Ophiocordyceps subramaniannii

General Properties

Protein ID	Hirsu2\|2624
Gene name
Location	Contig_1632:1197..3706
Strand	+
Gene length (bp)	2509
Transcript length (bp)	2421
Coding sequence length (bp)	2421
Protein length (aa)	807

Overview

PFAM Domains

PFAM Domain ID	Short name	Long name	E-value	Start	End
PF04082	Fungal_trans	Fungal specific transcription factor domain	1.2E-22	242	573

Swissprot hits

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|G4MZJ4\|XLNR_MAGO7	Xylanolytic transcriptional activator xlnR homolog OS=Magnaporthe oryzae (strain 70-15 / ATCC MYA-4617 / FGSC 8958) GN=xlr1 PE=3 SV=1	1	806	0.0E+00
sp\|Q2UD93\|XLNR_ASPOR	Xylanolytic transcriptional activator xlnR OS=Aspergillus oryzae (strain ATCC 42149 / RIB 40) GN=xlnR PE=1 SV=2	2	806	0.0E+00
sp\|B8N6M6\|XLNR_ASPFN	Xylanolytic transcriptional activator xlnR OS=Aspergillus flavus (strain ATCC 200026 / FGSC A1120 / NRRL 3357 / JCM 12722 / SRRC 167) GN=xlnR PE=3 SV=1	2	806	0.0E+00
sp\|A1DIC0\|XLNR_NEOFI	Xylanolytic transcriptional activator xlnR OS=Neosartorya fischeri (strain ATCC 1020 / DSM 3700 / FGSC A1164 / NRRL 181) GN=xlnR PE=3 SV=2	180	806	0.0E+00
sp\|B0XUL1\|XLNR_ASPFC	Xylanolytic transcriptional activator xlnR OS=Neosartorya fumigata (strain CEA10 / CBS 144.89 / FGSC A1163) GN=xlnR PE=3 SV=1	180	806	0.0E+00

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|G4MZJ4\|XLNR_MAGO7	Xylanolytic transcriptional activator xlnR homolog OS=Magnaporthe oryzae (strain 70-15 / ATCC MYA-4617 / FGSC 8958) GN=xlr1 PE=3 SV=1	1	806	0.0E+00
sp\|Q2UD93\|XLNR_ASPOR	Xylanolytic transcriptional activator xlnR OS=Aspergillus oryzae (strain ATCC 42149 / RIB 40) GN=xlnR PE=1 SV=2	2	806	0.0E+00
sp\|B8N6M6\|XLNR_ASPFN	Xylanolytic transcriptional activator xlnR OS=Aspergillus flavus (strain ATCC 200026 / FGSC A1120 / NRRL 3357 / JCM 12722 / SRRC 167) GN=xlnR PE=3 SV=1	2	806	0.0E+00
sp\|A1DIC0\|XLNR_NEOFI	Xylanolytic transcriptional activator xlnR OS=Neosartorya fischeri (strain ATCC 1020 / DSM 3700 / FGSC A1164 / NRRL 181) GN=xlnR PE=3 SV=2	180	806	0.0E+00
sp\|B0XUL1\|XLNR_ASPFC	Xylanolytic transcriptional activator xlnR OS=Neosartorya fumigata (strain CEA10 / CBS 144.89 / FGSC A1163) GN=xlnR PE=3 SV=1	180	806	0.0E+00
sp\|Q4WZV6\|XLNR_ASPFU	Xylanolytic transcriptional activator xlnR OS=Neosartorya fumigata (strain ATCC MYA-4609 / Af293 / CBS 101355 / FGSC A1100) GN=xlnR PE=3 SV=1	180	806	0.0E+00
sp\|Q96WP8\|XLNR_ASPKA	Xylanolytic transcriptional activator xlnR OS=Aspergillus kawachii GN=xlnR PE=3 SV=2	2	806	0.0E+00
sp\|Q0CV52\|XLNR_ASPTN	Xylanolytic transcriptional activator xlnR OS=Aspergillus terreus (strain NIH 2624 / FGSC A1156) GN=xlnR PE=3 SV=2	2	806	0.0E+00
sp\|O42804\|XLNR_ASPNG	Xylanolytic transcriptional activator xlnR OS=Aspergillus niger GN=xlnR PE=1 SV=2	2	806	0.0E+00
sp\|A2R5W7\|XLNR_ASPNC	Xylanolytic transcriptional activator xlnR OS=Aspergillus niger (strain CBS 513.88 / FGSC A1513) GN=xlnR PE=3 SV=2	2	806	0.0E+00
sp\|Q5AVS0\|XLNR_EMENI	Xylanolytic transcriptional activator xlnR OS=Emericella nidulans (strain FGSC A4 / ATCC 38163 / CBS 112.46 / NRRL 194 / M139) GN=xlnR PE=2 SV=2	180	806	0.0E+00
sp\|A1C7P9\|XLNR_ASPCL	Xylanolytic transcriptional activator xlnR OS=Aspergillus clavatus (strain ATCC 1007 / CBS 513.65 / DSM 816 / NCTC 3887 / NRRL 1) GN=xlnR PE=3 SV=2	180	806	0.0E+00
sp\|A2QJX5\|ARAR_ASPNC	Arabinanolytic transcriptional activator araR OS=Aspergillus niger (strain CBS 513.88 / FGSC A1513) GN=araR PE=3 SV=1	214	806	1.0E-138
sp\|Q5BGE2\|ARAR_EMENI	Arabinolytic transcriptional activator araR OS=Emericella nidulans (strain FGSC A4 / ATCC 38163 / CBS 112.46 / NRRL 194 / M139) GN=AN0388 PE=3 SV=1	150	806	5.0E-133

