Ophiocordyceps australis map64 (Brazil)

General Properties

Protein ID	OphauB2\|4351
Gene name
Location	Contig_290:228..3653
Strand	+
Gene length (bp)	3425
Transcript length (bp)	3363
Coding sequence length (bp)	3363
Protein length (aa)	1121

PFAM Domains

PFAM Domain ID	Short name	Long name	E-value	Start	End
PF00270	DEAD	DEAD/DEAH box helicase	1.8E-24	351	525
PF09369	MZB	MrfA Zn-binding domain	6.1E-21	955	1044
PF00271	Helicase_C	Helicase conserved C-terminal domain	4.1E-10	581	691
PF04851	ResIII	Type III restriction enzyme, res subunit	1.4E-08	289	488
PF08839	CDT1	DNA replication factor CDT1 like	2.0E-05	50	138

Swissprot hits

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|O13983\|HRQ1_SCHPO	ATP-dependent helicase hrq1 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=hrq1 PE=1 SV=4	50	1096	0.0E+00
sp\|Q05549\|HRQ1_YEAST	ATP-dependent helicase HRQ1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=HRQ1 PE=1 SV=1	53	1096	0.0E+00
sp\|P50830\|YPRA_BACSU	Uncharacterized ATP-dependent helicase YprA OS=Bacillus subtilis (strain 168) GN=yprA PE=3 SV=1	337	1047	2.0E-113
sp\|Q58969\|Y1574_METJA	Uncharacterized ATP-dependent helicase MJ1574 OS=Methanocaldococcus jannaschii (strain ATCC 43067 / DSM 2661 / JAL-1 / JCM 10045 / NBRC 100440) GN=MJ1574 PE=3 SV=1	329	762	2.0E-43
sp\|O27830\|HELX_METTH	Uncharacterized ATP-dependent helicase MTH_1802 OS=Methanothermobacter thermautotrophicus (strain ATCC 29096 / DSM 1053 / JCM 10044 / NBRC 100330 / Delta H) GN=MTH_1802 PE=3 SV=1	349	689	5.0E-17

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|O13983\|HRQ1_SCHPO	ATP-dependent helicase hrq1 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=hrq1 PE=1 SV=4	50	1096	0.0E+00
sp\|Q05549\|HRQ1_YEAST	ATP-dependent helicase HRQ1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=HRQ1 PE=1 SV=1	53	1096	0.0E+00
sp\|P50830\|YPRA_BACSU	Uncharacterized ATP-dependent helicase YprA OS=Bacillus subtilis (strain 168) GN=yprA PE=3 SV=1	337	1047	2.0E-113
sp\|Q58969\|Y1574_METJA	Uncharacterized ATP-dependent helicase MJ1574 OS=Methanocaldococcus jannaschii (strain ATCC 43067 / DSM 2661 / JAL-1 / JCM 10045 / NBRC 100440) GN=MJ1574 PE=3 SV=1	329	762	2.0E-43
sp\|O27830\|HELX_METTH	Uncharacterized ATP-dependent helicase MTH_1802 OS=Methanothermobacter thermautotrophicus (strain ATCC 29096 / DSM 1053 / JCM 10044 / NBRC 100330 / Delta H) GN=MTH_1802 PE=3 SV=1	349	689	5.0E-17
sp\|Q57742\|HELX_METJA	Uncharacterized ATP-dependent helicase MJ0294 OS=Methanocaldococcus jannaschii (strain ATCC 43067 / DSM 2661 / JAL-1 / JCM 10045 / NBRC 100440) GN=MJ0294 PE=3 SV=1	353	691	5.0E-16
sp\|P95949\|HELX_SULSO	Uncharacterized ATP-dependent helicase SSO0112 OS=Sulfolobus solfataricus (strain ATCC 35092 / DSM 1617 / JCM 11322 / P2) GN=SSO0112 PE=3 SV=1	347	689	5.0E-15
sp\|Q09811\|HUS2_SCHPO	ATP-dependent DNA helicase hus2/rqh1 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=rqh1 PE=1 SV=1	308	699	2.0E-13
sp\|O94762\|RECQ5_HUMAN	ATP-dependent DNA helicase Q5 OS=Homo sapiens GN=RECQL5 PE=1 SV=2	353	699	1.0E-12
sp\|O59025\|HELS_PYRHO	ATP-dependent DNA helicase Hel308 OS=Pyrococcus horikoshii (strain ATCC 700860 / DSM 12428 / JCM 9974 / NBRC 100139 / OT-3) GN=hel308 PE=3 SV=1	337	724	4.0E-12
sp\|Q9V0A9\|HELS_PYRAB	ATP-dependent DNA helicase Hel308 OS=Pyrococcus abyssi (strain GE5 / Orsay) GN=hel308 PE=3 SV=1	337	724	1.0E-11
sp\|Q8VID5\|RECQ5_MOUSE	ATP-dependent DNA helicase Q5 OS=Mus musculus GN=Recql5 PE=1 SV=1	363	699	1.0E-11
sp\|Q0W6L1\|HELS_METAR	ATP-dependent DNA helicase Hel308 OS=Methanocella arvoryzae (strain DSM 22066 / NBRC 105507 / MRE50) GN=hel308 PE=3 SV=1	335	713	4.0E-11
sp\|D4ACP5\|RECQ5_RAT	ATP-dependent DNA helicase Q5 OS=Rattus norvegicus GN=Recql5 PE=1 SV=1	353	699	4.0E-10
sp\|P51979\|HFM1_YEAST	ATP-dependent DNA helicase MER3 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=HFM1 PE=1 SV=3	346	524	3.0E-09
sp\|O48534\|DEXHD_ARATH	DExH-box ATP-dependent RNA helicase DExH13 OS=Arabidopsis thaliana GN=At2g42270 PE=2 SV=1	361	532	2.0E-08
sp\|Q5UYM9\|HELS_HALMA	ATP-dependent DNA helicase Hel308 OS=Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809) GN=hel308 PE=3 SV=1	345	547	8.0E-08

