGATCTGGGCCTTTC
CCGAGTTCCACTGGGTGACACGCTCGGACTGCCATCAGCGCGACCTGGCGATTTCACCACAGAGCTCCTCGGTCT
TCTACCTGTAACCGCCAGCCTGGGTCCGGAGAACCAACGTCCGGATCAAGAAATTGAAGAGCTACTATATCAGAC
GTTGGACCGCACTCACACCAAGCCACCCTCTCTTCTTTGCCAATGCAATCTGGTCCTTTGTCTTCTCCGTCGCCT
CCGGTTGACTAACCTCACGGCATCGCCGACCACAATGACCAAAGTCCTCGATCTACTCAGACGCAGTCTAAGCGC
AGCACGTGAAATGGTGGCCGAGTGCTCTCCATGGCACCATGTGCCCAATGTGCCGTTTCAGATGATCAGTATCAT
TCTCGAGATGGACACCAGCCCCGCACTCGAGCTACTGCCGGAAGCCATGCAGACGTTGAGAGTGGTGGCCTCTAC
CTATGACACGGAGACCATGAGAGAAGCGTACAATACAGCGTGTTTGCTGATCCTTCTTTATGAACGGCGTAGACG
CGCGGACACTAGACTGTTGAGTACAGTACTGCAAGAATATCAGCAGTCACCTGCCACAGAGTCGCCTCTTCAACA
AATGCCAACCTCTGATGAGGTTTCCTGGCTAGAAGGGCTGGTGGCTGATGTACCGACCTTGCAGGGTCTGGACTT
CAGCCAGTTTTTGCAGCCGGACATGCTTCGAATGTCTCCCGATGCTTCTGCCTGGGGAAACAAGTCTGGATGA

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