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GO

GO Term	Description	Terminal node
GO:0006351	transcription, DNA-templated	Yes
GO:0003677	DNA binding	Yes
GO:0008270	zinc ion binding	Yes
GO:0097159	organic cyclic compound binding	No
GO:1901360	organic cyclic compound metabolic process	No
GO:0034654	nucleobase-containing compound biosynthetic process	No
GO:0009987	cellular process	No
GO:1901363	heterocyclic compound binding	No
GO:0006139	nucleobase-containing compound metabolic process	No
GO:0032774	RNA biosynthetic process	No
GO:0003676	nucleic acid binding	No
GO:0034641	cellular nitrogen compound metabolic process	No
GO:0009059	macromolecule biosynthetic process	No
GO:0071704	organic substance metabolic process	No
GO:0044271	cellular nitrogen compound biosynthetic process	No
GO:0005488	binding	No
GO:0044249	cellular biosynthetic process	No
GO:0009058	biosynthetic process	No
GO:0008150	biological_process	No
GO:0046483	heterocycle metabolic process	No
GO:0097659	nucleic acid-templated transcription	No
GO:0043170	macromolecule metabolic process	No
GO:0044237	cellular metabolic process	No
GO:0046914	transition metal ion binding	No
GO:1901576	organic substance biosynthetic process	No
GO:0006725	cellular aromatic compound metabolic process	No
GO:0003674	molecular_function	No
GO:0019438	aromatic compound biosynthetic process	No
GO:0018130	heterocycle biosynthetic process	No
GO:0008152	metabolic process	No
GO:0046872	metal ion binding	No
GO:0043167	ion binding	No
GO:0044238	primary metabolic process	No
GO:0043169	cation binding	No
GO:0016070	RNA metabolic process	No
GO:0006807	nitrogen compound metabolic process	No
GO:1901362	organic cyclic compound biosynthetic process	No
GO:0090304	nucleic acid metabolic process	No

Deeploc

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Localizations	Signals	Cytoplasm	Nucleus	Extracellular	Cell membrane	Mitochondrion	Plastid	Endoplasmic reticulum	Lysosome vacuole	Golgi apparatus	Peroxisome
Nucleus		0.4299	0.6868	0.0189	0.1325	0.076	0.0513	0.0391	0.0245	0.0874	0.1484

