Ophiocordyceps australis 1348a (Ghana)

General Properties

Protein ID	OphauG2\|3760
Gene name
Location	Contig_294:13203..16349
Strand	-
Gene length (bp)	3146
Transcript length (bp)	2913
Coding sequence length (bp)	2913
Protein length (aa)	971

PFAM Domains

PFAM Domain ID	Short name	Long name	E-value	Start	End
PF04082	Fungal_trans	Fungal specific transcription factor domain	6.4E-29	281	591
PF00172	Zn_clus	Fungal Zn(2)-Cys(6) binuclear cluster domain	9.0E-09	71	108

Swissprot hits

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|P49413\|UAY_EMENI	Positive regulator of purine utilization OS=Emericella nidulans (strain FGSC A4 / ATCC 38163 / CBS 112.46 / NRRL 194 / M139) GN=uaY PE=3 SV=2	66	765	0.0E+00
sp\|P07272\|PPR1_YEAST	Pyrimidine pathway regulatory protein 1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=PPR1 PE=1 SV=1	318	757	5.0E-38
sp\|P87000\|ACU15_NEUCR	Transcriptional activator protein acu-15 OS=Neurospora crassa (strain ATCC 24698 / 74-OR23-1A / CBS 708.71 / DSM 1257 / FGSC 987) GN=acu-15 PE=1 SV=2	59	702	1.0E-25
sp\|P07272\|PPR1_YEAST	Pyrimidine pathway regulatory protein 1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=PPR1 PE=1 SV=1	58	129	2.0E-14
sp\|Q05854\|YL278_YEAST	Uncharacterized transcriptional regulatory protein YLR278C OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=YLR278C PE=1 SV=1	345	762	1.0E-11

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|P49413\|UAY_EMENI	Positive regulator of purine utilization OS=Emericella nidulans (strain FGSC A4 / ATCC 38163 / CBS 112.46 / NRRL 194 / M139) GN=uaY PE=3 SV=2	66	765	0.0E+00
sp\|P07272\|PPR1_YEAST	Pyrimidine pathway regulatory protein 1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=PPR1 PE=1 SV=1	318	757	5.0E-38
sp\|P87000\|ACU15_NEUCR	Transcriptional activator protein acu-15 OS=Neurospora crassa (strain ATCC 24698 / 74-OR23-1A / CBS 708.71 / DSM 1257 / FGSC 987) GN=acu-15 PE=1 SV=2	59	702	1.0E-25
sp\|P07272\|PPR1_YEAST	Pyrimidine pathway regulatory protein 1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=PPR1 PE=1 SV=1	58	129	2.0E-14
sp\|Q05854\|YL278_YEAST	Uncharacterized transcriptional regulatory protein YLR278C OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=YLR278C PE=1 SV=1	345	762	1.0E-11
sp\|P38699\|STB5_YEAST	Protein STB5 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=STB5 PE=1 SV=1	277	497	4.0E-11
sp\|Q09922\|YAKB_SCHPO	Uncharacterized transcriptional regulatory protein C1F7.11c OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=SPAC1F7.11c PE=3 SV=1	53	499	8.0E-11
sp\|Q9P6I9\|YHDD_SCHPO	Uncharacterized transcriptional regulatory protein C1683.13c OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=SPBC1683.13c PE=1 SV=1	59	501	9.0E-10
sp\|P39113\|CAT8_YEAST	Regulatory protein CAT8 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=CAT8 PE=1 SV=2	66	150	5.0E-09
sp\|Q9C0Z1\|YKM1_SCHPO	Uncharacterized transcriptional regulatory protein PB24D3.01 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=SPAPB24D3.01 PE=3 SV=2	270	515	1.0E-07
sp\|O60130\|YH7G_SCHPO	Putative transcriptional regulatory protein C16G5.16 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=SPBC16G5.16 PE=1 SV=1	71	498	3.0E-06
sp\|P46954\|SIP4_YEAST	Protein SIP4 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=SIP4 PE=3 SV=1	67	128	3.0E-06