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GO

GO Term	Description	Terminal node
GO:0003676	nucleic acid binding	Yes
GO:0005524	ATP binding	Yes
GO:0016787	hydrolase activity	Yes
GO:0003677	DNA binding	Yes
GO:0017076	purine nucleotide binding	No
GO:0005488	binding	No
GO:0003674	molecular_function	No
GO:0035639	purine ribonucleoside triphosphate binding	No
GO:0000166	nucleotide binding	No
GO:0043167	ion binding	No
GO:0032553	ribonucleotide binding	No
GO:0097367	carbohydrate derivative binding	No
GO:0003824	catalytic activity	No
GO:0043168	anion binding	No
GO:0097159	organic cyclic compound binding	No
GO:1901265	nucleoside phosphate binding	No
GO:0032555	purine ribonucleotide binding	No
GO:1901363	heterocyclic compound binding	No
GO:0032559	adenyl ribonucleotide binding	No
GO:0036094	small molecule binding	No
GO:0030554	adenyl nucleotide binding	No

SignalP

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SignalP signal predicted	Location (based on Ymax)	D score (significance: > 0.45)
No	1 - 37	0.45

Transmembrane Domains

(None)

Transcription Factor Class

(None)

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	>OphauB2\|4351 MLGNVASIETPGHRKRKISDQDNATSKCRTRPMLRDAASNANVDCVMEWPPLFKTLERTHRALNVVFTFCSTRKH LATTLDRLRPAVETHIKKHLTSYEIAQIVALRPEGIKFDYVDELMLQLDVRGSERDDTFRTSGSASSQARTHDSS VGGFTGEESFDSSKATDARASSDRQVLFFEFVDNDLKRQVTDKKTGEAIQPRRKLRDEELRLPVYGQKQMVDVIE RRNQKFANAISLFLNSCVEDDRDPHMVLEQRAQAYMPKPPAQHEVDVAQLSRPREMIPRTIPEQRQSIAAIVEEL KSSPWYSGQIVPDGHRVFEAQEPVYGHLDFQLSQNLVNALYNAKGITRFYAHQAEALNSLNRGHNVVVATSTSSG KSLIYQLPVLHALEKDGDSRAMFIFPTKALAQDQKRSLREMLAYMPQLEETMVETFDGDTPMCQRDSIRQNARVI FTNPDMLHMTLLPQEERWRSFFRSLRYVVVDELHHYNGLLGSHVAFIMRRLRRVCGAIGNRHISFVSCSATVANP KKHFEAIFGMPGVCLVDYDGSPSGRKEFLCWNTPFKEPGDPASGRGNAKLECARLFCALMLRGVRMIAFCRVRAQ CEALVRAIRLQLESMGRSDCARLVMGYRGGYTAADRRRLEADMSEGRLMGIVATTALELGIDIGALDCVLTWGFP