SignalP

(None)

Transmembrane Domains

(None)

Transcription Factor Class

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

CAZymes

(None)

Secondary Metabolism

(None)

Expression data

No expression data available for this genome

Orthologs

Orthofinder run ID	4
Orthogroup	6568
Change Orthofinder run

Species	Protein ID
Ophiocordyceps camponoti-floridani	Ophcf2\|04214
Ophiocordyceps camponoti-rufipedis	Ophun1\|2235
Ophiocordyceps kimflemingae	Ophio5\|8018
Ophiocordyceps subramaniannii	Hirsu2\|2624 (this protein)

Sequences

Type of sequence	Sequence
Locus	Download genbank file of locus Download genbank file of locus (reverse complement) 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\|2624 MREKKKRGKASRKDLAERAAAAAAAAAVNTTKHHYHYQARCKPQTPSERSDASKGRSRATSLPSDYSDGTGDHQN GPPRLHQQSTDDAASQRLRAVHVAVPVQSHAHAPGGYIAIPPDFDRQSLHIDVPDSPPDYVACTAADPALSLGPV PQGHAGFGNGPAFVMGGGDSLNTYPMVSMASSPGWGMHISPSPPPGQFRMLSPCPDPDTARVHLRYPVLEPLVAH LGNVALPVSLACDLLDLYFSSPLSDMLHPLSPLVLGFVFRKRSILHPTRPRTCQPALLASMLWVAAQTSDAALLT SSPPARPVVCQRLLDLTLRLLKPLIHNPAEAACSTADAALAALSLGAAVPGAAGMDALAVECGALGAAAQLDDVV TYMHIATVASASEYKGASLRWWNAAWSLARELRLGRELSLTQSRPSQEQGVKGDIADSPENGPGAGGEEGREERR RVWWLLYAVDRHLALCYNRPLFLLDVECEGLLHPMDDRAWQRGDFRCRYEAGPGPDPDLPVDGCRFACRGHSIFG YFLPLMTILGEIVDLHHAQNHPSAGLGLGGARDGDERAQEIRRHLDAYEQSLIRLEERCFWSLSDCSASGEQQGG DHGGDTRGSAGARSRSGSPSTRTVGAKGSKRMAQDEMQARIVLAYGTHVMHVLHILLAGRWDPISLLDDGDSWVS SESFLKAASHAISAADAIGQILEYDPGLELMPFFFGIYLLQGSLLLLLIADKLQLEASPSVVRACETIVRAHEAC VVTLSTEYQRNFSKVMRSALAAVRGRVPGDGGEQRQRWRELLGLYRWTGDGTGLAL*
Coding	>Hirsu2\|2624 ATGCGCGAGAAGAAGAAGCGAGGGAAGGCGTCGCGGAAAGACCTCGCTGAAAGAGCCGCCGCCGCCGCCGCCGCC GCCGCCGTCAATACGACGAAACACCATTACCATTACCAGGCCCGCTGCAAGCCACAGACGCCGAGCGAGCGGTCT GACGCCTCCAAGGGCAGAAGCCGAGCGACTAGTCTGCCCAGCGACTACAGCGATGGCACTGGCGACCACCAGAAC GGGCCTCCGCGCCTCCACCAGCAATCTACTGACGATGCCGCCTCGCAACGACTGCGCGCCGTTCACGTCGCTGTT