Ophiocordyceps australis 1348a (Ghana)

General Properties

Protein ID	OphauG2\|113
Gene name
Location	Contig_101:20061..24076
Strand	+
Gene length (bp)	4015
Transcript length (bp)	3321
Coding sequence length (bp)	3321
Protein length (aa)	1107

Overview

PFAM Domains

PFAM Domain ID	Short name	Long name	E-value	Start	End
PF13423	UCH_1	Ubiquitin carboxyl-terminal hydrolase	3.3E-63	489	679
PF13423	UCH_1	Ubiquitin carboxyl-terminal hydrolase	2.1E-15	679	762
PF00929	RNase_T	Exonuclease	5.5E-25	838	1011

Swissprot hits

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|Q0UPL5\|PAN2_PHANO	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Phaeosphaeria nodorum (strain SN15 / ATCC MYA-4574 / FGSC 10173) GN=PAN2 PE=3 SV=1	1	1091	0.0E+00
sp\|Q5BBL5\|PAN2_EMENI	PAB-dependent poly(A)-specific ribonuclease subunit pan2 OS=Emericella nidulans (strain FGSC A4 / ATCC 38163 / CBS 112.46 / NRRL 194 / M139) GN=pan2 PE=3 SV=1	1	1075	0.0E+00
sp\|Q2ULU6\|PAN2_ASPOR	PAB-dependent poly(A)-specific ribonuclease subunit pan2 OS=Aspergillus oryzae (strain ATCC 42149 / RIB 40) GN=pan2 PE=3 SV=1	1	1106	0.0E+00
sp\|A1DFN6\|PAN2_NEOFI	PAB-dependent poly(A)-specific ribonuclease subunit pan2 OS=Neosartorya fischeri (strain ATCC 1020 / DSM 3700 / FGSC A1164 / NRRL 181) GN=pan2 PE=3 SV=1	1	1075	0.0E+00
sp\|Q0CJU7\|PAN2_ASPTN	PAB-dependent poly(A)-specific ribonuclease subunit pan2 OS=Aspergillus terreus (strain NIH 2624 / FGSC A1156) GN=pan2 PE=3 SV=1	1	1097	0.0E+00