YTIANLRQQSGRAGRRNKDSLCILVGDGFPTDQHYMQNPSELFTKPNCELGIDLDNMLVREGHVQCAAYEMPLCP DQDCQYFGHDLAAVCQERLLKDELGFYHCHDRFRPTPSKFVAIRESQEEHFAIVDTTNGRQEVLEQVEASRATFT IYDGAIFLHQGETYLVRDFAPQKLMARVEKVKVDWTTTQRDYTDVDPIETEAIGLIPSSPSRAYYGTIKVQQHVF GYFKVDSKGRVLDAVQVDNGPVIRYTKGMWLDVPRRALAIVEQRRLNAAAAIHAAEHAVMSLLPTFVVSMPGEVR TECKVAAKEFAQRPTLRRRPARLTLYDAKGGAQGSGLSTKAFDHVDGLLRMALQRVEGCPCRRGCLECVASETCK HANEVMSKAGARVILCTLLNLDIDLDELPMGPEDDNPLAHDTIIPAQPVPTRSSAMSRTDQSLPRLPTQP*
Coding	>OphauB2\|4351 ATGCTGGGAAATGTGGCAAGTATAGAGACACCGGGACACCGCAAGAGAAAGATTTCCGACCAAGATAACGCGACG TCGAAATGCCGGACCAGGCCAATGCTGCGAGACGCAGCCAGCAACGCCAATGTGGACTGCGTCATGGAATGGCCG CCGCTCTTCAAAACTCTCGAGCGGACGCACCGAGCGCTTAATGTTGTCTTTACGTTTTGCAGCACGCGAAAACAT CTAGCCACAACGTTGGATAGGCTCAGACCGGCGGTCGAGACACACATCAAGAAACACCTGACGTCTTACGAGATT GCCCAAATCGTAGCTTTACGCCCCGAGGGCATCAAGTTTGACTACGTGGACGAACTCATGCTGCAGCTTGACGTC AGGGGCTCCGAGAGAGATGATACATTCCGAACCTCTGGGTCTGCATCATCTCAAGCGAGAACACATGACTCGTCT GTTGGCGGATTTACAGGCGAGGAGAGCTTTGATAGTAGCAAGGCAACAGATGCGCGCGCCTCGAGTGATAGGCAG GTCCTTTTCTTCGAGTTTGTCGACAATGATTTGAAGCGCCAGGTGACGGATAAGAAGACGGGAGAGGCGATACAG CCGAGGAGGAAGCTGCGTGATGAGGAGCTGAGGCTGCCCGTGTATGGCCAGAAGCAAATGGTTGATGTTATTGAG AGGCGCAATCAGAAATTCGCAAACGCCATTAGCCTATTCCTCAACTCGTGTGTTGAAGACGACAGAGACCCCCAC ATGGTCCTTGAGCAGCGAGCTCAGGCGTACATGCCCAAGCCACCTGCTCAACATGAAGTGGACGTGGCACAGTTA TCAAGGCCGAGGGAGATGATTCCTCGCACAATTCCCGAGCAGCGCCAAAGCATTGCTGCTATTGTTGAGGAGCTC AAGAGTAGCCCGTGGTATAGCGGGCAGATTGTTCCCGACGGGCATCGTGTGTTTGAAGCACAGGAGCCCGTTTAC GGCCACCTCGACTTCCAGCTGAGCCAGAATCTAGTAAATGCCCTCTACAACGCAAAGGGCATCACGCGCTTCTAT GCGCACCAGGCTGAGGCGCTCAACAGTCTCAACCGAGGGCACAATGTTGTCGTGGCCACGTCGACGAGTTCGGGC AAGTCGCTAATTTACCAGCTTCCGGTGCTGCATGCGCTCGAGAAAGACGGCGACTCGCGTGCCATGTTCATTTTC CCCACCAAGGCGCTGGCACAAGATCAAAAGCGCAGCCTGAGGGAGATGCTGGCATATATGCCCCAACTCGAGGAG ACCATGGTGGAAACGTTTGACGGCGACACGCCCATGTGCCAACGCGACTCAATACGCCAGAATGCCAGGGTCATT