CCGGTGCAGAGCCACGCACACGCCCCCGGCGGCTACATAGCGATCCCGCCAGACTTTGATCGACAGAGTCTCCAT ATCGACGTGCCCGACAGTCCGCCGGACTATGTCGCGTGTACTGCCGCCGATCCGGCCCTCTCGCTCGGGCCGGTC CCGCAGGGTCACGCTGGCTTCGGGAACGGGCCCGCATTCGTCATGGGTGGCGGCGACTCCTTGAACACGTATCCC ATGGTGTCGATGGCCTCGTCGCCCGGCTGGGGAATGCACATTTCGCCCTCGCCGCCGCCCGGCCAATTCCGGATG CTGTCCCCCTGCCCGGACCCGGACACGGCCCGCGTCCACCTCCGCTACCCCGTCCTCGAGCCGTTGGTCGCCCAT CTCGGCAACGTAGCACTACCCGTGTCCCTGGCCTGCGATCTGCTCGACCTATACTTCTCGTCGCCGTTGTCCGAC ATGCTGCACCCCTTGTCGCCCTTGGTGCTGGGCTTCGTCTTCCGCAAGAGGTCCATCCTGCACCCGACCCGACCG AGGACGTGCCAGCCCGCGCTTCTGGCTAGCATGCTCTGGGTTGCCGCCCAGACGAGTGATGCCGCTCTGCTGACG AGCTCGCCGCCCGCCCGGCCCGTCGTCTGCCAGCGGCTGCTGGACCTCACCCTGCGCCTGCTCAAGCCTCTCATC CACAACCCCGCCGAAGCGGCCTGCTCGACGGCAGACGCCGCTCTGGCCGCCCTTTCGCTCGGCGCCGCGGTCCCG GGGGCCGCAGGCATGGACGCACTGGCAGTCGAGTGCGGCGCTCTGGGGGCCGCGGCCCAACTGGACGACGTCGTG ACGTACATGCACATCGCCACGGTCGCCTCCGCCAGCGAGTACAAGGGGGCGAGCTTGCGATGGTGGAACGCGGCT TGGTCCCTCGCCCGAGAGCTGAGACTGGGCCGGGAGCTGTCGCTGACGCAGTCACGCCCAAGCCAGGAGCAGGGG GTCAAGGGTGACATAGCCGATTCGCCCGAGAACGGACCCGGCGCCGGCGGCGAGGAGGGCAGAGAGGAGCGGCGG AGGGTCTGGTGGCTTCTGTACGCCGTCGACCGCCACCTGGCGCTGTGCTACAACCGTCCCCTGTTTCTCCTCGAT GTCGAGTGCGAGGGGCTCTTGCATCCCATGGACGACAGGGCATGGCAGAGGGGCGACTTCCGATGCCGCTATGAG GCCGGCCCCGGCCCCGACCCCGACTTGCCGGTGGACGGATGTCGGTTCGCGTGTCGAGGGCACAGCATCTTCGGC TACTTCCTGCCGCTCATGACCATCCTGGGAGAGATCGTCGACCTGCACCACGCCCAGAACCACCCGTCGGCCGGC CTCGGCCTTGGAGGAGCGCGCGACGGAGACGAGCGGGCCCAAGAGATCCGCCGTCACCTCGACGCGTACGAGCAG AGCCTGATTAGGCTCGAGGAGAGATGCTTCTGGAGCCTTTCCGACTGCAGCGCCTCGGGCGAACAACAGGGTGGG GACCACGGCGGCGACACGCGAGGAAGCGCGGGCGCAAGGAGCCGCAGCGGCAGCCCGTCGACGAGAACGGTGGGG GCCAAGGGCTCGAAGCGCATGGCGCAAGACGAGATGCAGGCGCGCATTGTGCTGGCGTACGGTACGCACGTGATG CACGTGCTGCACATCCTGCTGGCCGGGCGGTGGGACCCGATCAGCCTGCTGGACGACGGCGACTCGTGGGTCTCG TCCGAGTCGTTCCTCAAGGCGGCGAGCCACGCCATCTCGGCAGCCGACGCCATCGGCCAGATCCTCGAGTACGAC