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|Q0UPL5\|PAN2_PHANO	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Phaeosphaeria nodorum (strain SN15 / ATCC MYA-4574 / FGSC 10173) GN=PAN2 PE=3 SV=1	1	1091	0.0E+00
sp\|Q5BBL5\|PAN2_EMENI	PAB-dependent poly(A)-specific ribonuclease subunit pan2 OS=Emericella nidulans (strain FGSC A4 / ATCC 38163 / CBS 112.46 / NRRL 194 / M139) GN=pan2 PE=3 SV=1	1	1075	0.0E+00
sp\|Q2ULU6\|PAN2_ASPOR	PAB-dependent poly(A)-specific ribonuclease subunit pan2 OS=Aspergillus oryzae (strain ATCC 42149 / RIB 40) GN=pan2 PE=3 SV=1	1	1106	0.0E+00
sp\|A1DFN6\|PAN2_NEOFI	PAB-dependent poly(A)-specific ribonuclease subunit pan2 OS=Neosartorya fischeri (strain ATCC 1020 / DSM 3700 / FGSC A1164 / NRRL 181) GN=pan2 PE=3 SV=1	1	1075	0.0E+00
sp\|Q0CJU7\|PAN2_ASPTN	PAB-dependent poly(A)-specific ribonuclease subunit pan2 OS=Aspergillus terreus (strain NIH 2624 / FGSC A1156) GN=pan2 PE=3 SV=1	1	1097	0.0E+00
sp\|A1CEK7\|PAN2_ASPCL	PAB-dependent poly(A)-specific ribonuclease subunit pan2 OS=Aspergillus clavatus (strain ATCC 1007 / CBS 513.65 / DSM 816 / NCTC 3887 / NRRL 1) GN=pan2 PE=3 SV=1	1	1075	0.0E+00
sp\|Q4WHP6\|PAN2_ASPFU	PAB-dependent poly(A)-specific ribonuclease subunit pan2 OS=Neosartorya fumigata (strain ATCC MYA-4609 / Af293 / CBS 101355 / FGSC A1100) GN=pan2 PE=3 SV=1	1	1075	0.0E+00
sp\|P0C581\|PAN2_NEUCR	PAB-dependent poly(A)-specific ribonuclease subunit pan2 OS=Neurospora crassa (strain ATCC 24698 / 74-OR23-1A / CBS 708.71 / DSM 1257 / FGSC 987) GN=pan2 PE=1 SV=2	4	1099	0.0E+00
sp\|Q1E873\|PAN2_COCIM	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Coccidioides immitis (strain RS) GN=PAN2 PE=3 SV=2	1	1068	0.0E+00
sp\|A4RF51\|PAN2_MAGO7	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Magnaporthe oryzae (strain 70-15 / ATCC MYA-4617 / FGSC 8958) GN=PAN2 PE=3 SV=3	1	1085	0.0E+00
sp\|A2QW83\|PAN2_ASPNC	PAB-dependent poly(A)-specific ribonuclease subunit pan2 OS=Aspergillus niger (strain CBS 513.88 / FGSC A1513) GN=pan2 PE=3 SV=1	1	1102	0.0E+00
sp\|Q09798\|PAN2_SCHPO	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=pan2 PE=3 SV=2	26	1042	0.0E+00
sp\|P0CQ08\|PAN2_CRYNJ	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Cryptococcus neoformans var. neoformans serotype D (strain JEC21 / ATCC MYA-565) GN=PAN2 PE=3 SV=1	27	1106	0.0E+00
sp\|P0CQ09\|PAN2_CRYNB	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Cryptococcus neoformans var. neoformans serotype D (strain B-3501A) GN=PAN2 PE=3 SV=1	27	1106	0.0E+00
sp\|Q2GSV2\|PAN2_CHAGB	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Chaetomium globosum (strain ATCC 6205 / CBS 148.51 / DSM 1962 / NBRC 6347 / NRRL 1970) GN=PAN2 PE=3 SV=2	1	1064	0.0E+00
sp\|Q6BZ78\|PAN2_DEBHA	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Debaryomyces hansenii (strain ATCC 36239 / CBS 767 / JCM 1990 / NBRC 0083 / IGC 2968) GN=PAN2 PE=3 SV=2	1	1042	5.0E-169
sp\|A5DAD0\|PAN2_PICGU	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Meyerozyma guilliermondii (strain ATCC 6260 / CBS 566 / DSM 6381 / JCM 1539 / NBRC 10279 / NRRL Y-324) GN=PAN2 PE=3 SV=3	1	1042	2.0E-168
sp\|Q6CMN5\|PAN2_KLULA	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Kluyveromyces lactis (strain ATCC 8585 / CBS 2359 / DSM 70799 / NBRC 1267 / NRRL Y-1140 / WM37) GN=PAN2 PE=3 SV=1	26	1042	8.0E-159
sp\|Q6C462\|PAN2_YARLI	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Yarrowia lipolytica (strain CLIB 122 / E 150) GN=PAN2 PE=3 SV=2	1	1043	6.0E-153
sp\|Q754X1\|PAN2_ASHGO	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Ashbya gossypii (strain ATCC 10895 / CBS 109.51 / FGSC 9923 / NRRL Y-1056) GN=PAN2 PE=3 SV=2	27	1042	3.0E-152
sp\|P53010\|PAN2_YEAST	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=PAN2 PE=1 SV=1	26	1043	7.0E-134
sp\|Q6FS70\|PAN2_CANGA	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Candida glabrata (strain ATCC 2001 / CBS 138 / JCM 3761 / NBRC 0622 / NRRL Y-65) GN=PAN2 PE=3 SV=1	26	1042	1.0E-123
sp\|Q8BGF7\|PAN2_MOUSE	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Mus musculus GN=Pan2 PE=1 SV=1	1	678	2.0E-80
sp\|Q6IE70\|PAN2_RAT	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Rattus norvegicus GN=Pan2 PE=2 SV=1	1	678	1.0E-79
sp\|A3LRV8\|PAN2_PICST	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Scheffersomyces stipitis (strain ATCC 58785 / CBS 6054 / NBRC 10063 / NRRL Y-11545) GN=PAN2 PE=3 SV=2	1	670	4.0E-79
sp\|Q504Q3\|PAN2_HUMAN	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Homo sapiens GN=PAN2 PE=1 SV=3	1	678	4.0E-78
sp\|Q6IE70\|PAN2_RAT	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Rattus norvegicus GN=Pan2 PE=2 SV=1	711	1049	6.0E-77