TTCACAAATCCAGACATGTTGCACATGACTCTTTTGCCCCAGGAAGAGCGGTGGAGAAGCTTTTTCAGGAGCCTG CGGTACGTGGTAGTCGATGAGCTGCATCACTACAACGGACTCTTGGGCTCCCACGTAGCCTTCATCATGCGCAGA CTGAGGCGTGTGTGTGGTGCAATTGGGAACAGACACATCAGCTTTGTGTCATGCTCAGCGACAGTGGCCAATCCA AAGAAGCATTTCGAGGCAATATTTGGCATGCCAGGTGTGTGCCTTGTCGACTACGATGGCTCGCCGTCAGGGCGC AAAGAGTTTCTGTGCTGGAACACGCCATTCAAGGAGCCTGGCGACCCGGCGAGCGGCCGCGGCAACGCCAAGCTC GAGTGTGCACGCCTCTTTTGTGCCCTCATGCTTCGAGGCGTCCGTATGATTGCATTTTGTCGCGTTCGGGCCCAG TGCGAGGCATTGGTTCGGGCAATCCGGCTCCAGCTCGAATCAATGGGCAGGTCTGACTGCGCGCGGCTTGTCATG GGCTATCGCGGCGGTTATACGGCGGCAGATCGTCGCCGCCTTGAAGCAGACATGTCTGAGGGCCGCCTAATGGGC ATTGTGGCAACTACAGCTCTCGAACTGGGCATTGACATTGGCGCTCTCGACTGCGTCTTGACGTGGGGGTTTCCC TATACCATTGCCAATCTTCGGCAGCAGAGTGGGCGTGCTGGACGGCGCAACAAGGATTCTCTTTGCATTCTGGTT GGAGATGGATTCCCCACAGACCAGCACTACATGCAGAATCCAAGCGAGCTCTTCACCAAGCCCAACTGCGAACTC GGCATCGACCTGGACAACATGCTGGTGCGCGAAGGCCATGTCCAGTGCGCGGCGTACGAGATGCCGCTCTGCCCA GACCAAGACTGCCAATACTTTGGACACGACCTGGCCGCTGTGTGTCAGGAGCGGCTGCTCAAAGACGAGCTCGGC TTCTACCACTGCCACGACCGCTTCCGACCGACTCCATCCAAGTTTGTTGCCATTCGTGAAAGCCAAGAGGAGCAC TTTGCCATTGTGGACACGACGAATGGCAGACAGGAAGTTCTGGAGCAGGTTGAAGCATCGCGGGCGACATTTACC ATTTACGACGGCGCCATCTTCCTTCACCAGGGCGAGACGTACCTCGTGCGTGACTTTGCGCCCCAGAAGCTCATG GCGCGAGTTGAAAAGGTCAAGGTGGACTGGACAACGACGCAGCGCGACTACACCGACGTGGACCCAATAGAGACC GAGGCCATTGGGCTGATACCGTCATCGCCATCACGTGCCTACTATGGCACCATCAAGGTGCAGCAGCATGTCTTT GGCTACTTCAAGGTGGACAGCAAGGGCCGGGTGCTGGATGCGGTGCAAGTGGACAATGGACCGGTGATACGCTAC ACCAAGGGCATGTGGCTCGATGTGCCCCGGCGGGCGCTGGCCATTGTCGAGCAGCGACGACTCAACGCGGCTGCA GCCATTCATGCAGCCGAGCACGCCGTCATGAGCCTGCTGCCCACATTTGTCGTGAGCATGCCGGGCGAGGTGCGG ACCGAATGCAAGGTGGCAGCCAAGGAGTTTGCACAGCGGCCGACTCTGCGAAGACGACCAGCCAGACTGACGCTC TACGACGCAAAGGGGGGAGCTCAGGGCTCCGGCCTCAGCACAAAGGCCTTTGATCACGTTGACGGGCTGTTGCGC ATGGCGCTACAGCGGGTCGAGGGCTGCCCGTGCCGGCGCGGCTGTCTCGAATGTGTCGCCTCGGAGACGTGCAAA CACGCCAACGAAGTCATGAGCAAGGCCGGCGCTCGTGTCATTCTGTGCACCCTCTTGAACCTGGACATTGACCTT GACGAGCTGCCCATGGGGCCCGAAGACGACAATCCGCTTGCCCACGACACCATTATTCCTGCGCAGCCCGTGCCG ACGAGAAGCAGTGCAATGTCTCGCACTGACCAATCTCTGCCTCGACTACCAACCCAACCTTAG