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GO

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

SignalP

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SignalP signal predicted	Location (based on Ymax)	D score (significance: > 0.45)
No	1 - 11	0.45

Transmembrane Domains

(None)

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 sequence	Sequence
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	>OphauG2\|3760 MPSRGPSSPSPQPGIKRRRQLSEHDSPTSPGQASPPTAERQPYRLGPGPALALEATTSKPGQSSNFRNVSACNRC RLRKNRCDQKLPSCASCVKAGVSCVGYDPITKKEIPRSYVYYLETRVEQLERLLVDKHISLPSAENLHLCSRPAT DPVPLPSHDSRERRPTAAHEAPYEPPNQALESLKAKRAGQSPAMLNIVSPAKSRSLASASGVSFAKVVFAAVQYS VSNQNSHGSASEKPSNGHASGGAASMRDSFFGLHTKPTIQPAPFPDKDSGLRLATLYFEHANPQMPILHRGDFMQ VFEQAYEGLDHISSRHLYFLNMVFAIGCGVIIGDPVKTESCDKSATRRHAGRPIQPEEYHASAIVHLESCLSFGG GGLEVLQAVLLLANFALLRPVSPGLWYITGVAVRLAVDLGLHHEDATYDQAMSSASPSADGPAAPMPCHDDLHEH GRRQRNRDMRRRLWWCTYSFDRLVSTCVGRPFGLSDEVITTELPSLLDDDFITPTGFVEPPYGDLHPSYKHVAHH YFRLRKLQSEMIQVLQFNQAQMTRAGRGNYWRSYPEMRHNTPSPFLVGFDSFRTWRLDIDKRLLLWKKSAPTRNE TGVAFSTEFLELNYWQAIIMLYRQSLSVPAMFEGEYNPSDEVSSPAAFMAELREDEDQIYIKVAEAGQKILRIYR QLHLSGLVSYTYLSTHHLFMAGISYLYAIWHSAVVRSRLTMDEVDFTILAAKSVFTDMIDKCPPAETCRDAFDRT AKATIKMASSCGGFGFHAPPPPHQQVRERSSWTPTPDSLNRTSDRTPFRFDPASAQENMSSPGLSNGRVQTPPVG KTRPFESDSGYTAPGARSCSLDNHDAREDSIGQAAESSSIDPSLVSSPSLAQQSGMQHASVSDSSFMGHPFGTLG PMDYPDARTMDFLRNLGAASGGSANGIDQTQLDMGLDMNWERMYTESVEGQAVNPFDSFFFGGQQNSAGG*
Coding	>OphauG2\|3760 ATGCCCTCGCGCGGCCCCTCGTCTCCTAGCCCTCAGCCCGGAATCAAGCGTCGACGGCAGTTGTCCGAGCATGAT TCACCCACCAGCCCAGGCCAAGCCAGTCCGCCCACGGCCGAGAGACAGCCCTACCGACTCGGCCCTGGTCCTGCC CTGGCCCTCGAGGCCACCACCAGCAAGCCTGGACAGAGCAGCAACTTTCGAAACGTGAGCGCCTGCAACCGCTGC CGTCTGCGCAAGAACCGCTGCGACCAGAAACTCCCCAGCTGTGCCAGTTGCGTCAAGGCCGGCGTGTCGTGTGTG