sp\|Q504Q3\|PAN2_HUMAN	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Homo sapiens GN=PAN2 PE=1 SV=3	711	1049	7.0E-77
sp\|Q5F450\|PAN2_CHICK	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Gallus gallus GN=PAN2 PE=2 SV=1	680	1049	4.0E-76
sp\|Q8BGF7\|PAN2_MOUSE	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Mus musculus GN=Pan2 PE=1 SV=1	713	1049	5.0E-76
sp\|Q5F450\|PAN2_CHICK	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Gallus gallus GN=PAN2 PE=2 SV=1	18	678	4.0E-75
sp\|Q5APK0\|PAN2_CANAL	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Candida albicans (strain SC5314 / ATCC MYA-2876) GN=PAN2 PE=3 SV=1	1	645	3.0E-74
sp\|A5E1W0\|PAN2_LODEL	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Lodderomyces elongisporus (strain ATCC 11503 / CBS 2605 / JCM 1781 / NBRC 1676 / NRRL YB-4239) GN=PAN2 PE=3 SV=1	24	646	7.0E-69
sp\|A3LRV8\|PAN2_PICST	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Scheffersomyces stipitis (strain ATCC 58785 / CBS 6054 / NBRC 10063 / NRRL Y-11545) GN=PAN2 PE=3 SV=2	753	1043	2.0E-66
sp\|A5E1W0\|PAN2_LODEL	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Lodderomyces elongisporus (strain ATCC 11503 / CBS 2605 / JCM 1781 / NBRC 1676 / NRRL YB-4239) GN=PAN2 PE=3 SV=1	716	1043	2.0E-64
sp\|Q5APK0\|PAN2_CANAL	PAB-dependent poly(A)-specific ribonuclease subunit PAN2 OS=Candida albicans (strain SC5314 / ATCC MYA-2876) GN=PAN2 PE=3 SV=1	716	1043	4.0E-63
sp\|P53015\|YPO4_CAEEL	Uncharacterized protein F31E3.4 OS=Caenorhabditis elegans GN=F31E3.4 PE=4 SV=1	752	1031	1.0E-39
sp\|P53015\|YPO4_CAEEL	Uncharacterized protein F31E3.4 OS=Caenorhabditis elegans GN=F31E3.4 PE=4 SV=1	26	547	2.0E-21
sp\|Q9CZI9\|AEN_MOUSE	Apoptosis-enhancing nuclease OS=Mus musculus GN=Aen PE=2 SV=1	831	1012	5.0E-14
sp\|Q2T9U5\|REXON_BOVIN	Putative RNA exonuclease NEF-sp OS=Bos taurus PE=2 SV=1	870	1031	2.0E-13
sp\|Q96IC2\|REXON_HUMAN	Putative RNA exonuclease NEF-sp OS=Homo sapiens GN=44M2.3 PE=2 SV=1	870	1036	9.0E-13
sp\|A1A5R7\|REXON_RAT	Putative RNA exonuclease NEF-sp OS=Rattus norvegicus PE=2 SV=1	870	1030	4.0E-12
sp\|Q5REE2\|AEN_PONAB	Apoptosis-enhancing nuclease OS=Pongo abelii GN=AEN PE=2 SV=1	832	1012	2.0E-11
sp\|Q8WTP8\|AEN_HUMAN	Apoptosis-enhancing nuclease OS=Homo sapiens GN=AEN PE=1 SV=2	832	1012	2.0E-11
sp\|Q757I9\|REXO4_ASHGO	RNA exonuclease 4 OS=Ashbya gossypii (strain ATCC 10895 / CBS 109.51 / FGSC 9923 / NRRL Y-1056) GN=REX4 PE=3 SV=1	838	1018	1.0E-10
sp\|Q6PAQ4\|REXO4_MOUSE	RNA exonuclease 4 OS=Mus musculus GN=Rexo4 PE=2 SV=2	838	1011	2.0E-10
sp\|Q9GZR2\|REXO4_HUMAN	RNA exonuclease 4 OS=Homo sapiens GN=REXO4 PE=1 SV=2	871	1029	5.0E-10
sp\|Q4PER6\|REXO4_USTMA	RNA exonuclease 4 OS=Ustilago maydis (strain 521 / FGSC 9021) GN=REX4 PE=3 SV=1	826	1049	6.0E-10
sp\|Q5A3Q0\|REXO4_CANAL	RNA exonuclease 4 OS=Candida albicans (strain SC5314 / ATCC MYA-2876) GN=REX4 PE=3 SV=1	828	1014	1.0E-08
sp\|Q91560\|REXO4_XENLA	RNA exonuclease 4 OS=Xenopus laevis GN=rexo4 PE=2 SV=2	823	1011	2.0E-08
sp\|Q6FQA0\|REXO4_CANGA	RNA exonuclease 4 OS=Candida glabrata (strain ATCC 2001 / CBS 138 / JCM 3761 / NBRC 0622 / NRRL Y-65) GN=REX4 PE=3 SV=1	838	1012	2.0E-08
sp\|Q4IEV5\|REXO4_GIBZE	RNA exonuclease 4 OS=Gibberella zeae (strain PH-1 / ATCC MYA-4620 / FGSC 9075 / NRRL 31084) GN=REX4 PE=3 SV=1	869	1014	3.0E-08
sp\|Q9H9L3\|I20L2_HUMAN	Interferon-stimulated 20 kDa exonuclease-like 2 OS=Homo sapiens GN=ISG20L2 PE=1 SV=1	834	1012	1.0E-07
sp\|Q2YDK1\|I20L2_BOVIN	Interferon-stimulated 20 kDa exonuclease-like 2 OS=Bos taurus GN=ISG20L2 PE=2 SV=1	834	1012	1.0E-07
sp\|Q6BIK6\|REXO4_DEBHA	RNA exonuclease 4 OS=Debaryomyces hansenii (strain ATCC 36239 / CBS 767 / JCM 1990 / NBRC 0083 / IGC 2968) GN=REX4 PE=3 SV=2	828	1020	1.0E-07
sp\|P53331\|REXO1_YEAST	RNA exonuclease 1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RNH70 PE=1 SV=1	869	1012	1.0E-07
sp\|Q8RXK2\|SDN3_ARATH	Small RNA degrading nuclease 3 OS=Arabidopsis thaliana GN=SDN3 PE=1 SV=1	869	1010	1.0E-07
sp\|P0CQ44\|REXO4_CRYNJ	RNA exonuclease 4 OS=Cryptococcus neoformans var. neoformans serotype D (strain JEC21 / ATCC MYA-565) GN=REX4 PE=3 SV=1	834	1038	1.0E-07
sp\|P0CQ45\|REXO4_CRYNB	RNA exonuclease 4 OS=Cryptococcus neoformans var. neoformans serotype D (strain B-3501A) GN=REX4 PE=3 SV=1	834	1038	1.0E-07
sp\|Q08237\|REXO4_YEAST	RNA exonuclease 4 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=REX4 PE=1 SV=1	838	1013	4.0E-07
sp\|Q6CMT3\|REXO4_KLULA	RNA exonuclease 4 OS=Kluyveromyces lactis (strain ATCC 8585 / CBS 2359 / DSM 70799 / NBRC 1267 / NRRL Y-1140 / WM37) GN=REX4 PE=3 SV=1	833	1018	1.0E-06
sp\|Q66UW5\|ISG20_PIG	Interferon-stimulated gene 20 kDa protein OS=Sus scrofa GN=Isg20 PE=1 SV=2	833	1012	3.0E-06

