Ophiocordyceps australis 1348a (Ghana)

General Properties

Protein ID	OphauG2\|3673
Gene name
Location	Contig_285:11926..13621
Strand	-
Gene length (bp)	1695
Transcript length (bp)	1599
Coding sequence length (bp)	1599
Protein length (aa)	533

PFAM Domains

PFAM Domain ID	Short name	Long name	E-value	Start	End
PF00067	p450	Cytochrome P450	2.3E-15	342	510

Swissprot hits

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|Q9T0K2\|C71AK_ARATH	Cytochrome P450 71A20 OS=Arabidopsis thaliana GN=CYP71A20 PE=2 SV=2	286	498	5.0E-10
sp\|Q64505\|CP7A1_MOUSE	Cholesterol 7-alpha-monooxygenase OS=Mus musculus GN=Cyp7a1 PE=2 SV=2	108	500	4.0E-09
sp\|O49342\|C71AD_ARATH	Indoleacetaldoxime dehydratase OS=Arabidopsis thaliana GN=CYP71A13 PE=1 SV=1	323	498	5.0E-09
sp\|O48958\|C71E1_SORBI	4-hydroxyphenylacetaldehyde oxime monooxygenase OS=Sorghum bicolor GN=CYP71E1 PE=2 SV=1	314	521	6.0E-09
sp\|Q92113\|CP17A_SQUAC	Steroid 17-alpha-hydroxylase/17,20 lyase OS=Squalus acanthias GN=CYP17A1 PE=2 SV=1	97	530	6.0E-09