GGCTATGACCCCATCACCAAGAAGGAGATTCCTCGAAGCTATGTCTACTATCTCGAGACTCGCGTTGAGCAGCTA GAAAGGCTTCTTGTAGACAAGCACATTTCTTTGCCATCAGCCGAGAATCTCCATCTATGCTCTCGCCCCGCCACA GACCCCGTGCCTTTGCCCAGCCATGACTCCCGCGAGCGCCGCCCAACTGCCGCCCACGAAGCTCCCTACGAACCG CCCAACCAAGCTCTCGAGTCTCTCAAGGCCAAGAGAGCCGGCCAAAGCCCGGCCATGCTCAACATTGTCAGTCCG GCCAAGTCGAGGTCTCTGGCATCCGCCTCGGGTGTTTCCTTTGCCAAGGTCGTCTTTGCCGCCGTCCAGTACTCC GTCTCCAACCAAAACAGCCACGGCAGCGCCAGCGAGAAGCCCAGCAACGGCCACGCGAGCGGAGGGGCAGCCTCG ATGCGCGACTCATTCTTTGGTCTACACACAAAGCCCACAATTCAACCAGCGCCCTTTCCAGACAAAGATAGCGGC CTCAGGCTCGCTACTCTCTACTTTGAGCACGCTAACCCCCAGATGCCCATCCTCCACCGCGGCGATTTCATGCAG GTCTTTGAACAGGCTTATGAAGGCCTCGACCACATATCGTCGCGACACCTCTATTTTCTCAACATGGTCTTTGCC ATTGGTTGCGGTGTCATCATCGGCGACCCTGTCAAGACGGAGTCTTGTGACAAGTCGGCAACTCGCCGCCACGCT GGTCGCCCAATACAGCCCGAAGAGTATCACGCCAGCGCTATTGTTCATCTTGAGTCGTGCCTGAGCTTTGGCGGC GGCGGGCTTGAAGTCCTTCAAGCAGTCTTGCTGCTGGCCAACTTTGCCCTGCTGCGTCCCGTTTCTCCCGGGCTC TGGTACATCACTGGAGTTGCGGTGCGTCTGGCTGTGGACCTCGGTCTTCACCACGAAGATGCAACCTACGATCAA GCCATGTCATCGGCATCGCCGTCAGCAGATGGGCCCGCTGCCCCTATGCCTTGCCACGACGATTTGCACGAGCAC GGACGTCGACAACGGAACCGGGACATGCGGCGGCGGCTCTGGTGGTGCACCTATTCCTTTGATCGTCTTGTGAGC ACGTGTGTAGGAAGGCCCTTTGGTCTCAGCGACGAGGTCATTACCACAGAGCTGCCGTCACTGCTTGACGATGAC TTTATTACGCCAACTGGCTTCGTCGAGCCTCCCTATGGTGATCTCCATCCCAGTTACAAGCACGTGGCGCATCAC TATTTCCGCCTGCGCAAACTGCAATCCGAAATGATACAGGTGCTGCAATTCAACCAGGCTCAAATGACCCGAGCA GGTCGCGGCAACTATTGGAGGTCATATCCCGAGATGCGCCACAATACACCATCACCCTTTCTCGTTGGCTTTGAT TCATTTAGGACTTGGCGGTTAGACATTGACAAAAGGCTGTTGCTGTGGAAAAAGTCTGCGCCAACGAGAAACGAG ACTGGCGTTGCCTTTTCCACCGAGTTTCTCGAGCTCAACTATTGGCAGGCCATCATCATGCTCTATAGGCAGAGC TTGAGCGTTCCCGCCATGTTTGAAGGAGAGTACAATCCATCCGACGAAGTCAGCAGCCCGGCGGCTTTCATGGCA GAACTCCGCGAGGACGAAGACCAAATCTACATCAAGGTGGCTGAGGCGGGACAAAAGATTTTGAGGATATACCGC CAACTGCACCTTAGTGGCTTGGTCAGCTACACGTATCTATCGACACACCACCTCTTCATGGCAGGCATCTCGTAC