Fungal Genomics

at Utrecht University

General Properties

Protein IDPro_DTO377G3_2|g1888.t1
Gene name
Locationscaffold_02:1087955..1092172
Strand+
Gene length (bp)4217
Transcript length (bp)2877
Coding sequence length (bp)2877
Protein length (aa) 959

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PFAM Domains

PFAM Domain ID Short name Long name E-value Start End
PF04082 Fungal_trans Fungal specific transcription factor domain 3.6E-17 365 541
PF00172 Zn_clus Fungal Zn(2)-Cys(6) binuclear cluster domain 3.4E-10 176 211
PF01161 PBP Phosphatidylethanolamine-binding protein 1.1E-07 50 134

GO

GO Term Description Terminal node
GO:0008270 zinc ion binding Yes
GO:0003677 DNA binding Yes
GO:0005634 nucleus Yes
GO:0006355 regulation of transcription, DNA-templated Yes
GO:0006351 transcription, DNA-templated Yes
GO:0000981 DNA-binding transcription factor activity, RNA polymerase II-specific Yes
GO:0043170 macromolecule metabolic process No
GO:0034641 cellular nitrogen compound metabolic process No
GO:0044238 primary metabolic process No
GO:0051252 regulation of RNA metabolic process No
GO:0009987 cellular process No
GO:0046872 metal ion binding No
GO:0140110 transcription regulator activity No
GO:0003700 DNA-binding transcription factor activity No
GO:0006139 nucleobase-containing compound metabolic process No
GO:0071704 organic substance metabolic process No
GO:2000112 regulation of cellular macromolecule biosynthetic process No
GO:0097659 nucleic acid-templated transcription No
GO:0044260 cellular macromolecule metabolic process No
GO:1901360 organic cyclic compound metabolic process No
GO:0019219 regulation of nucleobase-containing compound metabolic process No
GO:0034654 nucleobase-containing compound biosynthetic process No
GO:0080090 regulation of primary metabolic process No
GO:0050794 regulation of cellular process No
GO:0097159 organic cyclic compound binding No
GO:1901363 heterocyclic compound binding No
GO:1903506 regulation of nucleic acid-templated transcription No
GO:0090304 nucleic acid metabolic process No
GO:0065007 biological regulation No
GO:0046483 heterocycle metabolic process No
GO:1901362 organic cyclic compound biosynthetic process No
GO:0034645 cellular macromolecule biosynthetic process No
GO:0043227 membrane-bounded organelle No
GO:0050789 regulation of biological process No
GO:0044464 cell part No
GO:0043231 intracellular membrane-bounded organelle No
GO:0044424 intracellular part No
GO:0043167 ion binding No
GO:0019438 aromatic compound biosynthetic process No
GO:2001141 regulation of RNA biosynthetic process No
GO:0044271 cellular nitrogen compound biosynthetic process No
GO:0009058 biosynthetic process No
GO:0003676 nucleic acid binding No
GO:0006725 cellular aromatic compound metabolic process No
GO:0019222 regulation of metabolic process No
GO:0006807 nitrogen compound metabolic process No
GO:0005488 binding No
GO:0043169 cation binding No
GO:0016070 RNA metabolic process No
GO:0044237 cellular metabolic process No
GO:0010468 regulation of gene expression No
GO:0010556 regulation of macromolecule biosynthetic process No
GO:0009889 regulation of biosynthetic process No
GO:0046914 transition metal ion binding No
GO:0003674 molecular_function No
GO:1901576 organic substance biosynthetic process No
GO:0008150 biological_process No
GO:0051171 regulation of nitrogen compound metabolic process No
GO:0060255 regulation of macromolecule metabolic process No
GO:0031323 regulation of cellular metabolic process No
GO:0008152 metabolic process No
GO:0044249 cellular biosynthetic process No
GO:0009059 macromolecule biosynthetic process No
GO:0005575 cellular_component No
GO:0043229 intracellular organelle No
GO:0032774 RNA biosynthetic process No
GO:0018130 heterocycle biosynthetic process No
GO:0031326 regulation of cellular biosynthetic process No
GO:0043226 organelle No

SignalP

[Help with interpreting these statistics]
SignalP signal predicted Location
(based on Ymax)
D score
(significance: > 0.45)
Yes 1 - 22 0.45

Transmembrane Domains

(None)

Transcription Factor Class

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

Expression data

Analysis 1: Genome-wide gene expression in conidia of Penicillium roqueforti during growth at various temperatures and for various amounts of time. Published in Punt et al., 2020.

