Fungal Genomics

at Utrecht University

General Properties

Protein IDHirsu2|8612
Gene name
LocationContig_573:12977..14895
Strand-
Gene length (bp)1918
Transcript length (bp)1668
Coding sequence length (bp)1668
Protein length (aa) 556

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PFAM Domains

PFAM Domain ID Short name Long name E-value Start End
PF13434 K_oxygenase L-lysine 6-monooxygenase (NADPH-requiring) 5.9E-08 85 214
PF00743 FMO-like Flavin-binding monooxygenase-like 2.8E-09 42 221
PF13450 NAD_binding_8 NAD(P)-binding Rossmann-like domain 1.0E-05 17 84

Swissprot hits

[Show all]
Swissprot ID Swissprot Description Start End E-value
sp|Q9RKB5|BVMO2_STRCO Baeyer-Villiger monooxygenase OS=Streptomyces coelicolor (strain ATCC BAA-471 / A3(2) / M145) GN=SCO3172 PE=1 SV=1 10 490 2.0E-91
sp|Q9I3H5|BVMO_PSEAE Baeyer-Villiger monooxygenase OS=Pseudomonas aeruginosa (strain ATCC 15692 / PAO1 / 1C / PRS 101 / LMG 12228) GN=PA1538 PE=1 SV=1 11 468 3.0E-86
sp|P64746|Y916_MYCBO Uncharacterized monooxygenase Mb0916 OS=Mycobacterium bovis (strain ATCC BAA-935 / AF2122/97) GN=Mb0916 PE=3 SV=1 15 472 3.0E-81
sp|P9WNG1|Y892_MYCTU Uncharacterized monooxygenase Rv0892 OS=Mycobacterium tuberculosis (strain ATCC 25618 / H37Rv) GN=Rv0892 PE=1 SV=1 15 472 3.0E-81
sp|P9WNG0|Y892_MYCTO Uncharacterized monooxygenase MT0916 OS=Mycobacterium tuberculosis (strain CDC 1551 / Oshkosh) GN=MT0916 PE=3 SV=1 15 472 3.0E-81
[Show all]
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Swissprot ID Swissprot Description Start End E-value
sp|Q9RKB5|BVMO2_STRCO Baeyer-Villiger monooxygenase OS=Streptomyces coelicolor (strain ATCC BAA-471 / A3(2) / M145) GN=SCO3172 PE=1 SV=1 10 490 2.0E-91
sp|Q9I3H5|BVMO_PSEAE Baeyer-Villiger monooxygenase OS=Pseudomonas aeruginosa (strain ATCC 15692 / PAO1 / 1C / PRS 101 / LMG 12228) GN=PA1538 PE=1 SV=1 11 468 3.0E-86
sp|P64746|Y916_MYCBO Uncharacterized monooxygenase Mb0916 OS=Mycobacterium bovis (strain ATCC BAA-935 / AF2122/97) GN=Mb0916 PE=3 SV=1 15 472 3.0E-81
sp|P9WNG1|Y892_MYCTU Uncharacterized monooxygenase Rv0892 OS=Mycobacterium tuberculosis (strain ATCC 25618 / H37Rv) GN=Rv0892 PE=1 SV=1 15 472 3.0E-81
sp|P9WNG0|Y892_MYCTO Uncharacterized monooxygenase MT0916 OS=Mycobacterium tuberculosis (strain CDC 1551 / Oshkosh) GN=MT0916 PE=3 SV=1 15 472 3.0E-81
sp|Q93TJ5|HAPMO_PSEFL 4-hydroxyacetophenone monooxygenase OS=Pseudomonas fluorescens GN=hapE PE=1 SV=1 13 491 7.0E-68
sp|P55487|Y4ID_RHISN Uncharacterized monooxygenase y4iD OS=Rhizobium sp. (strain NGR234) GN=NGR_a03290 PE=3 SV=1 16 460 1.0E-67
sp|Q00730|STCW_EMENI Putative sterigmatocystin biosynthesis monooxygenase stcW OS=Emericella nidulans (strain FGSC A4 / ATCC 38163 / CBS 112.46 / NRRL 194 / M139) GN=stcW PE=3 SV=2 17 505 1.0E-55
sp|H3JQW0|OTEMO_PSEPU 2-oxo-Delta(3)-4,5,5-trimethylcyclopentenylacetyl-CoA monooxygenase OS=Pseudomonas putida GN=otemo PE=1 SV=1 47 476 3.0E-45
sp|P12015|CHMO_ACISP Cyclohexanone 1,2-monooxygenase OS=Acinetobacter sp. PE=1 SV=2 21 449 4.0E-44
sp|E3VWK3|PENE_STREX Pentalenolactone D synthase OS=Streptomyces exfoliatus GN=penE PE=1 SV=1 6 475 1.0E-41
sp|Q47PU3|PAMO_THEFY Phenylacetone monooxygenase OS=Thermobifida fusca (strain YX) GN=pamO PE=1 SV=1 16 468 9.0E-41