CCAGGCCTGGAGTTAATGCCCTTCTTCTTCGGCATCTACCTCCTGCAGGGGTCGCTGCTGCTGCTGCTCATCGCC GACAAGCTCCAGCTGGAGGCGTCGCCGAGCGTCGTGCGGGCCTGCGAGACCATCGTGCGGGCGCACGAGGCGTGC GTCGTGACGCTCAGCACGGAATACCAGCGCAATTTCAGCAAGGTTATGCGCAGCGCCCTGGCTGCCGTACGGGGC CGCGTGCCGGGTGACGGCGGGGAGCAGCGCCAACGCTGGCGAGAGCTCCTGGGACTCTACCGATGGACTGGCGAC GGCACCGGGCTGGCCCTCTGA
Transcript	>Hirsu2\|2624 ATGCGCGAGAAGAAGAAGCGAGGGAAGGCGTCGCGGAAAGACCTCGCTGAAAGAGCCGCCGCCGCCGCCGCCGCC GCCGCCGTCAATACGACGAAACACCATTACCATTACCAGGCCCGCTGCAAGCCACAGACGCCGAGCGAGCGGTCT GACGCCTCCAAGGGCAGAAGCCGAGCGACTAGTCTGCCCAGCGACTACAGCGATGGCACTGGCGACCACCAGAAC GGGCCTCCGCGCCTCCACCAGCAATCTACTGACGATGCCGCCTCGCAACGACTGCGCGCCGTTCACGTCGCTGTT CCGGTGCAGAGCCACGCACACGCCCCCGGCGGCTACATAGCGATCCCGCCAGACTTTGATCGACAGAGTCTCCAT ATCGACGTGCCCGACAGTCCGCCGGACTATGTCGCGTGTACTGCCGCCGATCCGGCCCTCTCGCTCGGGCCGGTC CCGCAGGGTCACGCTGGCTTCGGGAACGGGCCCGCATTCGTCATGGGTGGCGGCGACTCCTTGAACACGTATCCC ATGGTGTCGATGGCCTCGTCGCCCGGCTGGGGAATGCACATTTCGCCCTCGCCGCCGCCCGGCCAATTCCGGATG CTGTCCCCCTGCCCGGACCCGGACACGGCCCGCGTCCACCTCCGCTACCCCGTCCTCGAGCCGTTGGTCGCCCAT CTCGGCAACGTAGCACTACCCGTGTCCCTGGCCTGCGATCTGCTCGACCTATACTTCTCGTCGCCGTTGTCCGAC ATGCTGCACCCCTTGTCGCCCTTGGTGCTGGGCTTCGTCTTCCGCAAGAGGTCCATCCTGCACCCGACCCGACCG AGGACGTGCCAGCCCGCGCTTCTGGCTAGCATGCTCTGGGTTGCCGCCCAGACGAGTGATGCCGCTCTGCTGACG AGCTCGCCGCCCGCCCGGCCCGTCGTCTGCCAGCGGCTGCTGGACCTCACCCTGCGCCTGCTCAAGCCTCTCATC CACAACCCCGCCGAAGCGGCCTGCTCGACGGCAGACGCCGCTCTGGCCGCCCTTTCGCTCGGCGCCGCGGTCCCG GGGGCCGCAGGCATGGACGCACTGGCAGTCGAGTGCGGCGCTCTGGGGGCCGCGGCCCAACTGGACGACGTCGTG ACGTACATGCACATCGCCACGGTCGCCTCCGCCAGCGAGTACAAGGGGGCGAGCTTGCGATGGTGGAACGCGGCT TGGTCCCTCGCCCGAGAGCTGAGACTGGGCCGGGAGCTGTCGCTGACGCAGTCACGCCCAAGCCAGGAGCAGGGG GTCAAGGGTGACATAGCCGATTCGCCCGAGAACGGACCCGGCGCCGGCGGCGAGGAGGGCAGAGAGGAGCGGCGG AGGGTCTGGTGGCTTCTGTACGCCGTCGACCGCCACCTGGCGCTGTGCTACAACCGTCCCCTGTTTCTCCTCGAT GTCGAGTGCGAGGGGCTCTTGCATCCCATGGACGACAGGGCATGGCAGAGGGGCGACTTCCGATGCCGCTATGAG