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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 >Pro_DTO377G3_2|g1888.t1
MQNVLFFFIEVAFCMVTIVSAQIPESDTVLQVQYGSVTFKTGEKLRLSDITSAPSIGLSAPALTGTYIVIMIDPD
APDPTLPIFTQVLHWVQQDLIFSPMAGKYNTFVPLITPSPAPAAAPYLPPMPPPLLAPHSNSSENTHQQKQSRPG
GYEANTSPANPDIQHMSVQTTSKKVSCTSCRQRKIKCDKENPCSQCTSSFYDCIYPESSRKRRRKLPLERIESLE
SRLKAIESSISTNAESSPMIPSSMTSEIGNITNKTPLATPNEHTAPAELGNRDKVYHAVEQDEIEFQGYSADRSF
IQCLNAKLGDWRGGDMTWQQLPSRISAPAFFEVEGRTPARVTLPERDIAARLVDAALDAQILLCLVHRPSFEVSF
NLVYSLEEANYSAKEQKFLPLLYAIFAYGCLVIDPGSYGPDCDKKVSQGLEFYAKSRQLQNLAECRDLTSLQAIM
FLNLFLLSSNRISTCYTYLSASLSIALRMGLHRSLKTGQDLISEEMSKRIFWTLRLLVNDVATASGMPVLLSDDE
IDQELPKETNDINIEKMRISPQPRGEICYISGANSYKRLQMVRDKVTHCVYSLKGQTTSDMNGLPIHGVSLALIH
GIQGDLDNWVDDIPMGYRLGTCYTEARLIRAQFILAMSYAHVQLYLYRPFLHYAVRSLNEQVGMSTYATASVRAS
ENIIALCEGMYGQDLLKGDLWPVTHMLTSSILTILYFVVVSRASPKTDMLLGSLIAGRRVLNHLAEHSLFANRGK
VMLTIMISTLPGTLRHIQEKLLRSDTQELPGLQNERLASYSGPFDNALNSRLASETFSLSPKQSPVGSLPASTAA
EWGANPSKSLNSSTVLSDSQWNPRVSNAQHSTIGTFQQDLAGTSEFCKAHDSSNESNSHPIIGEDQTYPRSQNLE
EMGVIDEFLQAQPLNLQQDCIDETWFSALKMAGLDCSDDFQSSISRLECLEQTFDFDG*
Coding >Pro_DTO377G3_2|g1888.t1
ATGCAAAATGTTCTTTTTTTCTTCATTGAAGTCGCATTCTGTATGGTGACCATCGTGTCAGCTCAGATCCCAGAG
TCGGACACCGTTTTACAAGTGCAGTACGGGAGTGTCACGTTTAAGACCGGAGAGAAGCTGAGGTTGAGTGACATT
ACATCAGCCCCCAGTATTGGTCTCTCAGCACCTGCCCTGACAGGCACGTATATTGTCATCATGATCGATCCCGAC
GCACCTGACCCCACACTTCCCATCTTCACTCAGGTTCTTCACTGGGTACAGCAGGACCTTATCTTCTCGCCAATG
GCCGGAAAATACAATACATTCGTTCCCCTTATTACTCCGTCACCCGCACCCGCTGCCGCTCCGTACCTACCGCCT
ATGCCACCACCACTCTTAGCTCCACATAGCAACTCTTCCGAGAACACCCACCAACAGAAGCAGTCTCGGCCTGGA
GGATACGAGGCTAACACATCTCCCGCAAATCCTGATATCCAGCACATGTCAGTCCAAACAACCAGTAAAAAGGTC
TCTTGTACCTCCTGCCGACAACGTAAAATCAAGTGTGACAAAGAAAATCCATGCAGCCAATGCACATCCTCATTT
TACGATTGCATATACCCCGAATCTTCACGTAAACGACGGCGGAAACTCCCTTTGGAGCGAATAGAGTCACTTGAA
TCCAGACTGAAAGCGATAGAATCATCGATCTCAACGAACGCGGAAAGTTCCCCCATGATTCCTAGTTCCATGACA