sp|A3U3H1|BVMO_OCEBH Baeyer-Villiger monooxygenase OS=Oceanicola batsensis (strain ATCC BAA-863 / DSM 15984 / HTCC2597) GN=OB2597_18631 PE=1 SV=1 16 403 2.0E-40
sp|U5S003|BVMO4_DIESD Baeyer-Villiger monooxygenase 4 OS=Dietzia sp. (strain D5) PE=1 SV=1 35 491 1.0E-38
sp|E3VWI7|PNTE_STRAE Pentalenolactone D synthase OS=Streptomyces arenae GN=pntE PE=1 SV=1 6 453 5.0E-38
sp|A7HU16|BVMO_PARL1 Baeyer-Villiger monooxygenase OS=Parvibaculum lavamentivorans (strain DS-1 / DSM 13023 / NCIMB 13966) GN=Plav_1781 PE=1 SV=1 17 484 6.0E-38
sp|Q82IY8|PTLE_STRAW Neopentalenolactone D synthase OS=Streptomyces avermitilis (strain ATCC 31267 / DSM 46492 / JCM 5070 / NBRC 14893 / NCIMB 12804 / NRRL 8165 / MA-4680) GN=ptlE PE=1 SV=1 39 453 1.0E-36
sp|A1CLY7|CCSB_ASPCL Ketocytochalasin monooxygenase OS=Aspergillus clavatus (strain ATCC 1007 / CBS 513.65 / DSM 816 / NCTC 3887 / NRRL 1) GN=ccsB PE=1 SV=1 6 411 6.0E-31
sp|Q9RL17|BVMO1_STRCO Baeyer-Villiger monooxygenase OS=Streptomyces coelicolor (strain ATCC BAA-471 / A3(2) / M145) GN=SCO0300 PE=1 SV=1 32 490 1.0E-28
sp|P9WNF9|ETHA_MYCTU FAD-containing monooxygenase EthA OS=Mycobacterium tuberculosis (strain ATCC 25618 / H37Rv) GN=ethA PE=1 SV=1 17 446 5.0E-26
sp|P9WNF8|ETHA_MYCTO FAD-containing monooxygenase EthA OS=Mycobacterium tuberculosis (strain CDC 1551 / Oshkosh) GN=ethA PE=3 SV=1 17 446 5.0E-26
sp|Q7TVI2|ETHA_MYCBO FAD-containing monooxygenase EthA OS=Mycobacterium bovis (strain ATCC BAA-935 / AF2122/97) GN=ethA PE=1 SV=1 17 446 5.0E-26
sp|A0R665|ETHA_MYCS2 FAD-containing monooxygenase EthA OS=Mycobacterium smegmatis (strain ATCC 700084 / mc(2)155) GN=ethA PE=3 SV=1 16 438 6.0E-26
sp|Q88J44|BVMO_PSEPK Baeyer-Villiger monooxygenase OS=Pseudomonas putida (strain KT2440) GN=PP_2805 PE=1 SV=1 17 220 8.0E-24
sp|P9WNF7|MYMA_MYCTU Putative FAD-containing monooxygenase MymA OS=Mycobacterium tuberculosis (strain ATCC 25618 / H37Rv) GN=mymA PE=1 SV=1 17 436 7.0E-23
sp|P9WNF6|MYMA_MYCTO Putative FAD-containing monooxygenase MymA OS=Mycobacterium tuberculosis (strain CDC 1551 / Oshkosh) GN=mymA PE=3 SV=1 17 436 7.0E-23
sp|Q8GAW0|CPMO_COMS9 Cyclopentanone 1,2-monooxygenase OS=Comamonas sp. (strain NCIMB 9872) GN=cpnB PE=1 SV=3 16 484 1.0E-22
sp|Q9SVQ1|YUC2_ARATH Indole-3-pyruvate monooxygenase YUCCA2 OS=Arabidopsis thaliana GN=YUC2 PE=1 SV=1 17 359 8.0E-12
sp|Q8K2I3|FMO2_MOUSE Dimethylaniline monooxygenase [N-oxide-forming] 2 OS=Mus musculus GN=Fmo2 PE=1 SV=3 42 223 4.0E-11
sp|O49312|YUC7_ARATH Probable indole-3-pyruvate monooxygenase YUCCA7 OS=Arabidopsis thaliana GN=YUC7 PE=2 SV=1 17 356 5.0E-11
sp|Q6IRI9|FMO2_RAT Dimethylaniline monooxygenase [N-oxide-forming] 2 OS=Rattus norvegicus GN=Fmo2 PE=2 SV=3 12 223 6.0E-11
sp|Q9LFM5|YUC4_ARATH Probable indole-3-pyruvate monooxygenase YUCCA4 OS=Arabidopsis thaliana GN=YUC4 PE=1 SV=1 17 356 6.0E-11
sp|P17635|FMO2_RABIT Dimethylaniline monooxygenase [N-oxide-forming] 2 OS=Oryctolagus cuniculus GN=FMO2 PE=1 SV=3 42 223 2.0E-10
sp|Q9SZY8|YUC1_ARATH Probable indole-3-pyruvate monooxygenase YUCCA1 OS=Arabidopsis thaliana GN=YUC1 PE=1 SV=1 17 356 3.0E-10