GCCGGCCCCGGCCCCGACCCCGACTTGCCGGTGGACGGATGTCGGTTCGCGTGTCGAGGGCACAGCATCTTCGGC TACTTCCTGCCGCTCATGACCATCCTGGGAGAGATCGTCGACCTGCACCACGCCCAGAACCACCCGTCGGCCGGC CTCGGCCTTGGAGGAGCGCGCGACGGAGACGAGCGGGCCCAAGAGATCCGCCGTCACCTCGACGCGTACGAGCAG AGCCTGATTAGGCTCGAGGAGAGATGCTTCTGGAGCCTTTCCGACTGCAGCGCCTCGGGCGAACAACAGGGTGGG GACCACGGCGGCGACACGCGAGGAAGCGCGGGCGCAAGGAGCCGCAGCGGCAGCCCGTCGACGAGAACGGTGGGG GCCAAGGGCTCGAAGCGCATGGCGCAAGACGAGATGCAGGCGCGCATTGTGCTGGCGTACGGTACGCACGTGATG CACGTGCTGCACATCCTGCTGGCCGGGCGGTGGGACCCGATCAGCCTGCTGGACGACGGCGACTCGTGGGTCTCG TCCGAGTCGTTCCTCAAGGCGGCGAGCCACGCCATCTCGGCAGCCGACGCCATCGGCCAGATCCTCGAGTACGAC CCAGGCCTGGAGTTAATGCCCTTCTTCTTCGGCATCTACCTCCTGCAGGGGTCGCTGCTGCTGCTGCTCATCGCC GACAAGCTCCAGCTGGAGGCGTCGCCGAGCGTCGTGCGGGCCTGCGAGACCATCGTGCGGGCGCACGAGGCGTGC GTCGTGACGCTCAGCACGGAATACCAGCGCAATTTCAGCAAGGTTATGCGCAGCGCCCTGGCTGCCGTACGGGGC CGCGTGCCGGGTGACGGCGGGGAGCAGCGCCAACGCTGGCGAGAGCTCCTGGGACTCTACCGATGGACTGGCGAC GGCACCGGGCTGGCCCTCTGA
Gene	>Hirsu2\|2624 ATGCGCGAGAAGAAGAAGCGAGGGAAGGCGTCGCGGAAAGACCTCGCTGAAAGAGCCGCCGCCGCCGCCGCCGCC GCCGCCGTCAATACGACGAAACACCATTACCATTACCAGGCCCGCTGCAAGCCACAGACGCCGAGCGAGCGGTCT GACGCCTCCAAGGGCAGAAGCCGAGCGACTAGTCTGCCCAGCGACTACAGCGATGGCACTGGCGACCACCAGAAC GGGCCTCCGCGCCTCCACCAGCAATCTACTGACGATGCCGCCTCGCAACGACTGCGCGCCGTTCACGTCGCTGTT CCGGTGCAGAGCCACGCACACGCCCCCGGCGGCTACATAGCGATCCCGCCAGACTTTGATCGACAGAGTCTCCAT ATCGACGTGCCCGACAGTCCGCCGGACTATGTCGCGTGTACTGCCGCCGATCCGGCCCTCTCGCTCGGGCCGGTC CCGCAGGGTCACGCTGGCTTCGGGAACGGGCCCGCATTCGTCATGGGTGGCGGCGACTCCTTGAACACGTATCCC ATGGTGTCGATGGCCTCGTCGCCCGGCTGGGGAATGCACATTTCGCCCTCGCCGCCGCCCGGCCAATTCCGGATG CTGTCCCCCTGCCCGGACCCGGACACGGCCCGCGTCCACCTCCGCTACCCCGTCCTCGAGCCGTTGGTCGCCCAT CTCGGCAACGTAGCACTACCCGTGTCCCTGGCCTGCGATCTGCTCGACCTATACTTCTCGTCGCCGTTGTCCGAC ATGCTGCACCCCTTGTCGCCCTTGGTGCTGGGCTTCGTCTTCCGCAAGAGGTCCATCCTGCACCCGACCCGACCG AGGACGTGCCAGCCCGCGCTTCTGGCTAGCATGCTCTGGGTTGCCGCCCAGACGAGTGATGCCGCTCTGCTGACG