TCGGAAATTGGGAATATTACGAATAAGACTCCTCTGGCTACACCAAACGAACATACCGCGCCCGCAGAGCTTGGG
AATCGTGATAAAGTATACCACGCCGTTGAACAGGATGAAATCGAGTTTCAAGGGTATTCTGCGGATCGATCTTTT
ATTCAGTGTCTAAATGCGAAGCTAGGTGACTGGCGTGGCGGTGATATGACTTGGCAACAGCTCCCCTCTCGTATA
TCAGCGCCAGCATTCTTTGAAGTCGAGGGTCGAACTCCCGCTCGAGTCACTTTACCTGAAAGAGATATCGCAGCC
AGGCTGGTCGACGCAGCTTTGGATGCACAGATACTACTCTGCCTTGTACACCGACCAAGCTTTGAGGTTTCTTTC
AACTTGGTCTATTCGCTTGAAGAAGCCAACTACAGTGCCAAAGAGCAGAAATTTCTACCGCTTCTCTATGCCATA
TTTGCGTATGGGTGCCTGGTCATAGACCCCGGCTCGTACGGTCCCGATTGTGATAAAAAGGTGTCTCAGGGGTTG
GAATTCTACGCAAAGAGTCGACAACTCCAGAATCTTGCCGAGTGCAGAGATTTAACATCTCTCCAAGCCATCATG
TTTTTGAACCTCTTTCTTCTTTCGTCCAACCGAATATCGACGTGCTATACATATCTCAGTGCCTCATTATCGATT
GCGCTACGCATGGGTCTCCACCGGTCTCTCAAAACGGGTCAGGATTTAATTTCCGAGGAAATGAGCAAGAGGATA
TTTTGGACGCTGAGGCTTCTTGTCAATGACGTTGCCACCGCAAGCGGTATGCCTGTTCTTCTGAGCGATGATGAA
ATTGACCAAGAGCTTCCAAAAGAGACAAATGACATAAATATTGAAAAGATGAGGATTTCTCCACAGCCGCGCGGT
GAGATATGCTATATATCCGGTGCGAATTCATACAAGCGACTACAAATGGTTAGGGACAAGGTGACCCACTGTGTC
TACTCTCTCAAAGGCCAGACCACGTCTGATATGAATGGTTTACCAATTCATGGTGTGAGCTTGGCATTGATACAC
GGAATACAGGGTGACCTTGACAATTGGGTGGATGATATACCTATGGGTTATCGTCTTGGGACCTGTTACACCGAA
GCCAGATTGATAAGGGCCCAATTTATTCTAGCTATGTCATATGCTCATGTTCAGCTCTATCTCTATCGGCCCTTC
TTGCATTATGCTGTGAGATCTCTCAACGAGCAGGTTGGTATGTCAACTTATGCGACTGCATCGGTTCGGGCTAGT
GAAAATATTATCGCCCTGTGTGAAGGGATGTATGGACAAGATCTCCTCAAGGGTGATTTGTGGCCTGTGACGCAC
ATGTTGACAAGCTCTATTCTGACAATTTTGTATTTTGTTGTGGTTTCTCGAGCCTCGCCTAAAACAGACATGCTT
CTTGGGAGCTTGATAGCTGGGCGAAGAGTTCTAAATCACCTTGCTGAACATAGTCTTTTCGCCAATCGAGGTAAA
GTCATGCTGACGATCATGATCTCCACCCTCCCGGGAACTCTTCGACATATCCAAGAAAAGCTTCTTCGCTCGGAT
ACCCAAGAACTCCCCGGGCTTCAAAATGAGAGGCTTGCGAGCTATTCAGGTCCTTTTGATAATGCACTCAATTCC
CGGCTGGCGTCTGAAACCTTCTCGCTGTCTCCAAAACAAAGTCCTGTCGGCTCATTGCCAGCCTCTACCGCCGCT
GAGTGGGGAGCAAACCCTAGTAAATCCCTCAATTCATCAACTGTGCTCAGTGATAGCCAATGGAATCCCAGGGTT
TCAAATGCACAACATTCGACAATCGGTACTTTCCAGCAAGACTTGGCTGGAACATCGGAATTTTGCAAAGCTCAT