Transcript	>OphauB2\|4351 ATGCTGGGAAATGTGGCAAGTATAGAGACACCGGGACACCGCAAGAGAAAGATTTCCGACCAAGATAACGCGACG TCGAAATGCCGGACCAGGCCAATGCTGCGAGACGCAGCCAGCAACGCCAATGTGGACTGCGTCATGGAATGGCCG CCGCTCTTCAAAACTCTCGAGCGGACGCACCGAGCGCTTAATGTTGTCTTTACGTTTTGCAGCACGCGAAAACAT CTAGCCACAACGTTGGATAGGCTCAGACCGGCGGTCGAGACACACATCAAGAAACACCTGACGTCTTACGAGATT GCCCAAATCGTAGCTTTACGCCCCGAGGGCATCAAGTTTGACTACGTGGACGAACTCATGCTGCAGCTTGACGTC AGGGGCTCCGAGAGAGATGATACATTCCGAACCTCTGGGTCTGCATCATCTCAAGCGAGAACACATGACTCGTCT GTTGGCGGATTTACAGGCGAGGAGAGCTTTGATAGTAGCAAGGCAACAGATGCGCGCGCCTCGAGTGATAGGCAG GTCCTTTTCTTCGAGTTTGTCGACAATGATTTGAAGCGCCAGGTGACGGATAAGAAGACGGGAGAGGCGATACAG CCGAGGAGGAAGCTGCGTGATGAGGAGCTGAGGCTGCCCGTGTATGGCCAGAAGCAAATGGTTGATGTTATTGAG AGGCGCAATCAGAAATTCGCAAACGCCATTAGCCTATTCCTCAACTCGTGTGTTGAAGACGACAGAGACCCCCAC ATGGTCCTTGAGCAGCGAGCTCAGGCGTACATGCCCAAGCCACCTGCTCAACATGAAGTGGACGTGGCACAGTTA TCAAGGCCGAGGGAGATGATTCCTCGCACAATTCCCGAGCAGCGCCAAAGCATTGCTGCTATTGTTGAGGAGCTC AAGAGTAGCCCGTGGTATAGCGGGCAGATTGTTCCCGACGGGCATCGTGTGTTTGAAGCACAGGAGCCCGTTTAC GGCCACCTCGACTTCCAGCTGAGCCAGAATCTAGTAAATGCCCTCTACAACGCAAAGGGCATCACGCGCTTCTAT GCGCACCAGGCTGAGGCGCTCAACAGTCTCAACCGAGGGCACAATGTTGTCGTGGCCACGTCGACGAGTTCGGGC AAGTCGCTAATTTACCAGCTTCCGGTGCTGCATGCGCTCGAGAAAGACGGCGACTCGCGTGCCATGTTCATTTTC CCCACCAAGGCGCTGGCACAAGATCAAAAGCGCAGCCTGAGGGAGATGCTGGCATATATGCCCCAACTCGAGGAG ACCATGGTGGAAACGTTTGACGGCGACACGCCCATGTGCCAACGCGACTCAATACGCCAGAATGCCAGGGTCATT TTCACAAATCCAGACATGTTGCACATGACTCTTTTGCCCCAGGAAGAGCGGTGGAGAAGCTTTTTCAGGAGCCTG CGGTACGTGGTAGTCGATGAGCTGCATCACTACAACGGACTCTTGGGCTCCCACGTAGCCTTCATCATGCGCAGA CTGAGGCGTGTGTGTGGTGCAATTGGGAACAGACACATCAGCTTTGTGTCATGCTCAGCGACAGTGGCCAATCCA