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|Q9T0K2\|C71AK_ARATH	Cytochrome P450 71A20 OS=Arabidopsis thaliana GN=CYP71A20 PE=2 SV=2	286	498	5.0E-10
sp\|Q64505\|CP7A1_MOUSE	Cholesterol 7-alpha-monooxygenase OS=Mus musculus GN=Cyp7a1 PE=2 SV=2	108	500	4.0E-09
sp\|O49342\|C71AD_ARATH	Indoleacetaldoxime dehydratase OS=Arabidopsis thaliana GN=CYP71A13 PE=1 SV=1	323	498	5.0E-09
sp\|O48958\|C71E1_SORBI	4-hydroxyphenylacetaldehyde oxime monooxygenase OS=Sorghum bicolor GN=CYP71E1 PE=2 SV=1	314	521	6.0E-09
sp\|Q92113\|CP17A_SQUAC	Steroid 17-alpha-hydroxylase/17,20 lyase OS=Squalus acanthias GN=CYP17A1 PE=2 SV=1	97	530	6.0E-09
sp\|P93531\|C71D7_SOLCH	Cytochrome P450 71D7 OS=Solanum chacoense GN=CYP71D7 PE=3 SV=1	284	515	6.0E-09
sp\|E3W9C4\|C71A1_ZINZE	Alpha-humulene 10-hydroxylase OS=Zingiber zerumbet GN=CYP71BA1 PE=1 SV=1	344	498	1.0E-08
sp\|P93530\|C71D6_SOLCH	Cytochrome P450 71D6 OS=Solanum chacoense GN=CYP71D6 PE=2 SV=1	323	521	3.0E-08
sp\|Q9T0K0\|C71AJ_ARATH	Cytochrome P450 71A19 OS=Arabidopsis thaliana GN=CYP71A19 PE=2 SV=1	341	498	4.0E-08
sp\|Q9STK7\|C71AQ_ARATH	Cytochrome P450 71A26 OS=Arabidopsis thaliana GN=CYP71A26 PE=3 SV=1	344	498	8.0E-08
sp\|Q9VJ71\|CP310_DROME	Probable cytochrome P450 310a1 OS=Drosophila melanogaster GN=Cyp310a1 PE=2 SV=1	334	503	9.0E-08
sp\|D5JBX0\|GAO_HELAN	Germacrene A oxidase OS=Helianthus annuus PE=1 SV=1	329	497	1.0E-07
sp\|Q6WNQ8\|C81E8_MEDTR	Cytochrome P450 81E8 OS=Medicago truncatula GN=CYP81E8 PE=2 SV=1	307	478	2.0E-07
sp\|Q50EK4\|C75A1_PINTA	Cytochrome P450 750A1 OS=Pinus taeda GN=CYP750A1 PE=2 SV=1	334	498	2.0E-07
sp\|Q9LW27\|C71BF_ARATH	Bifunctional dihydrocamalexate synthase/camalexin synthase OS=Arabidopsis thaliana GN=CYP71B15 PE=1 SV=1	348	498	2.0E-07
sp\|Q9STL0\|C71AN_ARATH	Cytochrome P450 71A23 OS=Arabidopsis thaliana GN=CYP71A23 PE=2 SV=1	339	498	2.0E-07
sp\|Q9STK8\|C71AP_ARATH	Cytochrome P450 71A25 OS=Arabidopsis thaliana GN=CYP71A25 PE=2 SV=1	344	498	4.0E-07
sp\|H1A981\|C7263_MEDTR	11-oxo-beta-amyrin 30-oxidase OS=Medicago truncatula GN=CYP72A63 PE=1 SV=1	344	500	5.0E-07