GATTCCTCGAATGAATCAAATAGCCATCCGATTATTGGGGAAGACCAGACCTATCCTCGAAGTCAGAACTTGGAA
GAGATGGGAGTTATAGACGAATTCCTTCAAGCTCAGCCGTTGAATCTTCAACAAGACTGTATTGATGAGACTTGG
TTCAGCGCTTTGAAGATGGCTGGCTTGGATTGTTCAGATGACTTTCAGAGTTCTATTTCACGCTTGGAATGTTTA
GAGCAGACTTTCGATTTCGATGGCTGA
Transcript >Pro_DTO377G3_2|g1888.t1
ATGCAAAATGTTCTTTTTTTCTTCATTGAAGTCGCATTCTGTATGGTGACCATCGTGTCAGCTCAGATCCCAGAG
TCGGACACCGTTTTACAAGTGCAGTACGGGAGTGTCACGTTTAAGACCGGAGAGAAGCTGAGGTTGAGTGACATT
ACATCAGCCCCCAGTATTGGTCTCTCAGCACCTGCCCTGACAGGCACGTATATTGTCATCATGATCGATCCCGAC
GCACCTGACCCCACACTTCCCATCTTCACTCAGGTTCTTCACTGGGTACAGCAGGACCTTATCTTCTCGCCAATG
GCCGGAAAATACAATACATTCGTTCCCCTTATTACTCCGTCACCCGCACCCGCTGCCGCTCCGTACCTACCGCCT
ATGCCACCACCACTCTTAGCTCCACATAGCAACTCTTCCGAGAACACCCACCAACAGAAGCAGTCTCGGCCTGGA
GGATACGAGGCTAACACATCTCCCGCAAATCCTGATATCCAGCACATGTCAGTCCAAACAACCAGTAAAAAGGTC
TCTTGTACCTCCTGCCGACAACGTAAAATCAAGTGTGACAAAGAAAATCCATGCAGCCAATGCACATCCTCATTT
TACGATTGCATATACCCCGAATCTTCACGTAAACGACGGCGGAAACTCCCTTTGGAGCGAATAGAGTCACTTGAA
TCCAGACTGAAAGCGATAGAATCATCGATCTCAACGAACGCGGAAAGTTCCCCCATGATTCCTAGTTCCATGACA
TCGGAAATTGGGAATATTACGAATAAGACTCCTCTGGCTACACCAAACGAACATACCGCGCCCGCAGAGCTTGGG
AATCGTGATAAAGTATACCACGCCGTTGAACAGGATGAAATCGAGTTTCAAGGGTATTCTGCGGATCGATCTTTT
ATTCAGTGTCTAAATGCGAAGCTAGGTGACTGGCGTGGCGGTGATATGACTTGGCAACAGCTCCCCTCTCGTATA
TCAGCGCCAGCATTCTTTGAAGTCGAGGGTCGAACTCCCGCTCGAGTCACTTTACCTGAAAGAGATATCGCAGCC
AGGCTGGTCGACGCAGCTTTGGATGCACAGATACTACTCTGCCTTGTACACCGACCAAGCTTTGAGGTTTCTTTC
AACTTGGTCTATTCGCTTGAAGAAGCCAACTACAGTGCCAAAGAGCAGAAATTTCTACCGCTTCTCTATGCCATA
TTTGCGTATGGGTGCCTGGTCATAGACCCCGGCTCGTACGGTCCCGATTGTGATAAAAAGGTGTCTCAGGGGTTG
GAATTCTACGCAAAGAGTCGACAACTCCAGAATCTTGCCGAGTGCAGAGATTTAACATCTCTCCAAGCCATCATG
TTTTTGAACCTCTTTCTTCTTTCGTCCAACCGAATATCGACGTGCTATACATATCTCAGTGCCTCATTATCGATT
GCGCTACGCATGGGTCTCCACCGGTCTCTCAAAACGGGTCAGGATTTAATTTCCGAGGAAATGAGCAAGAGGATA
TTTTGGACGCTGAGGCTTCTTGTCAATGACGTTGCCACCGCAAGCGGTATGCCTGTTCTTCTGAGCGATGATGAA