CTCTACGCCATATGGCACTCTGCAGTGGTTCGCAGCCGCTTGACCATGGACGAGGTGGACTTTACAATATTGGCA GCGAAATCCGTCTTCACCGACATGATTGATAAGTGTCCACCTGCCGAGACGTGTCGCGACGCATTTGACCGTACC GCCAAAGCCACCATCAAGATGGCCAGTTCATGCGGTGGCTTTGGCTTCCACGCACCGCCGCCGCCGCATCAACAG GTACGGGAGAGATCAAGCTGGACGCCCACGCCTGACAGTCTGAATCGCACATCGGATCGGACGCCTTTTCGCTTT GACCCGGCTTCGGCCCAGGAAAACATGTCTTCACCCGGCCTAAGCAACGGCAGGGTCCAGACGCCTCCGGTAGGC AAGACAAGGCCGTTTGAGTCCGATAGTGGCTATACAGCACCAGGCGCTCGGTCTTGCAGCCTCGACAACCACGAT GCGCGCGAAGACAGCATAGGTCAGGCTGCAGAATCCTCGTCGATTGATCCCTCATTGGTTTCATCGCCATCACTA GCTCAGCAAAGCGGTATGCAGCACGCTTCAGTGTCGGACAGCTCATTCATGGGTCATCCTTTTGGCACTCTAGGA CCCATGGATTACCCCGACGCCCGGACAATGGACTTTTTGAGAAACCTAGGGGCAGCTTCGGGCGGTAGCGCCAAC GGCATCGATCAGACGCAGCTCGATATGGGGCTTGACATGAATTGGGAACGAATGTACACCGAGTCTGTCGAGGGA CAAGCTGTGAATCCGTTCGATAGCTTCTTCTTTGGGGGCCAGCAAAACAGCGCTGGTGGCTGA
Transcript	>OphauG2\|3760 ATGCCCTCGCGCGGCCCCTCGTCTCCTAGCCCTCAGCCCGGAATCAAGCGTCGACGGCAGTTGTCCGAGCATGAT TCACCCACCAGCCCAGGCCAAGCCAGTCCGCCCACGGCCGAGAGACAGCCCTACCGACTCGGCCCTGGTCCTGCC CTGGCCCTCGAGGCCACCACCAGCAAGCCTGGACAGAGCAGCAACTTTCGAAACGTGAGCGCCTGCAACCGCTGC CGTCTGCGCAAGAACCGCTGCGACCAGAAACTCCCCAGCTGTGCCAGTTGCGTCAAGGCCGGCGTGTCGTGTGTG GGCTATGACCCCATCACCAAGAAGGAGATTCCTCGAAGCTATGTCTACTATCTCGAGACTCGCGTTGAGCAGCTA GAAAGGCTTCTTGTAGACAAGCACATTTCTTTGCCATCAGCCGAGAATCTCCATCTATGCTCTCGCCCCGCCACA GACCCCGTGCCTTTGCCCAGCCATGACTCCCGCGAGCGCCGCCCAACTGCCGCCCACGAAGCTCCCTACGAACCG CCCAACCAAGCTCTCGAGTCTCTCAAGGCCAAGAGAGCCGGCCAAAGCCCGGCCATGCTCAACATTGTCAGTCCG GCCAAGTCGAGGTCTCTGGCATCCGCCTCGGGTGTTTCCTTTGCCAAGGTCGTCTTTGCCGCCGTCCAGTACTCC GTCTCCAACCAAAACAGCCACGGCAGCGCCAGCGAGAAGCCCAGCAACGGCCACGCGAGCGGAGGGGCAGCCTCG ATGCGCGACTCATTCTTTGGTCTACACACAAAGCCCACAATTCAACCAGCGCCCTTTCCAGACAAAGATAGCGGC CTCAGGCTCGCTACTCTCTACTTTGAGCACGCTAACCCCCAGATGCCCATCCTCCACCGCGGCGATTTCATGCAG