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GO

(None)

Deeploc

Deeploc data not available for this genome

SignalP

(None)

Transmembrane Domains

(None)

Transcription Factor Class

(None)

CAZymes

(None)

Secondary Metabolism

(None)

Expression data

No expression data available for this genome

Orthologs

Orthofinder run ID	4
Orthogroup	4736
Change Orthofinder run

Species	Protein ID
Ophiocordyceps australis 1348a (Ghana)	OphauG2\|113 (this protein)
Ophiocordyceps australis map64 (Brazil)	OphauB2\|7026
Ophiocordyceps camponoti-floridani	Ophcf2\|01141
Ophiocordyceps camponoti-rufipedis	Ophun1\|5705
Ophiocordyceps kimflemingae	Ophio5\|1746
Ophiocordyceps subramaniannii	Hirsu2\|9998

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	>OphauG2\|113 MDGDWDEVSRIPFPPPGGVHSMPSPVTTMTFDTSHELLWAGNEFGRVTSFISPDLQKYTSFKAHLSSDGPVRQIL VNDKGIIALGARDLHMAMRRGPPIWHLRHDDMMDMRCMGFTSKGTTEVLVAGLQDKLLLVDLAKGEVVKQLRTEH NYSIIKSGRYICAATQTGSVHLLDPVSLSLVRSWNAHSALINDMDTQHDFIVTCGYSLRQGQAYMLDPFLNIFDI KKMTSMPPIPFPAGAAYVRMHPRMQTTSIVVSQVGQMHVIDLMNPNTSNVRQANVLTYLSMFEIAPSGEALALTD PECFIHLWGSPTKLHFVDLPTPLEFATAVEPRPPIEWTADTPLNTIGLPYYRETLFSAWPDLVCDVGAPPPRIDA QFLSGLKAAEFGLYGRNSRGLRRNQAENTRNGGKLAASGLKAPKFLSEKARELAKDESRNLEERTDDLASPTVDV DLVSKKSEVPVMYRNVEIKYSKFGVDDFDFGYYNKTRYSGLEIHISNSYANSLLQIMNFTPLIRNLALEHAATAC VSDSCLLCELGFLFDMLQKADGSICQATNLLRTLSHHPQAAPLGLLEEDAHSSSLNVMLQGLTRFMLDKIVQDYK SMAPSPMTMEHALATSATSSIRCMSCRSEYTRPGSTYVNDLLYPPQKTSIRGNKPSSITFSQVLKSSIERETTSK GWCSWLPEEVGVIVDQGQFYCYEGEDLKLHLQRGMHNIIVYSLIGMAVNIESGQAQKPHLVAMVNVALSQPQAPN QSQWHLFNDFLVRPISTEDALAFNISWKVPSVVAFQMKEANNKINDDWKLKLDTSILYRDFGPATQLAHKTYQVL DPDRERPGPDSIVALDTEFVAVRQPEIEMNSDGERETIRPIVYALARVSVVRGQGEQEGRPFVDDYIAIKEPIVD YLTSYSGIRQGDLDPRTSNHSLVSLKMAYKKLWLLVNLGCRFLGHGLRQDFRVINIHVPRAQVIDTIDLFFLRSR LRKLSLAFLAWYLLKEDIQMETHDSIEDARTALKLYRKYLEFQDAGIWDTMLQDIYRAGREVNFRPPKRDESASV TGVGLQGTESPPLSGDGTATLPSTPVPKPAVLAGAATAFGGGSWTPGKSGGPSPLR*
Coding	>OphauG2\|113 ATGGATGGAGACTGGGACGAGGTCTCCCGCATCCCTTTCCCGCCTCCGGGCGGCGTCCACTCGATGCCATCGCCG GTGACGACAATGACGTTTGATACGTCTCACGAGCTTCTCTGGGCTGGGAATGAATTTGGTCGCGTCACCTCCTTC ATCAGTCCAGACCTGCAGAAATACACGTCTTTCAAGGCCCATCTATCCTCGGACGGCCCGGTCCGCCAGATCTTG GTCAATGACAAGGGTATCATTGCTCTAGGAGCAAGGGACCTTCACATGGCAATGCGGAGAGGGCCTCCAATTTGG CACCTAAGACACGACGACATGATGGATATGCGATGCATGGGCTTTACATCCAAAGGCACCACAGAGGTGCTTGTA GCTGGCTTACAAGATAAGCTACTGCTTGTCGACCTTGCTAAGGGAGAGGTGGTCAAGCAGCTCAGGACAGAGCAT AACTACTCCATCATCAAGAGTGGCCGGTACATATGCGCCGCCACTCAGACCGGATCTGTTCATCTCTTGGATCCC GTCAGCTTGAGTCTCGTTCGGTCGTGGAACGCCCACTCGGCCTTGATCAACGACATGGATACGCAACATGACTTT ATCGTTACTTGTGGTTACTCTCTGCGTCAGGGCCAGGCGTACATGCTCGATCCATTCCTAAACATCTTTGACATC