sp\|Q9STL1\|C71AM_ARATH	Cytochrome P450 71A22 OS=Arabidopsis thaliana GN=CYP71A22 PE=2 SV=1	338	498	6.0E-07
sp\|Q9FH66\|C71AG_ARATH	Cytochrome P450 71A16 OS=Arabidopsis thaliana GN=CYP71A16 PE=2 SV=1	322	519	6.0E-07
sp\|P05176\|CP1A1_RABIT	Cytochrome P450 1A1 OS=Oryctolagus cuniculus GN=CYP1A1 PE=2 SV=1	344	519	1.0E-06
sp\|Q9STK9\|C71AO_ARATH	Cytochrome P450 71A24 OS=Arabidopsis thaliana GN=CYP71A24 PE=2 SV=3	339	498	1.0E-06
sp\|Q9ZNR0\|C78A6_ARATH	Cytochrome P450 78A6 OS=Arabidopsis thaliana GN=CYP78A6 PE=2 SV=1	344	498	1.0E-06
sp\|Q9SAB6\|C71AI_ARATH	Cytochrome P450 71A18 OS=Arabidopsis thaliana GN=CYP71A18 PE=2 SV=2	339	494	1.0E-06
sp\|Q9FF18\|C7351_ARATH	Cytokinin hydroxylase OS=Arabidopsis thaliana GN=CYP735A1 PE=1 SV=1	391	498	1.0E-06
sp\|O64638\|C76C3_ARATH	Cytochrome P450 76C3 OS=Arabidopsis thaliana GN=CYP76C3 PE=2 SV=2	277	498	2.0E-06
sp\|O49340\|C71AC_ARATH	Cytochrome P450 71A12 OS=Arabidopsis thaliana GN=CYP71A12 PE=2 SV=1	276	498	2.0E-06
sp\|Q9SBQ9\|F3PH_PETHY	Flavonoid 3'-monooxygenase OS=Petunia hybrida GN=CYP75B2 PE=2 SV=1	344	498	2.0E-06
sp\|P58046\|C71AF_ARATH	Cytochrome P450 71A15 OS=Arabidopsis thaliana GN=CYP71A15 PE=3 SV=1	339	498	2.0E-06
sp\|Q69XM6\|C7344_ORYSJ	Cytochrome P450 734A4 OS=Oryza sativa subsp. japonica GN=CYP734A4 PE=2 SV=1	344	499	4.0E-06
sp\|Q9VG17\|CP304_DROME	Probable cytochrome P450 304a1 OS=Drosophila melanogaster GN=Cyp304a1 PE=2 SV=2	352	498	4.0E-06
sp\|P00184\|CP1A1_MOUSE	Cytochrome P450 1A1 OS=Mus musculus GN=Cyp1a1 PE=1 SV=2	321	500	4.0E-06
sp\|Q59205\|CPXU_BRADU	Cytochrome P450 BJ-4 OS=Bradyrhizobium diazoefficiens (strain JCM 10833 / IAM 13628 / NBRC 14792 / USDA 110) GN=cyp117 PE=3 SV=2	192	433	5.0E-06
sp\|B9X287\|C7346_ORYSJ	Cytochrome P450 734A6 OS=Oryza sativa subsp. japonica GN=CYP734A6 PE=2 SV=1	344	498	5.0E-06
sp\|Q9FIB0\|C78A7_ARATH	Cytochrome P450 78A7 OS=Arabidopsis thaliana GN=CYP78A7 PE=2 SV=1	291	498	6.0E-06
sp\|P11715\|CP17A_RAT	Steroid 17-alpha-hydroxylase/17,20 lyase OS=Rattus norvegicus GN=Cyp17a1 PE=1 SV=2	342	500	6.0E-06