GTCTTTGAACAGGCTTATGAAGGCCTCGACCACATATCGTCGCGACACCTCTATTTTCTCAACATGGTCTTTGCC ATTGGTTGCGGTGTCATCATCGGCGACCCTGTCAAGACGGAGTCTTGTGACAAGTCGGCAACTCGCCGCCACGCT GGTCGCCCAATACAGCCCGAAGAGTATCACGCCAGCGCTATTGTTCATCTTGAGTCGTGCCTGAGCTTTGGCGGC GGCGGGCTTGAAGTCCTTCAAGCAGTCTTGCTGCTGGCCAACTTTGCCCTGCTGCGTCCCGTTTCTCCCGGGCTC TGGTACATCACTGGAGTTGCGGTGCGTCTGGCTGTGGACCTCGGTCTTCACCACGAAGATGCAACCTACGATCAA GCCATGTCATCGGCATCGCCGTCAGCAGATGGGCCCGCTGCCCCTATGCCTTGCCACGACGATTTGCACGAGCAC GGACGTCGACAACGGAACCGGGACATGCGGCGGCGGCTCTGGTGGTGCACCTATTCCTTTGATCGTCTTGTGAGC ACGTGTGTAGGAAGGCCCTTTGGTCTCAGCGACGAGGTCATTACCACAGAGCTGCCGTCACTGCTTGACGATGAC TTTATTACGCCAACTGGCTTCGTCGAGCCTCCCTATGGTGATCTCCATCCCAGTTACAAGCACGTGGCGCATCAC TATTTCCGCCTGCGCAAACTGCAATCCGAAATGATACAGGTGCTGCAATTCAACCAGGCTCAAATGACCCGAGCA GGTCGCGGCAACTATTGGAGGTCATATCCCGAGATGCGCCACAATACACCATCACCCTTTCTCGTTGGCTTTGAT TCATTTAGGACTTGGCGGTTAGACATTGACAAAAGGCTGTTGCTGTGGAAAAAGTCTGCGCCAACGAGAAACGAG ACTGGCGTTGCCTTTTCCACCGAGTTTCTCGAGCTCAACTATTGGCAGGCCATCATCATGCTCTATAGGCAGAGC TTGAGCGTTCCCGCCATGTTTGAAGGAGAGTACAATCCATCCGACGAAGTCAGCAGCCCGGCGGCTTTCATGGCA GAACTCCGCGAGGACGAAGACCAAATCTACATCAAGGTGGCTGAGGCGGGACAAAAGATTTTGAGGATATACCGC CAACTGCACCTTAGTGGCTTGGTCAGCTACACGTATCTATCGACACACCACCTCTTCATGGCAGGCATCTCGTAC CTCTACGCCATATGGCACTCTGCAGTGGTTCGCAGCCGCTTGACCATGGACGAGGTGGACTTTACAATATTGGCA GCGAAATCCGTCTTCACCGACATGATTGATAAGTGTCCACCTGCCGAGACGTGTCGCGACGCATTTGACCGTACC GCCAAAGCCACCATCAAGATGGCCAGTTCATGCGGTGGCTTTGGCTTCCACGCACCGCCGCCGCCGCATCAACAG GTACGGGAGAGATCAAGCTGGACGCCCACGCCTGACAGTCTGAATCGCACATCGGATCGGACGCCTTTTCGCTTT GACCCGGCTTCGGCCCAGGAAAACATGTCTTCACCCGGCCTAAGCAACGGCAGGGTCCAGACGCCTCCGGTAGGC AAGACAAGGCCGTTTGAGTCCGATAGTGGCTATACAGCACCAGGCGCTCGGTCTTGCAGCCTCGACAACCACGAT GCGCGCGAAGACAGCATAGGTCAGGCTGCAGAATCCTCGTCGATTGATCCCTCATTGGTTTCATCGCCATCACTA GCTCAGCAAAGCGGTATGCAGCACGCTTCAGTGTCGGACAGCTCATTCATGGGTCATCCTTTTGGCACTCTAGGA CCCATGGATTACCCCGACGCCCGGACAATGGACTTTTTGAGAAACCTAGGGGCAGCTTCGGGCGGTAGCGCCAAC GGCATCGATCAGACGCAGCTCGATATGGGGCTTGACATGAATTGGGAACGAATGTACACCGAGTCTGTCGAGGGA CAAGCTGTGAATCCGTTCGATAGCTTCTTCTTTGGGGGCCAGCAAAACAGCGCTGGTGGCTGA