AAGAAAATGACATCGATGCCTCCAATTCCATTTCCCGCTGGCGCTGCCTATGTTCGCATGCATCCCAGAATGCAG ACCACTAGCATAGTCGTCTCGCAGGTCGGACAGATGCATGTTATCGATCTTATGAACCCCAATACCAGCAATGTT CGTCAGGCAAATGTGCTTACGTACCTCAGCATGTTTGAGATTGCTCCCTCGGGAGAAGCTCTAGCCCTCACCGAT CCCGAATGTTTTATACATCTCTGGGGCTCGCCCACCAAGCTGCATTTTGTTGATCTTCCCACTCCCCTTGAATTT GCCACTGCGGTCGAGCCGCGGCCTCCCATAGAATGGACAGCAGACACCCCTTTGAACACGATTGGATTGCCATAC TATAGAGAAACTCTTTTTTCCGCCTGGCCAGATCTTGTGTGTGATGTCGGCGCTCCTCCGCCCCGCATAGACGCT CAATTTCTGAGTGGACTCAAGGCGGCCGAATTCGGCCTCTATGGACGAAATAGTCGTGGTTTGCGAAGAAATCAA GCCGAGAACACACGAAATGGTGGGAAACTGGCAGCTTCTGGGCTCAAGGCTCCTAAATTCTTGAGCGAAAAGGCT CGCGAACTTGCCAAAGACGAATCGAGGAACCTGGAAGAAAGAACAGACGACTTGGCAAGCCCCACGGTCGACGTC GACCTTGTCAGCAAAAAGAGTGAGGTGCCCGTCATGTATCGCAATGTTGAAATCAAGTACAGCAAGTTTGGTGTC GACGATTTCGATTTTGGATACTATAACAAGACGCGGTATTCTGGGTTGGAAATTCACATTTCCAACTCGTACGCC AATTCCCTGCTGCAGATTATGAACTTTACGCCTCTTATCCGCAACCTTGCCCTAGAACATGCCGCAACAGCCTGT GTTAGCGACTCGTGTCTGCTTTGCGAACTGGGGTTCTTGTTTGACATGCTCCAAAAAGCAGACGGCTCAATATGT CAAGCCACCAACCTGCTCAGGACCCTGAGCCATCACCCTCAAGCTGCTCCTCTGGGTCTTCTGGAAGAAGATGCG CACAGCTCATCCTTGAATGTGATGCTACAAGGGCTCACGCGTTTCATGCTGGACAAGATTGTACAGGACTATAAA AGCATGGCACCGTCCCCTATGACAATGGAACATGCCCTTGCAACTTCGGCCACCAGCTCTATCCGCTGCATGAGT TGCAGGTCCGAGTACACTCGGCCAGGGTCAACTTATGTCAATGATCTGCTCTACCCTCCACAGAAGACTTCGATA CGTGGCAACAAGCCATCAAGCATCACCTTCTCTCAAGTATTGAAGAGTAGCATAGAGAGAGAAACGACATCCAAG GGCTGGTGCAGTTGGCTTCCGGAAGAGGTGGGTGTCATAGTAGACCAAGGACAGTTCTACTGCTACGAAGGGGAA GACCTGAAACTGCATTTACAGCGAGGCATGCATAACATCATTGTGTACTCGCTTATTGGCATGGCGGTCAATATT GAGAGCGGCCAGGCTCAGAAGCCGCATCTTGTGGCCATGGTCAACGTGGCACTATCGCAGCCACAGGCTCCTAAT CAGAGCCAGTGGCATCTGTTCAACGACTTCCTAGTCCGCCCCATCAGCACAGAGGACGCTCTCGCATTCAATATT TCGTGGAAAGTCCCCTCAGTCGTGGCTTTCCAAATGAAGGAGGCCAATAATAAGATTAATGACGACTGGAAACTG AAGCTGGACACTTCAATTCTTTATCGAGACTTTGGTCCTGCGACACAGCTAGCGCACAAAACATACCAGGTCTTG GACCCCGACCGTGAGCGTCCGGGGCCTGATTCAATAGTGGCGCTGGACACCGAGTTTGTCGCTGTTCGGCAACCA GAAATTGAGATGAATTCGGACGGCGAGCGCGAGACAATTCGGCCCATAGTATATGCTCTTGCACGAGTGTCCGTA GTTCGCGGTCAGGGAGAGCAAGAGGGGCGCCCGTTTGTCGATGACTACATTGCCATCAAGGAGCCCATTGTTGAC TATCTCACGTCATACTCTGGCATTCGACAGGGCGATCTGGATCCTCGTACCTCGAACCACAGCCTCGTGTCACTC AAGATGGCCTACAAAAAACTTTGGCTGCTAGTCAATCTTGGCTGCCGGTTCCTCGGCCATGGCCTGCGGCAGGAC TTTCGCGTCATCAACATTCATGTGCCCCGCGCACAGGTGATTGACACTATTGACCTTTTCTTTTTGCGATCGCGG CTGCGCAAGCTGTCACTTGCATTCCTGGCATGGTATCTTCTCAAGGAAGATATACAAATGGAAACGCACGACTCG ATTGAGGACGCCCGCACTGCCCTTAAATTGTATCGCAAGTACCTCGAGTTTCAGGATGCAGGCATCTGGGACACG ATGCTGCAGGATATCTACCGGGCAGGCAGAGAAGTCAACTTCCGGCCGCCAAAGAGGGACGAGAGCGCTTCTGTT ACTGGTGTTGGACTACAAGGAACAGAGTCGCCGCCCTTGTCTGGTGATGGCACCGCAACGCTGCCATCAACGCCC GTCCCCAAGCCGGCAGTGCTGGCTGGCGCTGCAACAGCGTTTGGTGGTGGTAGCTGGACTCCGGGAAAGAGTGGT GGTCCTTCGCCACTACGGTAG