AGCTCGCCGCCCGCCCGGCCCGTCGTCTGCCAGCGGCTGCTGGACCTCACCCTGCGCCTGCTCAAGCCTCTCATC CACAACCCCGCCGAAGCGGCCTGCTCGACGGCAGACGCCGCTCTGGCCGCCCTTTCGCTCGGCGCCGCGGTCCCG GGGGCCGCAGGCATGGACGCACTGGCAGTCGAGTGCGGCGCTCTGGGGGCCGCGGCCCAACTGGACGACGTCGTG ACGTACATGCACATCGCCACGGTCGCCTCCGCCAGCGAGTACAAGGGGGCGAGCTTGCGATGGTGGAACGCGGCT TGGTCCCTCGCCCGAGAGCTGAGACTGGGCCGGGAGCTGTCGCTGACGCAGTCACGCCCAAGCCAGGAGCAGGGG GTCAAGGGTGACATAGCCGATTCGCCCGAGAACGGACCCGGCGCCGGCGGCGAGGAGGGCAGAGAGGAGCGGCGG AGGGTCTGGTGGCTTCTGTACGCCGTCGACCGCCACCTGGCGCTGTGCTACAACCGTCCCCTGTTTCTCCTCGAT GTCGAGTGCGAGGGGCTCTTGCATCCCATGGACGACAGGGCATGGCAGAGGGGCGACTTCCGATGCCGCTATGAG GCCGGCCCCGGCCCCGACCCCGACTTGCCGGTGGACGGATGTCGGTTCGCGTGTCGAGGGCACAGCATCTTCGGC TACTTCCTGCCGCTCATGACCATCCTGGGAGAGATCGTCGACCTGCACCACGCCCAGAACCACCCGTCGGCCGGC CTCGGCCTTGGAGGAGCGCGCGACGGAGACGAGCGGGCCCAAGAGATCCGCCGTCACCTCGACGCGTACGAGCAG AGCCTGATTAGGCTCGAGGAGAGATGCTTCTGGAGCCTTTCCGACTGCAGCGCCTCGGGCGAACAACAGGGTGGG GACCACGGCGGCGACACGCGAGGAAGCGCGGGCGCAAGGAGCCGCAGCGGCAGCCCGTCGACGAGAACGGTGGGG GCCAAGGGCTCGAAGCGCATGGCGCAAGACGAGATGCAGGCGCGCATTGTGCTGGCGTACGGTACGCACGTGATG CACGTGCTGCACATCCTGCTGGCCGGGCGGTGGGACCCGATCAGCCTGCTGGACGACGGCGACTCGTGGGTCTCG TCCGAGTCGTTCCTCAAGGCGGCGAGCCACGCCATCTCGGCAGCCGACGCCATCGGCCAGATCCTCGAGTACGAC CCAGGCCTGGAGTTAATGCCCTTCTTCTTCGGCATCTACCTCCTGCAGGGGTCGCTGCTGCTGCTGCTCATCGCC GACAAGCTCCAGCTGGAGGCGTCGCCGAGCGTCGTGCGGGCCTGCGAGACCATCGTGCGGGCGCACGAGGCGTGC GTCGTGACGCTCAGCACGGAATACCAGGTAAGCAAATAGGCGTCAAGACCCTTCGTAGTCCCGCGCTCCGCACCG AAGGGGGAAGGCTAAGAGAGGCGAATCGGGGACACCGCAGCGCAATTTCAGCAAGGTTATGCGCAGCGCCCTGGC TGCCGTACGGGGCCGCGTGCCGGGTGACGGCGGGGAGCAGCGCCAACGCTGGCGAGAGCTCCTGGGACTCTACCG ATGGACTGGCGACGGCACCGGGCTGGCCCTCTGA

Fungal Genomics

General Properties

Overview

PFAM Domains

Swissprot hits

GO

Deeploc

SignalP

Transmembrane Domains

Transcription Factor Class

CAZymes

Secondary Metabolism

Expression data

Orthologs

Sequences