sp|Q5REK0|FMO2_PONAB Dimethylaniline monooxygenase [N-oxide-forming] 2 OS=Pongo abelii GN=FMO2 PE=2 SV=3 13 223 5.0E-10
sp|O64489|YUC9_ARATH Probable indole-3-pyruvate monooxygenase YUCCA9 OS=Arabidopsis thaliana GN=YUC9 PE=2 SV=1 17 356 7.0E-10
sp|Q8HZ69|FMO2_GORGO Dimethylaniline monooxygenase [N-oxide-forming] 2 OS=Gorilla gorilla gorilla GN=FMO2 PE=3 SV=3 13 223 8.0E-10
sp|Q8HZ70|FMO2_PANTR Dimethylaniline monooxygenase [N-oxide-forming] 2 OS=Pan troglodytes GN=FMO2 PE=3 SV=3 13 223 1.0E-09
sp|P36366|FMO2_CAVPO Dimethylaniline monooxygenase [N-oxide-forming] 2 OS=Cavia porcellus GN=FMO2 PE=2 SV=2 13 223 1.0E-09
sp|O23024|YUC3_ARATH Probable indole-3-pyruvate monooxygenase YUCCA3 OS=Arabidopsis thaliana GN=YUC3 PE=2 SV=1 17 356 1.0E-09
sp|Q99518|FMO2_HUMAN Dimethylaniline monooxygenase [N-oxide-forming] 2 OS=Homo sapiens GN=FMO2 PE=1 SV=4 13 223 1.0E-09
sp|Q28505|FMO2_MACMU Dimethylaniline monooxygenase [N-oxide-forming] 2 OS=Macaca mulatta GN=FMO2 PE=2 SV=2 42 220 3.0E-09
sp|P64766|Y968_MYCBO Uncharacterized protein Mb0968c OS=Mycobacterium bovis (strain ATCC BAA-935 / AF2122/97) GN=Mb0968c PE=4 SV=1 317 452 6.0E-09
sp|P9WKN7|Y943_MYCTU Uncharacterized protein Rv0943c OS=Mycobacterium tuberculosis (strain ATCC 25618 / H37Rv) GN=Rv0943c PE=4 SV=1 317 452 6.0E-09
sp|P9WKN6|Y943_MYCTO Uncharacterized protein MT0969 OS=Mycobacterium tuberculosis (strain CDC 1551 / Oshkosh) GN=MT0969 PE=4 SV=1 317 452 6.0E-09
sp|P36367|FMO4_RABIT Dimethylaniline monooxygenase [N-oxide-forming] 4 OS=Oryctolagus cuniculus GN=FMO4 PE=2 SV=2 42 220 8.0E-09
sp|Q8MP06|SNO1_TYRJA Senecionine N-oxygenase OS=Tyria jacobaeae GN=sno1 PE=1 SV=1 10 226 9.0E-09
sp|Q8K4C0|FMO5_RAT Dimethylaniline monooxygenase [N-oxide-forming] 5 OS=Rattus norvegicus GN=Fmo5 PE=1 SV=3 9 248 9.0E-09
sp|Q9FVQ0|YUC10_ARATH Probable indole-3-pyruvate monooxygenase YUCCA10 OS=Arabidopsis thaliana GN=YUC10 PE=2 SV=1 52 377 3.0E-08
sp|P97872|FMO5_MOUSE Dimethylaniline monooxygenase [N-oxide-forming] 5 OS=Mus musculus GN=Fmo5 PE=1 SV=4 42 240 4.0E-08
sp|Q94BV5|GSXL4_ARATH Flavin-containing monooxygenase FMO GS-OX-like 4 OS=Arabidopsis thaliana GN=At1g62600 PE=2 SV=1 42 202 9.0E-08
sp|Q8K4B7|FMO4_RAT Dimethylaniline monooxygenase [N-oxide-forming] 4 OS=Rattus norvegicus GN=Fmo4 PE=2 SV=3 42 219 1.0E-07
sp|Q8VHG0|FMO4_MOUSE Dimethylaniline monooxygenase [N-oxide-forming] 4 OS=Mus musculus GN=Fmo4 PE=1 SV=3 42 220 1.0E-07
sp|P97501|FMO3_MOUSE Dimethylaniline monooxygenase [N-oxide-forming] 3 OS=Mus musculus GN=Fmo3 PE=1 SV=1 13 220 1.0E-07
sp|Q9EQ76|FMO3_RAT Dimethylaniline monooxygenase [N-oxide-forming] 3 OS=Rattus norvegicus GN=Fmo3 PE=1 SV=1 13 270 2.0E-07
sp|Q9FWW9|GSXL2_ARATH Flavin-containing monooxygenase FMO GS-OX-like 2 OS=Arabidopsis thaliana GN=At1g12200 PE=2 SV=1 53 215 4.0E-07
sp|P31512|FMO4_HUMAN Dimethylaniline monooxygenase [N-oxide-forming] 4 OS=Homo sapiens GN=FMO4 PE=1 SV=3 42 220 4.0E-07
sp|Q9LKC0|YUC5_ARATH Probable indole-3-pyruvate monooxygenase YUCCA5 OS=Arabidopsis thaliana GN=YUC5 PE=2 SV=1 17 356 5.0E-07
sp|P49109|FMO5_CAVPO Dimethylaniline monooxygenase [N-oxide-forming] 5 OS=Cavia porcellus GN=FMO5 PE=2 SV=2 42 220 6.0E-07
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GO