Transcript	>OphauG2\|113 ATGGATGGAGACTGGGACGAGGTCTCCCGCATCCCTTTCCCGCCTCCGGGCGGCGTCCACTCGATGCCATCGCCG GTGACGACAATGACGTTTGATACGTCTCACGAGCTTCTCTGGGCTGGGAATGAATTTGGTCGCGTCACCTCCTTC ATCAGTCCAGACCTGCAGAAATACACGTCTTTCAAGGCCCATCTATCCTCGGACGGCCCGGTCCGCCAGATCTTG GTCAATGACAAGGGTATCATTGCTCTAGGAGCAAGGGACCTTCACATGGCAATGCGGAGAGGGCCTCCAATTTGG CACCTAAGACACGACGACATGATGGATATGCGATGCATGGGCTTTACATCCAAAGGCACCACAGAGGTGCTTGTA GCTGGCTTACAAGATAAGCTACTGCTTGTCGACCTTGCTAAGGGAGAGGTGGTCAAGCAGCTCAGGACAGAGCAT AACTACTCCATCATCAAGAGTGGCCGGTACATATGCGCCGCCACTCAGACCGGATCTGTTCATCTCTTGGATCCC GTCAGCTTGAGTCTCGTTCGGTCGTGGAACGCCCACTCGGCCTTGATCAACGACATGGATACGCAACATGACTTT ATCGTTACTTGTGGTTACTCTCTGCGTCAGGGCCAGGCGTACATGCTCGATCCATTCCTAAACATCTTTGACATC AAGAAAATGACATCGATGCCTCCAATTCCATTTCCCGCTGGCGCTGCCTATGTTCGCATGCATCCCAGAATGCAG ACCACTAGCATAGTCGTCTCGCAGGTCGGACAGATGCATGTTATCGATCTTATGAACCCCAATACCAGCAATGTT CGTCAGGCAAATGTGCTTACGTACCTCAGCATGTTTGAGATTGCTCCCTCGGGAGAAGCTCTAGCCCTCACCGAT CCCGAATGTTTTATACATCTCTGGGGCTCGCCCACCAAGCTGCATTTTGTTGATCTTCCCACTCCCCTTGAATTT GCCACTGCGGTCGAGCCGCGGCCTCCCATAGAATGGACAGCAGACACCCCTTTGAACACGATTGGATTGCCATAC TATAGAGAAACTCTTTTTTCCGCCTGGCCAGATCTTGTGTGTGATGTCGGCGCTCCTCCGCCCCGCATAGACGCT CAATTTCTGAGTGGACTCAAGGCGGCCGAATTCGGCCTCTATGGACGAAATAGTCGTGGTTTGCGAAGAAATCAA GCCGAGAACACACGAAATGGTGGGAAACTGGCAGCTTCTGGGCTCAAGGCTCCTAAATTCTTGAGCGAAAAGGCT CGCGAACTTGCCAAAGACGAATCGAGGAACCTGGAAGAAAGAACAGACGACTTGGCAAGCCCCACGGTCGACGTC GACCTTGTCAGCAAAAAGAGTGAGGTGCCCGTCATGTATCGCAATGTTGAAATCAAGTACAGCAAGTTTGGTGTC GACGATTTCGATTTTGGATACTATAACAAGACGCGGTATTCTGGGTTGGAAATTCACATTTCCAACTCGTACGCC AATTCCCTGCTGCAGATTATGAACTTTACGCCTCTTATCCGCAACCTTGCCCTAGAACATGCCGCAACAGCCTGT GTTAGCGACTCGTGTCTGCTTTGCGAACTGGGGTTCTTGTTTGACATGCTCCAAAAAGCAGACGGCTCAATATGT CAAGCCACCAACCTGCTCAGGACCCTGAGCCATCACCCTCAAGCTGCTCCTCTGGGTCTTCTGGAAGAAGATGCG CACAGCTCATCCTTGAATGTGATGCTACAAGGGCTCACGCGTTTCATGCTGGACAAGATTGTACAGGACTATAAA AGCATGGCACCGTCCCCTATGACAATGGAACATGCCCTTGCAACTTCGGCCACCAGCTCTATCCGCTGCATGAGT TGCAGGTCCGAGTACACTCGGCCAGGGTCAACTTATGTCAATGATCTGCTCTACCCTCCACAGAAGACTTCGATA CGTGGCAACAAGCCATCAAGCATCACCTTCTCTCAAGTATTGAAGAGTAGCATAGAGAGAGAAACGACATCCAAG GGCTGGTGCAGTTGGCTTCCGGAAGAGGTGGGTGTCATAGTAGACCAAGGACAGTTCTACTGCTACGAAGGGGAA GACCTGAAACTGCATTTACAGCGAGGCATGCATAACATCATTGTGTACTCGCTTATTGGCATGGCGGTCAATATT GAGAGCGGCCAGGCTCAGAAGCCGCATCTTGTGGCCATGGTCAACGTGGCACTATCGCAGCCACAGGCTCCTAAT CAGAGCCAGTGGCATCTGTTCAACGACTTCCTAGTCCGCCCCATCAGCACAGAGGACGCTCTCGCATTCAATATT TCGTGGAAAGTCCCCTCAGTCGTGGCTTTCCAAATGAAGGAGGCCAATAATAAGATTAATGACGACTGGAAACTG AAGCTGGACACTTCAATTCTTTATCGAGACTTTGGTCCTGCGACACAGCTAGCGCACAAAACATACCAGGTCTTG