AAGAAGCATTTCGAGGCAATATTTGGCATGCCAGGTGTGTGCCTTGTCGACTACGATGGCTCGCCGTCAGGGCGC AAAGAGTTTCTGTGCTGGAACACGCCATTCAAGGAGCCTGGCGACCCGGCGAGCGGCCGCGGCAACGCCAAGCTC GAGTGTGCACGCCTCTTTTGTGCCCTCATGCTTCGAGGCGTCCGTATGATTGCATTTTGTCGCGTTCGGGCCCAG TGCGAGGCATTGGTTCGGGCAATCCGGCTCCAGCTCGAATCAATGGGCAGGTCTGACTGCGCGCGGCTTGTCATG GGCTATCGCGGCGGTTATACGGCGGCAGATCGTCGCCGCCTTGAAGCAGACATGTCTGAGGGCCGCCTAATGGGC ATTGTGGCAACTACAGCTCTCGAACTGGGCATTGACATTGGCGCTCTCGACTGCGTCTTGACGTGGGGGTTTCCC TATACCATTGCCAATCTTCGGCAGCAGAGTGGGCGTGCTGGACGGCGCAACAAGGATTCTCTTTGCATTCTGGTT GGAGATGGATTCCCCACAGACCAGCACTACATGCAGAATCCAAGCGAGCTCTTCACCAAGCCCAACTGCGAACTC GGCATCGACCTGGACAACATGCTGGTGCGCGAAGGCCATGTCCAGTGCGCGGCGTACGAGATGCCGCTCTGCCCA GACCAAGACTGCCAATACTTTGGACACGACCTGGCCGCTGTGTGTCAGGAGCGGCTGCTCAAAGACGAGCTCGGC TTCTACCACTGCCACGACCGCTTCCGACCGACTCCATCCAAGTTTGTTGCCATTCGTGAAAGCCAAGAGGAGCAC TTTGCCATTGTGGACACGACGAATGGCAGACAGGAAGTTCTGGAGCAGGTTGAAGCATCGCGGGCGACATTTACC ATTTACGACGGCGCCATCTTCCTTCACCAGGGCGAGACGTACCTCGTGCGTGACTTTGCGCCCCAGAAGCTCATG GCGCGAGTTGAAAAGGTCAAGGTGGACTGGACAACGACGCAGCGCGACTACACCGACGTGGACCCAATAGAGACC GAGGCCATTGGGCTGATACCGTCATCGCCATCACGTGCCTACTATGGCACCATCAAGGTGCAGCAGCATGTCTTT GGCTACTTCAAGGTGGACAGCAAGGGCCGGGTGCTGGATGCGGTGCAAGTGGACAATGGACCGGTGATACGCTAC ACCAAGGGCATGTGGCTCGATGTGCCCCGGCGGGCGCTGGCCATTGTCGAGCAGCGACGACTCAACGCGGCTGCA GCCATTCATGCAGCCGAGCACGCCGTCATGAGCCTGCTGCCCACATTTGTCGTGAGCATGCCGGGCGAGGTGCGG ACCGAATGCAAGGTGGCAGCCAAGGAGTTTGCACAGCGGCCGACTCTGCGAAGACGACCAGCCAGACTGACGCTC TACGACGCAAAGGGGGGAGCTCAGGGCTCCGGCCTCAGCACAAAGGCCTTTGATCACGTTGACGGGCTGTTGCGC ATGGCGCTACAGCGGGTCGAGGGCTGCCCGTGCCGGCGCGGCTGTCTCGAATGTGTCGCCTCGGAGACGTGCAAA CACGCCAACGAAGTCATGAGCAAGGCCGGCGCTCGTGTCATTCTGTGCACCCTCTTGAACCTGGACATTGACCTT GACGAGCTGCCCATGGGGCCCGAAGACGACAATCCGCTTGCCCACGACACCATTATTCCTGCGCAGCCCGTGCCG ACGAGAAGCAGTGCAATGTCTCGCACTGACCAATCTCTGCCTCGACTACCAACCCAACCTTAG