GO Term Description Terminal node
GO:0004499 N,N-dimethylaniline monooxygenase activity Yes
GO:0050660 flavin adenine dinucleotide binding Yes
GO:0050661 NADP binding Yes
GO:0055114 oxidation-reduction process Yes
GO:1901363 heterocyclic compound binding No
GO:0016709 oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, NAD(P)H as one donor, and incorporation of one atom of oxygen No
GO:0000166 nucleotide binding No
GO:0043167 ion binding No
GO:0004497 monooxygenase activity No
GO:0043168 anion binding No
GO:0003824 catalytic activity No
GO:0016705 oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen No
GO:0050662 coenzyme binding No
GO:0016491 oxidoreductase activity No
GO:0048037 cofactor binding No
GO:0097159 organic cyclic compound binding No
GO:0005488 binding No
GO:1901265 nucleoside phosphate binding No
GO:0008152 metabolic process No
GO:0008150 biological_process No
GO:0036094 small molecule binding No
GO:0003674 molecular_function No

SignalP

[Help with interpreting these statistics]
SignalP signal predicted Location
(based on Ymax)
D score
(significance: > 0.45)
No 1 - 28 0.5

Transmembrane Domains

Domain # Start End Length
1 10 30 20
2 522 544 22

Transcription Factor Class

(None)