GACCCCGACCGTGAGCGTCCGGGGCCTGATTCAATAGTGGCGCTGGACACCGAGTTTGTCGCTGTTCGGCAACCA GAAATTGAGATGAATTCGGACGGCGAGCGCGAGACAATTCGGCCCATAGTATATGCTCTTGCACGAGTGTCCGTA GTTCGCGGTCAGGGAGAGCAAGAGGGGCGCCCGTTTGTCGATGACTACATTGCCATCAAGGAGCCCATTGTTGAC TATCTCACGTCATACTCTGGCATTCGACAGGGCGATCTGGATCCTCGTACCTCGAACCACAGCCTCGTGTCACTC AAGATGGCCTACAAAAAACTTTGGCTGCTAGTCAATCTTGGCTGCCGGTTCCTCGGCCATGGCCTGCGGCAGGAC TTTCGCGTCATCAACATTCATGTGCCCCGCGCACAGGTGATTGACACTATTGACCTTTTCTTTTTGCGATCGCGG CTGCGCAAGCTGTCACTTGCATTCCTGGCATGGTATCTTCTCAAGGAAGATATACAAATGGAAACGCACGACTCG ATTGAGGACGCCCGCACTGCCCTTAAATTGTATCGCAAGTACCTCGAGTTTCAGGATGCAGGCATCTGGGACACG ATGCTGCAGGATATCTACCGGGCAGGCAGAGAAGTCAACTTCCGGCCGCCAAAGAGGGACGAGAGCGCTTCTGTT ACTGGTGTTGGACTACAAGGAACAGAGTCGCCGCCCTTGTCTGGTGATGGCACCGCAACGCTGCCATCAACGCCC GTCCCCAAGCCGGCAGTGCTGGCTGGCGCTGCAACAGCGTTTGGTGGTGGTAGCTGGACTCCGGGAAAGAGTGGT GGTCCTTCGCCACTACGGTAG
Gene	>OphauG2\|113 ATGGATGGAGACTGGGACGAGGTGAGCCGCTGGTTGTCGCGCCCGGTCACGATTGATGCTTCATGGCTAATTGGG CAGGTCTCCCGCATCCCTTTCCCGCCTCCGGGCGGCGTCCACTCGATGCCATCGCCGGTGACGACAATGACGTTT GATACGTCTCACGAGCTTCTCTGGGCTGGGAATGAATTTGTACGTGGCATGATTTGGATTTCGTCTCGACAATGC CAAAGCTCTTACTCTCTTCGACGGCTAGGGTCGCGTCACCTCCTTCATCAGTCCAGACCTGCAGAAATACACGTC TTTCAAGGCCCATCTATCCTCGGACGGCCCGGTCCGCCAGATCTTGGTCAATGACAAGGGTATCATTGCTCTAGG AGCAAGGGACCTTCACATGGCAATGCGGAGAGGGCCTCCAATTTGGCACCTAAGGTGCGGCATGCCAGCCAGGCT TCCTCTTGCAACCCCCCTCCCCGACTAACTCTGCTGGTCAAGACACGACGACATGATGGATATGCGATGCATGGG CTTTACATCCAAAGGCACCACAGAGGTGCTTGTAGCTGGCTTACAAGATAAGCTACTGCTTGTCGACCTTGCTAA GGGAGAGGTGGTCAAGCAGGTGAGCCTCTACCTCTATTCGCGCCGCTGGAGCCTCCCACTCATGAACTGCAGCTC AGGACAGAGCATAACTACTCCATCATCAAGAGTGGCCGGTACATATGCGCCGCCACTCAGACCGGATCTGTTCAT CTCTTGGATCCCGTCAGCTTGAGTCTCGTTCGGTCGTGGAACGCCCACTCGGCCTTGATCAACGACATGGATACG CAACATGACTTTATCGTTACTTGTGGTTACTCTCTGCGTCAGGGCCAGGCGTACATGCTCGATCCATTCCTAAAC ATCTTTGACATCAAGAAAATGACATCGATGCCTCCAATTCCATTTCCCGCTGGCGCTGCCTATGTTCGCATGCAT CCCAGAATGCAGACCACTAGCATAGTCGTCTCGCAGGTCGGACAGATGCATGTTATCGATCTTATGAACCCCAAT ACCAGCAATGTTCGTCAGGCAAATGTGCTTACGTACCTCAGCATGTTTGAGATTGCTCCCTCGGGAGAAGCTCTA GCCCTCACCGATCCCGAATGTTTTATACATCTCTGGGGCTCGCCCACCAAGCTGCATTTTGTTGATCTTCCCACT CCCCTTGAATTTGCCACTGCGGTCGAGCCGCGGCCTCCCATAGAATGGACAGCAGACACGTGCGTGTGCTTGTCC TTGCTCCTTCTTCGTCTCATGCTGACATGGCGACAGCCCTTTGAACACGATTGGATTGCCATACTATAGAGAAAC TCTTTTTTCCGCCTGGCCAGATCTTGTGTGTGATGTCGGCGCTCCTCCGCCCCGCATAGACGCTCAATTTCTGAG TGGACTCAAGGCGGCCGAATTCGGCCTCTATGGACGAAATAGTCGTGGTTTGCGAAGAAATCAAGCCGAGAACAC ACGAAATGGTGGGAAACTGGCAGCTTCTGGGCTCAAGGCTCCTAAATTCTTGAGCGAAAAGGCTCGCGAACTTGC CAAAGACGAATCGAGGAACCTGGAAGAAAGAACAGACGACTTGGCAAGCCCCACGGTCGACGTCGACCTTGTCAG