Gene	>OphauB2\|4351 ATGCTGGGAAATGTGGCAAGTATAGAGACACCGGGACACCGCAAGAGAAAGATTTCCGACCAAGATAACGCGACG TCGAAATGCCGGACCAGGCCAATGCTGCGAGACGCAGCCAGCAACGCCAATGTGGACTGCGTCATGGAATGGCCG CCGCTCTTCAAAACTCTCGAGCGGACGCACCGAGCGCTTAATGTTGTCTTTACGTTTTGCAGCACGCGAAAACAT CTAGCCACAACGTTGGATAGGCTCAGACCGGCGGTCGAGACACACATCAAGAAACACCTGACGTCTTACGAGATT GCCCAAATCGTAGCTTTACGCCCCGAGGGCATCAAGTTTGACTACGTGGACGAACTCATGCTGCAGCTTGACGTC AGGGGCTCCGAGAGAGATGATACATTCCGAACCTCTGGGTCTGCATCATCTCAAGCGAGAACACATGACTCGTCT GTTGGCGGATTTACAGGCGAGGAGAGCTTTGATAGTAGCAAGGCAACAGATGCGCGCGCCTCGAGTGATAGGCAG GTCCTTTTCTTCGAGTTTGTCGACAATGATTTGAAGCGCCAGGTGACGGATAAGAAGACGGGAGAGGCGATACAG CCGAGGAGGAAGCTGCGTGATGAGGAGCTGAGGCTGCCCGTGTATGGCCAGAAGCAAATGGTTGATGTTATTGAG AGGCGCAATCAGAAATTCGCAAACGCCATTAGCCTATTCCTCAACTCGTGTGTTGAAGACGACAGAGACCCCCAC ATGGTCCTTGAGCAGCGAGCTCAGGCGTACATGCCCAAGCCACCTGCTCAACATGAAGTGGACGTGGCACAGTTA TCAAGGCCGAGGGAGATGATTCCTCGCACAATTCCCGAGCAGCGCCAAAGCATTGCTGCTATTGTTGAGGAGCTC AAGAGTAGCCCGTGGTATAGCGGGCAGATTGTTCCCGACGGGCATCGTGTGTTTGAAGCACAGGAGCCCGTTTAC GGCCACCTCGACTTCCAGCTGAGCCAGAATCTAGTAAATGCCCTCTACAACGCAAAGGGCATCACGCGCTTCTAT GCGCACCAGGCTGAGGCGCTCAACAGTCTCAACCGAGGGCACAATGTTGTCGTGGCCACGTCGACGAGTTCGGGC AAGTCGCTAATTTACCAGCTTCCGGTGCTGCATGCGCTCGAGAAAGACGGCGACTCGCGTGCCATGTTCATTTTC CCCACCAAGGCGCTGGCACAAGATCAAAAGCGCAGCCTGAGGGAGATGCTGGCATATATGCCCCAACTCGAGGAG ACCATGGTGGAAACGTTTGACGGCGACACGCCCATGTGCCAACGCGACTCAATACGCCAGAATGCCAGGGTCATT TTCACAAATCCAGACATGTTGCACATGACTCTTTTGCCCCAGGAAGAGCGGTGGAGAAGCTTTTTCAGGAGCCTG CGGTACGTGGTAGGTATGTACGCTGACCGCTGCCTTGTCCAAGGAAATGTTTAATGACGCGTTCCCAATGTGTAG TCGATGAGCTGCATCACTACAACGGACTCTTGGGCTCCCACGTAGCCTTCATCATGCGCAGACTGAGGCGTGTGT GTGGTGCAATTGGGAACAGACACATCAGCTTTGTGTCATGCTCAGCGACAGTGGCCAATCCAAAGAAGCATTTCG AGGCAATATTTGGCATGCCAGGTGTGTGCCTTGTCGACTACGATGGCTCGCCGTCAGGGCGCAAAGAGTTTCTGT GCTGGAACACGCCATTCAAGGAGCCTGGCGACCCGGCGAGCGGCCGCGGCAACGCCAAGCTCGAGTGTGCACGCC