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 >Hirsu2|8612
MASLDKPTVSYSQFACIGSGFSAIGLGATLKRWYGITDIRFFDRHADLGGTWHINTYPGCACDVPSILYSFSFAP
NPKWTRVLASSAELWAYLRAVADDYDLPSKMTFGADVVRCEWLQASGRWRLHIRRLADGSLFQHESQFLFSGTGA
LVKPRHPDMPGIDSFRGPVFHAARWRSDVDLRGKRVALIGNGCTAAQIVPNIVDQTAHLTQFSRSKHWIIPPIDV
PSPTTIQWLFKHVPGFMLLVRFIVFLLCENDLRGFYMSKAGAKYRTGSEARAVRYIRKTAPAKYHDLLIPDFEIG
CKRRIFDPGYLQALHKPNISLSDNPIAQVLPDAIRTEDGTTTQADVIVLANGYATNQFMSGIEVVGRDGVTLEQH
WSSFDGPEAYNSCALNEFPNFFMILGPNTATGHTSTVMAAENCINFALRLIKPILDGEATTVEVKPGAELQYSQQ
LQRDLSKTVWWGGCHSWYNKGGPDGTRWNAMTYPHSQAHFWYSCLFPTYGDWKYTPTPDATRRRFMRRTRKTAWW
LGLVVSVVGITLTVRSRGLDWAGEYLPSTA*
Coding >Hirsu2|8612
ATGGCCAGCCTCGACAAGCCGACCGTCAGCTACAGCCAGTTCGCCTGCATCGGCTCCGGCTTCTCGGCCATTGGC
CTGGGCGCGACCCTCAAGCGGTGGTACGGCATCACCGACATTCGCTTCTTCGACCGCCACGCCGACCTGGGAGGC
ACCTGGCACATCAACACATATCCAGGATGCGCTTGCGACGTGCCCAGTATCCTCTACAGCTTCTCCTTCGCGCCC
AACCCGAAATGGACCCGCGTCCTGGCCTCGTCCGCCGAGCTCTGGGCCTACCTGAGAGCCGTGGCCGACGACTAC
GACCTGCCCTCCAAGATGACCTTTGGCGCCGACGTCGTCCGCTGCGAATGGCTGCAGGCGTCCGGCCGCTGGCGA
CTGCACATCCGCCGCCTCGCCGATGGCTCCCTCTTCCAGCACGAGAGCCAGTTCCTCTTCAGCGGCACCGGCGCC
CTCGTCAAGCCTCGTCATCCCGACATGCCCGGCATCGACTCCTTCCGCGGGCCCGTCTTCCACGCCGCCCGCTGG
AGGTCTGACGTCGATCTCCGCGGTAAGAGGGTCGCCCTCATCGGCAACGGCTGCACCGCCGCCCAGATCGTCCCC
AACATCGTCGACCAGACCGCGCACCTGACCCAGTTTTCCCGCTCCAAGCACTGGATCATCCCGCCCATCGATGTC
CCCTCTCCCACGACCATCCAGTGGCTCTTCAAGCACGTCCCGGGCTTCATGCTCCTCGTCCGCTTCATCGTCTTT
CTCCTCTGCGAAAACGACCTGCGCGGCTTCTACATGAGCAAGGCCGGCGCCAAGTACCGCACCGGCAGCGAGGCC
CGCGCCGTCCGGTACATCCGGAAGACGGCTCCCGCCAAGTATCACGACCTCCTCATTCCCGACTTTGAGATCGGA
TGCAAGAGACGAATATTCGACCCTGGCTACCTCCAGGCCCTGCACAAGCCCAACATCTCCCTCTCGGATAATCCT
ATTGCCCAGGTCCTGCCGGACGCCATCCGAACCGAGGACGGCACCACCACCCAGGCCGACGTCATCGTCCTGGCC
AACGGATACGCCACCAACCAGTTCATGTCGGGCATCGAAGTCGTGGGCCGTGACGGAGTCACTCTGGAGCAGCAC
TGGTCGTCCTTTGACGGGCCGGAAGCCTATAATTCATGCGCCCTGAATGAGTTTCCCAATTTCTTCATGATCCTG
GGACCCAACACCGCCACGGGACACACCTCGACCGTCATGGCCGCCGAGAACTGCATCAACTTCGCCCTCCGCCTC
ATCAAGCCCATCCTGGACGGCGAGGCCACCACGGTCGAGGTCAAGCCCGGCGCCGAGCTGCAGTACTCCCAGCAG