ATTGACCAAGAGCTTCCAAAAGAGACAAATGACATAAATATTGAAAAGATGAGGATTTCTCCACAGCCGCGCGGT
GAGATATGCTATATATCCGGTGCGAATTCATACAAGCGACTACAAATGGTTAGGGACAAGGTGACCCACTGTGTC
TACTCTCTCAAAGGCCAGACCACGTCTGATATGAATGGTTTACCAATTCATGGTGTGAGCTTGGCATTGATACAC
GGAATACAGGGTGACCTTGACAATTGGGTGGATGATATACCTATGGGTTATCGTCTTGGGACCTGTTACACCGAA
GCCAGATTGATAAGGGCCCAATTTATTCTAGCTATGTCATATGCTCATGTTCAGCTCTATCTCTATCGGCCCTTC
TTGCATTATGCTGTGAGATCTCTCAACGAGCAGGTTGGTATGTCAACTTATGCGACTGCATCGGTTCGGGCTAGT
GAAAATATTATCGCCCTGTGTGAAGGGATGTATGGACAAGATCTCCTCAAGGGTGATTTGTGGCCTGTGACGCAC
ATGTTGACAAGCTCTATTCTGACAATTTTGTATTTTGTTGTGGTTTCTCGAGCCTCGCCTAAAACAGACATGCTT
CTTGGGAGCTTGATAGCTGGGCGAAGAGTTCTAAATCACCTTGCTGAACATAGTCTTTTCGCCAATCGAGGTAAA
GTCATGCTGACGATCATGATCTCCACCCTCCCGGGAACTCTTCGACATATCCAAGAAAAGCTTCTTCGCTCGGAT
ACCCAAGAACTCCCCGGGCTTCAAAATGAGAGGCTTGCGAGCTATTCAGGTCCTTTTGATAATGCACTCAATTCC
CGGCTGGCGTCTGAAACCTTCTCGCTGTCTCCAAAACAAAGTCCTGTCGGCTCATTGCCAGCCTCTACCGCCGCT
GAGTGGGGAGCAAACCCTAGTAAATCCCTCAATTCATCAACTGTGCTCAGTGATAGCCAATGGAATCCCAGGGTT
TCAAATGCACAACATTCGACAATCGGTACTTTCCAGCAAGACTTGGCTGGAACATCGGAATTTTGCAAAGCTCAT
GATTCCTCGAATGAATCAAATAGCCATCCGATTATTGGGGAAGACCAGACCTATCCTCGAAGTCAGAACTTGGAA
GAGATGGGAGTTATAGACGAATTCCTTCAAGCTCAGCCGTTGAATCTTCAACAAGACTGTATTGATGAGACTTGG
TTCAGCGCTTTGAAGATGGCTGGCTTGGATTGTTCAGATGACTTTCAGAGTTCTATTTCACGCTTGGAATGTTTA
GAGCAGACTTTCGATTTCGATGGCTGA
Gene >Pro_DTO377G3_2|g1888.t1
ATGCAAAATGTTCTTTTTTTCTTCATTGAAGTCGCATTCTGTATGGTGACCATCGTGTCAGCTCAGATCCCAGAG
TCGGACACCGTTTTACAAGTGCAGTACGGGAGTGTCACGTTTAAGACCGGAGAGAAGCTGAGGTTGAGTGGTATG
GAATAGTAACAAGGCAGAAGAAAGACCAGACGAAGCTGATAGAGCCGATCTTATTCCAGACATTACATCAGCCCC
CAGTATTGGTCTCTCAGCACCTGCCCTGACAGGCACGTATATTGTCATCATGGTACCGCCTTCCTGTCCCTATTA
TACCAATCCACTTCCTCGACTTAACTCAACTCAGATCGATCCCGACGCACCTGACCCCACACTTCCCATCTTCAC
TCAGGTTCTTCACTGGGTACAGCAGGACCTTATCTTCTCGCCAATGGCCGGAAAATACAATACATTCGTTCCCCT
TATTACTCCGTCACCCGCACCCGCTGCCGCTCCGTACCTACCGCCTATGCCACCACCACTCTTAGCTCCACATAG