CAAAAAGAGTGAGGTGCCCGTCATGTATCGCAATGTTGAAATCAAGTACAGCAAGTTTGGTGTCGACGATTTCGA TTTTGGGTGCGCAACCCCAAAGCTCCCCCTGGTCAAAGGCCTTGGCTCATCAGACACAGATACTATAACAAGACG CGGTATTCTGGGTTGGAAATTCACATTTCCAACTCGTACGCCAATTCCCTGCTGCAGATTATGAACTTTACGCCT CTTATCCGCAACCTTGCCCTAGAACATGCCGCAACAGCCTGTGTTAGCGACTCGTGTCTGCTTTGCGAACTGGGG TTCTTGTTTGACATGCTCCAAAAAGCAGACGGCTCAATATGTCAAGCCACCAACCTGCTCAGGACCCTGAGCCAT CACCCTCAAGCTGCTCCTCTGGGTCTTCTGGAAGAAGATGCGCACAGCTCATCCTTGAATGTGATGCTACAAGGG CTCACGCGTTTCATGCTGGACAAGATTGTACAGGACTATAAAAGCATGGCACCGTCCCCTATGACAATGGAACAT GTAGCCACTCCCCATCATGATTCTCTCGTGGACTGACGTCTGTTTGCTGACCATGGACAGGCCCTTGCAACTTCG GCCACCAGCTCTATCCGCTGCATGAGTTGCAGGTCCGAGTACACTCGGCCAGGGTCAACTTATGTCAATGATCTG CTCTACCCTCCACAGGTGTGTTAGATATTCTGACAGTTTCTGTCCAAGTGATTGCTCACGGTGCCGAGCAGAAGA CTTCGATACGTGGCAACAAGCCATCAAGCATCACCTTCTCTCAAGTATTGAAGAGTAGCATAGAGAGAGAAACGA CATCCAAGGGCTGGTGCAGTAGGTGCCAACGATACCAGACAATCGCAACGAGGAAAACAATACACAGTATCCCGG CTGTGCTGATGCTCAATACTGCCATTACAAGTCTTGACCATCGCATGCTTTGGTCAACTCCAGGTTGGCTTCCGG AAGAGGTGGGTGTCATAGTAGACCAAGGACAGTTCTACTGCTACGAAGGGGAAGACCTGAAACTGCATTTACAGC GAGGCATGCATAACATCATTGTGTACTCGCTTATTGGCATGGCGGTCAATATTGAGAGCGGCCAGGCTCAGAAGC CGCATCTTGTGGCCATGGTCAACGGTAGGCTTTGGTTTTGGCCTTGAACAAGTCATCCGTTGGCTGACTAGATTT GTAGTGGCACTATCGCAGCCACAGGCTCCTAATCAGAGCCAGTGGCATCTGTTCAACGACTTCCTAGTCCGCCCC ATCAGCACAGAGGACGCTCTCGCATTCAATATTTCGTGGAAAGTCCCCTCAGTCGTGGCTTTCCAAATGAAGGAG GCCAATAATAAGATTAATGACGACTGGAAACTGAAGCTGGACACTTCAATTCTTTATCGAGACTTTGGGTAAGTA AATGGGCTTCAAGACAAGATGGCAGCGCCTTTGATTGACGTGATGCCGCTGCAGTCCTGCGACACAGCTAGCGCA CAAAACATACCAGGTCTTGGACCCCGACCGTGAGCGTCCGGGGCCTGATTCAATAGTGGCGCTGGACACCGAGTT TGTCGCTGTTCGGCAACCAGAAATTGAGATGAATTCGGACGGCGAGCGCGAGACAATTCGGCCCATAGTATATGC TCTTGCACGAGTGTCCGTAGTTCGCGGTCAGGGAGAGCAAGAGGGGCGCCCGTTTGTCGATGACTACATTGCCAT CAAGGAGCCCATTGTTGACTATCTCACGTCATACTCTGGCATTCGACAGGGCGATCTGGATCCTCGTACCTCGAA CCACAGCCTCGTGTCACTCAAGATGGCCTACAAAAAACTTTGGCTGCTAGTCAATCTTGGCTGCCGGTTCCTCGG CCATGGCCTGCGGCAGGACTTTCGCGTCATCAACATTCATGTGCCCCGCGCACAGGTGATTGACACTATTGACCT TTTCTTTTTGCGATCGCGGCTGCGCAAGCTGTCACTTGCATTCCTGGCATGGTATCTTCTCAAGGAAGATATACA AATGGAAACGCACGACTCGATTGAGGACGCCCGCACTGCCCTTAAATTGTATCGCAAGTACCTCGAGTTTCAGGA TGCAGGCATCTGGGACACGATGCTGCAGGATATCTACCGGGCAGGCAGAGAAGTCAACTTCCGGCCGCCAAAGAG GGACGAGAGCGCTTCTGTTACTGGTGTTGGACTACAAGGAACAGAGTCGCCGCCCTTGTCTGGTGATGGCACCGC AACGCTGCCATCAACGCCCGTCCCCAAGCCGGCAGTGCTGGCTGGCGCTGCAACAGCGTTTGGTGGTGGTAGCTG GACTCCGGGAAAGAGTGGTGGTCCTTCGCCACTACGGTAG

Fungal Genomics

General Properties

Overview

PFAM Domains

Swissprot hits

GO

Deeploc

SignalP

Transmembrane Domains

Transcription Factor Class

CAZymes

Secondary Metabolism

Expression data

Orthologs

Sequences