CTGCAGCGAGATCTATCTAAGACGGTCTGGTGGGGAGGCTGCCACAGCTGGTACAACAAAGGCGGACCGGACGGG
ACGCGGTGGAATGCAATGACCTATCCCCACTCGCAGGCACATTTCTGGTACAGCTGTCTGTTCCCGACCTACGGG
GATTGGAAGTATACCCCGACGCCCGACGCCACGCGACGCAGATTCATGCGCAGGACACGCAAGACGGCATGGTGG
CTTGGCCTCGTCGTTTCTGTCGTCGGCATTACTCTGACGGTGAGAAGCCGTGGCCTCGACTGGGCCGGCGAATAC
CTCCCCTCTACTGCCTGA
Transcript >Hirsu2|8612
ATGGCCAGCCTCGACAAGCCGACCGTCAGCTACAGCCAGTTCGCCTGCATCGGCTCCGGCTTCTCGGCCATTGGC
CTGGGCGCGACCCTCAAGCGGTGGTACGGCATCACCGACATTCGCTTCTTCGACCGCCACGCCGACCTGGGAGGC
ACCTGGCACATCAACACATATCCAGGATGCGCTTGCGACGTGCCCAGTATCCTCTACAGCTTCTCCTTCGCGCCC
AACCCGAAATGGACCCGCGTCCTGGCCTCGTCCGCCGAGCTCTGGGCCTACCTGAGAGCCGTGGCCGACGACTAC
GACCTGCCCTCCAAGATGACCTTTGGCGCCGACGTCGTCCGCTGCGAATGGCTGCAGGCGTCCGGCCGCTGGCGA
CTGCACATCCGCCGCCTCGCCGATGGCTCCCTCTTCCAGCACGAGAGCCAGTTCCTCTTCAGCGGCACCGGCGCC
CTCGTCAAGCCTCGTCATCCCGACATGCCCGGCATCGACTCCTTCCGCGGGCCCGTCTTCCACGCCGCCCGCTGG
AGGTCTGACGTCGATCTCCGCGGTAAGAGGGTCGCCCTCATCGGCAACGGCTGCACCGCCGCCCAGATCGTCCCC
AACATCGTCGACCAGACCGCGCACCTGACCCAGTTTTCCCGCTCCAAGCACTGGATCATCCCGCCCATCGATGTC
CCCTCTCCCACGACCATCCAGTGGCTCTTCAAGCACGTCCCGGGCTTCATGCTCCTCGTCCGCTTCATCGTCTTT
CTCCTCTGCGAAAACGACCTGCGCGGCTTCTACATGAGCAAGGCCGGCGCCAAGTACCGCACCGGCAGCGAGGCC
CGCGCCGTCCGGTACATCCGGAAGACGGCTCCCGCCAAGTATCACGACCTCCTCATTCCCGACTTTGAGATCGGA
TGCAAGAGACGAATATTCGACCCTGGCTACCTCCAGGCCCTGCACAAGCCCAACATCTCCCTCTCGGATAATCCT
ATTGCCCAGGTCCTGCCGGACGCCATCCGAACCGAGGACGGCACCACCACCCAGGCCGACGTCATCGTCCTGGCC
AACGGATACGCCACCAACCAGTTCATGTCGGGCATCGAAGTCGTGGGCCGTGACGGAGTCACTCTGGAGCAGCAC
TGGTCGTCCTTTGACGGGCCGGAAGCCTATAATTCATGCGCCCTGAATGAGTTTCCCAATTTCTTCATGATCCTG
GGACCCAACACCGCCACGGGACACACCTCGACCGTCATGGCCGCCGAGAACTGCATCAACTTCGCCCTCCGCCTC
ATCAAGCCCATCCTGGACGGCGAGGCCACCACGGTCGAGGTCAAGCCCGGCGCCGAGCTGCAGTACTCCCAGCAG
CTGCAGCGAGATCTATCTAAGACGGTCTGGTGGGGAGGCTGCCACAGCTGGTACAACAAAGGCGGACCGGACGGG
ACGCGGTGGAATGCAATGACCTATCCCCACTCGCAGGCACATTTCTGGTACAGCTGTCTGTTCCCGACCTACGGG
GATTGGAAGTATACCCCGACGCCCGACGCCACGCGACGCAGATTCATGCGCAGGACACGCAAGACGGCATGGTGG
CTTGGCCTCGTCGTTTCTGTCGTCGGCATTACTCTGACGGTGAGAAGCCGTGGCCTCGACTGGGCCGGCGAATAC
CTCCCCTCTACTGCCTGA
Gene >Hirsu2|8612