GTACATCCAAACCCTATTCAGACAACCTGCTGAGTTCTCAATAAATGACCTCGATCTCTACCTGACCGACTCTAT
CTTGAGATTTGGATTTAACTTATCCAGATTTGCCCAGGAAAATATGTTGGGGGAGCCTATTGCATCAAATTTCTT
CTTAGCGGGAGACGAGACTATCCAAATCAGGTGATAGACTTGCTGAAATAATTCAAACTGCGAGTTTCCCATATT
TGCCTTGTTTATCGGTCCTTGGGTTGGTCCCCGGTCTGAATAGCCCCTTACTTAAGCGTCAATGGAACCGGAATC
ATTTACACATGCCGTAGGCACCCTAGGCAATTCTCAATTAGATTAGGAGGAATATTAACGCCAGTAAATCCGCAA
TATCCGCTATAAAGATGGGTTTTCCAAACCCAACTGACGATTAATAACCAAAACATGATAACCAAGTCCAATTCG
ATTCGCGACAGTCTCGTAAAACTGGAGTGGGTCTATACATCGGCCACGCTAACCCAAAATACGGGGTTTACTTAC
TCCAAGGGTGAAGAACTTGGCGGCTGTTTTCCTAAAGCCGCATGCTTAACTCCGGGAGGCAGTTTCCTGATCTGG
TGCAGATTAAGGTCTAGTCTATGTCGTTCGGATTAGACCTCGTATGTAGGCCTTGCTGAGATGGAATTATCCCCC
CGGTATCAGATCGAAATGAGTCGTTTCCTTACACAGAGTTTAAGGCTTCCGTAGACGTAAATGAAGTGTGCATAA
GAAAAGGGATGCAACGGATGTGCCGTGCTTGCCATATTCCGTTTGTCACGTGATAGTATCTGAGATAATGACGCC
TTGGGGTGGCAGGAGGTGGCCTTTTCAGCTTCATGAATGCTCAGTACGATTACCAGCCATCGCATAGTCGGCCCT
TTTCCCCCTGAAATTATGGCTACCCACAGCTTTCAACTGCGTGGAAATTTCGGCCTTGGTGGACCGTCTCTGTCA
AGCAACTCTTCCGAGAACACCCACCAACAGAAGCAGTCTCGGCCTGGAGGATACGAGGCTAACACATCTCCCGCA
AATCCTGATATCCAGCACATGTCAGTCCAAACAACCAGTAAAAAGGTCTCTTGTACCTCCTGCCGACAACGTAAA
ATCAAGTGTGACAAAGAAAATCCATGCAGCCAATGCACATCCTCATTTTACGGTAGGACGCAATTTCCATACCAA
AACAAAAAATTGCATTGCACTGGGAAAACACTGATACTGAAACTTTGAAGATTGCATATACCCCGAATCTTCACG
TAAACGACGGCGGAAACTCCCTTTGGAGCGAATAGAGTCACTTGAATCCAGACTGAAAGCGATAGAATCATCGAT
CTCAACGAACGCGGAAAGTTCCCCCATGATTCCTAGTTCCATGACATCGGAAATTGGGAATATTACGAATAAGAC
TCCTCTGGCTACACCAAACGAACATACCGCGCCCGCAGAGCTTGGGAATCGTGATAAAGTATACCACGCCGTTGA
ACAGGATGAAATCGAGTTTCAAGGGTATTCTGCGGATCGATCTTTTATTCAGTGTCTAAATGCGAAGCTAGGTGA
CTGGCGTGGCGGTGATATGACTTGGCAACAGCTCCCCTCTCGTATATCAGCGCCAGCATTCTTTGAAGTCGAGGG
TCGAACTCCCGCTCGAGTCACTTTACCTGAAAGAGATATCGCAGCCAGGCTGGTCGACGCAGCTTTGGATGCACA
GATACTACTCTGCCTTGTACACCGACCAAGCTTTGAGGTTTCTTTCAACTTGGTCTATTCGCTTGAAGAAGCCAA
CTACAGTGCCAAAGAGCAGAAATTTCTACCGCTTCTCTATGCCATATTTGCGTATGGGTGCCTGGTCATAGACCC