TCTTTTGTGCCCTCATGCTTCGAGGCGTCCGTATGATTGCATTTTGTCGCGTTCGGGCCCAGTGCGAGGCATTGG TTCGGGCAATCCGGCTCCAGCTCGAATCAATGGGCAGGTCTGACTGCGCGCGGCTTGTCATGGGCTATCGCGGCG GTTATACGGCGGCAGATCGTCGCCGCCTTGAAGCAGACATGTCTGAGGGCCGCCTAATGGGCATTGTGGCAACTA CAGCTCTCGAACTGGGCATTGACATTGGCGCTCTCGACTGCGTCTTGACGTGGGGGTTTCCCTATACCATTGCCA ATCTTCGGCAGCAGAGTGGGCGTGCTGGACGGCGCAACAAGGATTCTCTTTGCATTCTGGTTGGAGATGGATTCC CCACAGACCAGCACTACATGCAGAATCCAAGCGAGCTCTTCACCAAGCCCAACTGCGAACTCGGCATCGACCTGG ACAACATGCTGGTGCGCGAAGGCCATGTCCAGTGCGCGGCGTACGAGATGCCGCTCTGCCCAGACCAAGACTGCC AATACTTTGGACACGACCTGGCCGCTGTGTGTCAGGAGCGGCTGCTCAAAGACGAGCTCGGCTTCTACCACTGCC ACGACCGCTTCCGACCGACTCCATCCAAGTTTGTTGCCATTCGTGAAAGCCAAGAGGAGCACTTTGCCATTGTGG ACACGACGAATGGCAGACAGGAAGTTCTGGAGCAGGTTGAAGCATCGCGGGCGACATTTACCATTTACGACGGCG CCATCTTCCTTCACCAGGGCGAGACGTACCTCGTGCGTGACTTTGCGCCCCAGAAGCTCATGGCGCGAGTTGAAA AGGTCAAGGTGGACTGGACAACGACGCAGCGCGACTACACCGACGTGGACCCAATAGAGACCGAGGCCATTGGGC TGATACCGTCATCGCCATCACGTGCCTACTATGGCACCATCAAGGTGCAGCAGCATGTCTTTGGCTACTTCAAGG TGGACAGCAAGGGCCGGGTGCTGGATGCGGTGCAAGTGGACAATGGACCGGTGATACGCTACACCAAGGGCATGT GGCTCGATGTGCCCCGGCGGGCGCTGGCCATTGTCGAGCAGCGACGACTCAACGCGGCTGCAGCCATTCATGCAG CCGAGCACGCCGTCATGAGCCTGCTGCCCACATTTGTCGTGAGCATGCCGGGCGAGGTGCGGACCGAATGCAAGG TGGCAGCCAAGGAGTTTGCACAGCGGCCGACTCTGCGAAGACGACCAGCCAGACTGACGCTCTACGACGCAAAGG GGGGAGCTCAGGGCTCCGGCCTCAGCACAAAGGCCTTTGATCACGTTGACGGGCTGTTGCGCATGGCGCTACAGC GGGTCGAGGGCTGCCCGTGCCGGCGCGGCTGTCTCGAATGTGTCGCCTCGGAGACGTGCAAACACGCCAACGAAG TCATGAGCAAGGCCGGCGCTCGTGTCATTCTGTGCACCCTCTTGAACCTGGACATTGACCTTGACGAGCTGCCCA TGGGGCCCGAAGACGACAATCCGCTTGCCCACGACACCATTATTCCTGCGCAGCCCGTGCCGACGAGAAGCAGTG CAATGTCTCGCACTGACCAATCTCTGCCTCGACTACCAACCCAACCTTAG

Fungal Genomics

General Properties

PFAM Domains

Swissprot hits

GO

SignalP

Transmembrane Domains

Transcription Factor Class

Expression data

Sequences