ATGGCCAGCCTCGACAAGCCGACCGTCAGCTACAGCCAGTTCGCCTGCATCGGCTCCGGCTTCTCGGCCATTGGC
CTGGGCGCGACCCTCAAGCGGTGGTACGGCATCACCGACATTCGCTTCTTCGACCGCCACGCCGACCTGGGAGGC
ACCTGGCACATCAACACATATCCAGGTACAACCACCGCACCACGCCTCCCTCCCTCCCTCCTTCTCCCTCCCTCT
CCCCCTGGAGGCTGGCCGCTGGAGGCTGACCTGAAGCTCGCGCCGGTCAGGATGCGCTTGCGACGTGCCCAGTAT
CCTCTACAGCTTCTCCTTCGCGCCCAACCCGAAATGGACCCGCGTCCTGGCCTCGTCCGCCGAGCTCTGGGCCTA
CCTGAGAGCCGTGGCCGACGACTACGACCTGCCCTCCAAGATGACCTTTGGCGCCGACGTCGTCCGCTGCGAATG
GCTGCAGGCGTCCGGCCGCTGGCGACTGCACATCCGCCGCCTCGCCGATGGCTCCCTCTTCCAGCACGAGAGCCA
GTTCCTCTTCAGCGGCACCGGCGCCCTCGTCAAGCCTCGTCATCCCGACATGCCCGGCATCGACTCCTTCCGCGG
GCCCGTCTTCCACGCCGCCCGCTGGAGGTCTGACGTCGATCTCCGCGGTAAGAGGGTCGCCCTCATCGGCAACGG
CTGCACCGCCGCCCAGATCGTCCCCAACATCGTCGACCAGACCGCGCACCTGACCCAGTTTTCCCGCTCCAAGCA
CTGGATCATCCCGCCCATCGATGTCCCCTCTCCCACGACCATCCAGTGGCTCTTCAAGCACGTCCCGGGCTTCAT
GCTCCTCGTCCGCTTCATCGTCTTTCTCCTCTGCGAAAACGACCTGCGCGGCTTCTACATGAGCAAGGCCGGCGC
CAAGTACCGCACCGGCAGCGAGGCCCGCGCCGTCCGGTACATCCGGAAGACGGCTCCCGCCAAGTATCACGACCT
CCTCATTCCCGACTTTGAGATCGGATGCAAGAGACGAATATTCGACCCTGGCTACCTCCAGGCCCTGCACAAGCC
CAACATCTCCCTCTCGGATAATCCTATTGCCCAGGTCCTGCCGGACGCCATCCGAACCGAGGACGGCACCACCAC
CCAGGCCGACGTCATCGTCCTGGCCAACGGATACGCCACCAACCAGTTCATGTCGGGCATCGAAGTCGTGGGCCG
TGACGGAGTCACTCTGGAGCAGCACTGGTCGTCCTTTGACGGGCCGGAAGCCTATAATTCATGCGCCCTGAATGA
GTTTCCCAATTTCTTCATGATCCTGGGTGCGTCGCGATATAAACATACCCTTCAACCTGAAATCATCTACTGATG
GCTGACCTGTCGGGCTCGCAGGACCCAACACCGCCACGGGACACACCTCGACCGTCATGGCCGCCGAGAACTGCA
TCAACTTCGCCCTCCGCCTCATCAAGCCCATCCTGGACGGCGAGGCCACCACGGTCGAGGTCAAGCCCGGCGCCG
AGCTGCAGTACTCCCAGCAGCTGCAGCGAGATCTATCTAAGACGGTCTGGTGGGGAGGCTGCCACAGCTGGTACA
ACAAAGGCGGACCGGACGGGACGCGGTGGAATGCAATGACCTATCCCCACTCGCAGGCACATTTCTGGTACAGCT
GTCTGTTCCCGACCTACGGGGATTGGAAGTATACCGTAAGCCCTCCGCCTTCCCCTGCCGCTATGGCTTGGCCCG
CGGCTAGAGCCACGTAGGCGATGCAACTGACGCGCCGCAGCCGACGCCCGACGCCACGCGACGCAGATTCATGCG
CAGGACACGCAAGACGGCATGGTGGCTTGGCCTCGTCGTTTCTGTCGTCGGCATTACTCTGACGGTGAGAAGCCG
TGGCCTCGACTGGGCCGGCGAATACCTCCCCTCTACTGCCTGA

© 2020 - Robin Ohm - Utrecht University - The Netherlands

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