CGGCTCGTACGGTCCCGATTGTGATAAAAAGGTGTCTCAGGGGTATTGATTTCCAAAGTTTTCCCGTATTCTTGC
TCAGGCTCTTACATAAAGCAGGTTGGAATTCTACGCAAAGAGTCGACAACTCCAGAATCTTGCCGAGTGCAGAGA
TTTAACATCTCTCCAAGCCATCATGTTTTTGAACCTCTTTCTTCTTTCGTCCAACCGAATATCGACGTGCTATAC
ATATCTCAGTGCCTCATTATCGATTGCGCTACGCATGGGTCTCCACCGGTCTCTCAAAACGGGTCAGGATTTAAT
TTCCGAGGAAATGAGCAAGAGGATATTTTGGACGCTGAGGCTTCTTGTCAATGACGTTGCCACCGCAAGCGGTAT
GCCTGTTCTTCTGAGCGATGATGAAATTGACCAAGAGCTTCCAAAAGAGACAAATGACATAAATATTGAAAAGAT
GAGGATTTCTCCACAGCCGCGCGGTGAGATATGCTATATATCCGGTGCGAATTCATACAAGCGACTACAAATGGT
TAGGGACAAGGTGACCCACTGTGTCTACTCTCTCAAAGGCCAGACCACGTCTGATATGAATGGTTTACCAATTCA
TGGTGTGAGCTTGGCATTGATACACGGAATACAGGGTGACCTTGACAATTGGGTGGATGATATACCTATGGGTTA
TCGTCTTGGGACCTGTTACACCGAAGCCAGATTGATAAGGTAGGAAATTTGGACATCATCCTTCACTTGCGAGAG
AGCTTGCTGATGACTCCCAGGGCCCAATTTATTCTAGCTATGTCATATGCTCATGTTCAGCTCTATCTCTATCGG
CCCTTCTTGCATTATGCTGTGAGATCTCTCAACGAGCAGGTTGGTATGTCAACTTATGCGACTGCATCGGTTCGG
GCTAGTGAAAATATTATCGCCCTGTGTGAAGGGATGTATGGACAAGATCTCCTCAAGGGTGATTTGTGGCCTGTG
ACGCACATGTTGACAAGCTCTATTCTGACAATTTTGTATTTTGTTGTGGTTTCTCGAGCCTCGCCTAAAACAGAC
ATGCTTCTTGGGAGCTTGATAGCTGGGCGAAGAGTTCTAAATCACCTTGCTGAACATAGTCTTTTCGCCAATCGA
GGTAAAGTCATGCTGACGGTGAGCATTAATCAGCCTGTGGCTCCTTTTGTCGCTGTTCACTAACATGTACAATAA
AGATCATGATCTCCACCCTCCCGGGAACTCTTCGACATATCCAAGAAAAGCTTCTTCGCTCGGATACCCAAGAAC
TCCCCGGGCTTCAAAATGAGAGGCTTGCGAGCTATTCAGGTCCTTTTGATAATGCACTCAATTCCCGGCTGGCGT
CTGAAACCTTCTCGCTGTCTCCAAAACAAAGTCCTGTCGGCTCATTGCCAGCCTCTACCGCCGCTGAGTGGGGAG
CAAACCCTAGTAAATCCCTCAATTCATCAACTGTGCTCAGTGATAGCCAATGGAATCCCAGGGTTTCAAATGCAC
AACATTCGACAATCGGTACTTTCCAGCAAGACTTGGCTGGAACATCGGAATTTTGCAAAGCTCATGATTCCTCGA
ATGAATCAAATAGCCATCCGATTATTGGGGAAGACCAGACCTATCCTCGAAGTCAGAACTTGGAAGAGATGGGAG
TTATAGACGAATTCCTTCAAGCTCAGCCGTTGAATCTTCAACAAGACTGTATTGATGAGACTTGGTTCAGCGCTT
TGAAGATGGCTGGCTTGGATTGTTCAGATGACTTTCAGAGTTCTATTTCACGCTTGGAATGTTTAGAGCAGACTT
TCGATTTCGATGGCTGA

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