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GO

GO Term	Description	Terminal node
GO:0016705	oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen	Yes
GO:0020037	heme binding	Yes
GO:0004497	monooxygenase activity	Yes
GO:0005506	iron ion binding	Yes
GO:0003674	molecular_function	No
GO:0016491	oxidoreductase activity	No
GO:1901363	heterocyclic compound binding	No
GO:0046914	transition metal ion binding	No
GO:0003824	catalytic activity	No
GO:0046872	metal ion binding	No
GO:0043169	cation binding	No
GO:0005488	binding	No
GO:0043167	ion binding	No
GO:0097159	organic cyclic compound binding	No
GO:0046906	tetrapyrrole binding	No

SignalP

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SignalP signal predicted	Location (based on Ymax)	D score (significance: > 0.45)
No	1 - 20	0.5

Transmembrane Domains

Domain #	Start	End	Length
1	33	55	22

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	>OphauG2\|3673 MATSFAIASSALNSTNINSFNEMLSVPLLNPAVLTIHKYIALIVLCGFYMITFLPRSSTSMSSIFSWLHHLPSAR SLGAEATHADKDPGAAGQEHPLPHVSSWVPVLGHVMALRQRGGRYIHELIQQTPAQLFTINVLCKRILVAGPSVD RALARHVQETSLAQVVSLMGQRSLGLGDAGVRAIAEHDPRPVHRSLFSTADGVAGLTEAAVDYVRAKVQRQPRRQ EVKLGRFVFDLVVGAAARALWGEENPWTSDAEFMEQFIIVSDKFETLGQPMAWLTAAKAYRAREFLVSRLKRFHA THQNTRKHSVAHRINAVAMTDAQWESNDDYYRVELLEALGLLATASTLSVWLVREIIARPALLAAVEREVRASGE NNVRASCPTLVAAWYETLRLHMTLVPRVASQGFTLDLATGPVRVDKNDVILMPMLAFNLDETTWGADAREFNPGR FLDASGTVVASKTRRVRGFGVAGNLCPGRAFGFEVAMGAVATVLREFDVEKKAYAQPTAMAGTNVGFERLGDEVC SELRRTT*
Coding	>OphauG2\|3673 ATGGCTACCTCTTTTGCCATTGCCTCGTCGGCATTAAACTCGACAAACATCAATTCGTTCAACGAGATGCTTTCG GTGCCCTTGCTGAACCCGGCCGTCTTGACCATTCACAAGTACATTGCTCTCATTGTACTCTGTGGCTTCTACATG ATTACCTTCTTGCCGCGCTCTTCCACCTCCATGAGCAGCATCTTTTCCTGGCTGCACCACTTGCCAAGCGCAAGG AGTCTGGGAGCAGAGGCGACACACGCGGACAAGGACCCAGGGGCAGCGGGCCAAGAGCATCCTCTCCCACACGTA TCCTCGTGGGTGCCGGTTCTGGGCCACGTAATGGCTCTGCGGCAGCGCGGCGGGCGCTACATCCATGAGCTAATC CAGCAAACGCCGGCGCAGCTATTTACGATTAACGTTTTGTGTAAGCGGATACTGGTTGCGGGGCCGAGCGTGGAC CGCGCGCTGGCCCGCCATGTGCAAGAAACCAGTCTGGCGCAGGTGGTATCGTTAATGGGGCAACGGTCGCTGGGT CTGGGAGACGCAGGCGTGCGTGCCATTGCGGAGCACGACCCGCGGCCGGTACACCGGAGCCTCTTCTCCACGGCT GATGGCGTGGCGGGGCTGACCGAGGCGGCCGTCGATTATGTGCGGGCAAAGGTGCAGCGGCAGCCCCGGCGACAG GAGGTGAAGCTGGGCAGATTTGTCTTTGACTTGGTGGTTGGCGCGGCGGCGCGTGCGCTCTGGGGAGAGGAGAAT CCGTGGACGAGCGATGCCGAGTTTATGGAGCAGTTTATCATTGTGAGCGATAAATTCGAAACATTGGGCCAGCCA ATGGCTTGGCTCACGGCGGCAAAAGCATACCGCGCGCGCGAGTTTCTCGTCTCGCGTCTCAAGCGCTTTCACGCC ACGCACCAAAACACGCGCAAGCACAGCGTGGCGCATCGCATCAATGCCGTGGCCATGACAGATGCACAGTGGGAA AGCAACGACGACTATTACCGGGTGGAGCTGCTCGAGGCATTGGGACTGCTAGCCACGGCCAGCACGCTGTCCGTA TGGCTGGTGCGCGAGATTATAGCGCGGCCGGCGCTTCTTGCCGCCGTGGAGCGGGAAGTGCGAGCGTCGGGAGAG AACAATGTTCGGGCTTCGTGTCCGACGCTGGTGGCGGCATGGTATGAGACGCTGCGGCTTCACATGACGCTTGTG