Gene	>OphauG2\|3760 ATGCCCTCGCGCGGCCCCTCGTCTCCTAGCCCTCAGCCCGGAATCAAGCGTCGACGGCAGTTGTCCGAGCATGAT TCACCCACCAGCCCAGGCCAAGCCAGTCCGCCCACGGCCGAGAGACAGCCCTACCGACTCGGCCCTGGTCCTGCC CTGGCCCTCGAGGCCACCACCAGCAAGCCTGGACAGAGCAGCAACTTTCGAAACGTGAGCGCCTGCAACCGCTGC CGTCTGCGCAAGAACCGCTGCGACCAGAAACTCCCCAGCTGTGCCAGTTGCGTCAAGGCCGGCGTGTCGTGTGTG GGCTATGACCCCATCACCAAGAAGGAGATTCCTCGAAGGCAGTCACCACTTGGGCCCGCGTCCACTTGCCACGCT AATGCCTCCTTGCCTGCAGCTATGTCTACTATCTCGAGACTCGCGTTGAGCAGCTAGAAAGGCTTCTTGTAGACA AGCACATTTCTTTGCCATCAGCCGAGAATCTCCATCTATGCTCTCGCCCCGCCACAGACCCCGTGCCTTTGCCCA GCCATGACTCCCGCGAGCGCCGCCCAACTGCCGCCCACGAAGCTCCCTACGAACCGCCCAACCAAGCTCTCGAGT CTCTCAAGGCCAAGAGAGCCGGCCAAAGCCCGGCCATGCTCAACATTGTCAGTCCGGCCAAGTCGAGGTCTCTGG CATCCGCCTCGGGTGTTTCCTTTGCCAAGGTCGTCTTTGCCGCCGTCCAGTACTCCGTCTCCAACCAAAACAGCC ACGGCAGCGCCAGCGAGAAGCCCAGCAACGGCCACGCGAGCGGAGGGGCAGCCTCGATGCGCGACTCATTCTTTG GTCTACACACAAAGCCCACAATTCAACCAGCGCCCTTTCCAGACAAAGATAGCGGCCTCAGGCTCGCTACTCTCT ACTTTGAGCACGCTAACCCCCAGATGCCCATCCTCCACCGCGGCGATTTCATGCAGGTCTTTGAACAGGCTTATG AAGGCCTCGACCACATATCGTCGCGACACCTCTATTTTCTCAACATGGTCTTTGCCATTGGTTGCGGTGTCATCA TCGGCGACCCTGTCAAGACGGAGTCTTGTGACAAGTCGGCAACTCGCCGCCACGCTGGTCGCCCAATACAGCCCG AAGAGTATCACGCCAGCGCTATTGTTCATCTTGAGTCGTGCCTGAGCTTTGGCGGCGGCGGGCTTGAAGTCCTTC AAGCAGTCTTGCTGCTGGCCAACTTTGCCCTGCTGCGTCCCGTTTCTCCCGGGCTCTGGTAGGTTGCCACGGCCA GACATTGACGGGGCTGGCTGACAGAGGCCCCCAGGTACATCACTGGAGTTGCGGTGCGTCTGGCTGTGGACCTCG GTCTTCACCACGAAGATGCAACCTACGATCAAGCCATGTCATCGGCATCGCCGTCAGCAGATGGGCCCGCTGCCC CTATGCCTTGCCACGACGATTTGCACGAGCACGGACGTCGACAACGGAACCGGGACATGCGGCGGCGGCTCTGGT GGTGCACCTATTCCTTTGATCGTCTTGTGAGCACGTGTGTAGGAAGGCCCTTTGGTCTCAGCGACGAGGTCATTA CCACAGAGCTGCCGTCACTGCTTGACGATGACTTTATTACGCCAACTGGCTTCGTCGAGCCTCCCTATGGTGATC TCCATCCCAGTTACAAGCACGTGGCGCATCACTATTTCCGCCTGCGCAAACTGCAATCCGAAATGATACAGGTGC TGCAATTCAACCAGGCTCAAATGACCCGAGCAGGTCGCGGCAACTATTGGAGGTCATATCCCGAGATGCGCCACA ATACACCATCACCCTTTCTCGTTGGCTTTGATTCATTTAGGACTTGGCGGTTAGACATTGACAAAAGGCTGTTGC TGTGGAAAAAGTCTGCGCCAACGAGAAACGAGACTGGCGTTGCCTTTTCCACCGAGTTTCTCGAGCTCAACTATT GGCAGGCCATCATCATGCTCTATAGGCAGAGCTTGAGCGTTCCCGCCATGTTTGAAGGAGAGTACAATCCATCCG ACGAAGTCAGCAGCCCGGCGGCTTTCATGGCAGAACTCCGCGAGGACGAAGACCAAATCTACATCAAGGTGGCTG AGGCGGGACAAAAGATTTTGAGGATATACCGCCAACTGCACCTTAGTGGCTTGGTCAGCTACACGTATCTATCGA CACACCACCTCTTCATGGCAGGCATCTCGTACCTCTACGCCATATGGCACTCTGCAGTGGTTCGCAGCCGCTTGG TTAGTTGCTCTCTTCCTCTGCCCCGGCTTGATTCTATACATGTTTCTTGTATACATGGGCATCTATCTATATACA ATGTTGGAGCTATACAATTTCATTCTCACTGACACTGCATCGCTTCTCAGACCATGGACGAGGTGGACTTTACAA TATTGGCAGCGAAATCCGTCTTCACCGACATGATTGATAAGTGTCCACCTGCCGAGACGTGTCGCGACGCATTTG ACCGTACCGCCAAAGCCACCATCAAGATGGCCAGTTCATGCGGTGGCTTTGGCTTCCACGCACCGCCGCCGCCGC ATCAACAGGTACGGGAGAGATCAAGCTGGACGCCCACGCCTGACAGTCTGAATCGCACATCGGATCGGACGCCTT TTCGCTTTGACCCGGCTTCGGCCCAGGAAAACATGTCTTCACCCGGCCTAAGCAACGGCAGGGTCCAGACGCCTC CGGTAGGCAAGACAAGGCCGTTTGAGTCCGATAGTGGCTATACAGCACCAGGCGCTCGGTCTTGCAGCCTCGACA ACCACGATGCGCGCGAAGACAGCATAGGTCAGGCTGCAGAATCCTCGTCGATTGATCCCTCATTGGTTTCATCGC CATCACTAGCTCAGCAAAGCGGTATGCAGCACGCTTCAGTGTCGGACAGCTCATTCATGGGTCATCCTTTTGGCA CTCTAGGACCCATGGATTACCCCGACGCCCGGACAATGGACTTTTTGAGAAACCTAGGGGCAGCTTCGGGCGGTA GCGCCAACGGCATCGATCAGACGCAGCTCGATATGGGGCTTGACATGAATTGGGAACGAATGTACACCGAGTCTG TCGAGGGACAAGCTGTGAATCCGTTCGATAGCTTCTTCTTTGGGGGCCAGCAAAACAGCGCTGGTGGCTGA

Fungal Genomics

General Properties

PFAM Domains

Swissprot hits

GO

SignalP

Transmembrane Domains

Transcription Factor Class

Expression data

Sequences