CCGCGGGTGGCGTCGCAAGGCTTTACCCTCGACTTGGCGACAGGGCCGGTGCGGGTGGACAAGAACGATGTGATT CTCATGCCCATGCTGGCCTTTAACCTGGACGAGACGACATGGGGAGCGGATGCGCGCGAGTTCAACCCAGGGCGG TTCCTGGATGCAAGCGGGACCGTTGTGGCGAGCAAGACGAGACGCGTGAGAGGGTTCGGCGTGGCGGGCAATTTG TGTCCCGGGCGGGCGTTTGGGTTCGAGGTAGCCATGGGGGCTGTGGCGACGGTGCTGCGCGAGTTTGATGTTGAG AAGAAGGCGTATGCACAGCCGACGGCCATGGCGGGAACCAATGTTGGCTTTGAGCGGCTAGGGGATGAAGTGTGC AGCGAGCTGAGGCGGACAACATGA
Transcript	>OphauG2\|3673 ATGGCTACCTCTTTTGCCATTGCCTCGTCGGCATTAAACTCGACAAACATCAATTCGTTCAACGAGATGCTTTCG GTGCCCTTGCTGAACCCGGCCGTCTTGACCATTCACAAGTACATTGCTCTCATTGTACTCTGTGGCTTCTACATG ATTACCTTCTTGCCGCGCTCTTCCACCTCCATGAGCAGCATCTTTTCCTGGCTGCACCACTTGCCAAGCGCAAGG AGTCTGGGAGCAGAGGCGACACACGCGGACAAGGACCCAGGGGCAGCGGGCCAAGAGCATCCTCTCCCACACGTA TCCTCGTGGGTGCCGGTTCTGGGCCACGTAATGGCTCTGCGGCAGCGCGGCGGGCGCTACATCCATGAGCTAATC CAGCAAACGCCGGCGCAGCTATTTACGATTAACGTTTTGTGTAAGCGGATACTGGTTGCGGGGCCGAGCGTGGAC CGCGCGCTGGCCCGCCATGTGCAAGAAACCAGTCTGGCGCAGGTGGTATCGTTAATGGGGCAACGGTCGCTGGGT CTGGGAGACGCAGGCGTGCGTGCCATTGCGGAGCACGACCCGCGGCCGGTACACCGGAGCCTCTTCTCCACGGCT GATGGCGTGGCGGGGCTGACCGAGGCGGCCGTCGATTATGTGCGGGCAAAGGTGCAGCGGCAGCCCCGGCGACAG GAGGTGAAGCTGGGCAGATTTGTCTTTGACTTGGTGGTTGGCGCGGCGGCGCGTGCGCTCTGGGGAGAGGAGAAT CCGTGGACGAGCGATGCCGAGTTTATGGAGCAGTTTATCATTGTGAGCGATAAATTCGAAACATTGGGCCAGCCA ATGGCTTGGCTCACGGCGGCAAAAGCATACCGCGCGCGCGAGTTTCTCGTCTCGCGTCTCAAGCGCTTTCACGCC ACGCACCAAAACACGCGCAAGCACAGCGTGGCGCATCGCATCAATGCCGTGGCCATGACAGATGCACAGTGGGAA AGCAACGACGACTATTACCGGGTGGAGCTGCTCGAGGCATTGGGACTGCTAGCCACGGCCAGCACGCTGTCCGTA TGGCTGGTGCGCGAGATTATAGCGCGGCCGGCGCTTCTTGCCGCCGTGGAGCGGGAAGTGCGAGCGTCGGGAGAG AACAATGTTCGGGCTTCGTGTCCGACGCTGGTGGCGGCATGGTATGAGACGCTGCGGCTTCACATGACGCTTGTG CCGCGGGTGGCGTCGCAAGGCTTTACCCTCGACTTGGCGACAGGGCCGGTGCGGGTGGACAAGAACGATGTGATT CTCATGCCCATGCTGGCCTTTAACCTGGACGAGACGACATGGGGAGCGGATGCGCGCGAGTTCAACCCAGGGCGG TTCCTGGATGCAAGCGGGACCGTTGTGGCGAGCAAGACGAGACGCGTGAGAGGGTTCGGCGTGGCGGGCAATTTG TGTCCCGGGCGGGCGTTTGGGTTCGAGGTAGCCATGGGGGCTGTGGCGACGGTGCTGCGCGAGTTTGATGTTGAG AAGAAGGCGTATGCACAGCCGACGGCCATGGCGGGAACCAATGTTGGCTTTGAGCGGCTAGGGGATGAAGTGTGC AGCGAGCTGAGGCGGACAACATGA
Gene	>OphauG2\|3673 ATGGCTACCTCTTTTGCCATTGCCTCGTCGGCATTAAACTCGACAAACATCAATTCGTTCAACGAGATGCTTTCG GTGCCCTTGCTGAACCCGGCCGTCTTGACCATTCACAAGTACATTGCTCTCATTGTACTCTGTGGCTTCTACATG ATTACCTTCTTGCCGCGCTCTTCCACCTCCATGAGCAGCATCTTTTCCTGGCTGCACCACTTGCCAAGCGCAAGG AGTCTGGGAGCAGAGGCGACACACGCGGACAAGGACCCAGGGGCAGCGGGCCAAGAGCATCCTCTCCCACACGTA TCCTCGTGGGTGCCGGTTCTGGGCCACGTAATGGCTCTGCGGCAGCGCGGCGGGCGCTACATCCATGAGCTAATC CAGCAAACGCCGGCGCAGCTATTTACGATTAACGTTTTGTGTAAGCGGATACTGGTTGCGGGGCCGAGCGTGGAC CGCGCGCTGGCCCGCCATGTGCAAGAAACCAGTCTGGCGCAGGTGGTATCGTTAATGGGGCAACGGTCGCTGGGT CTGGGAGACGCAGGCGTGCGTGCCATTGCGGAGCACGACCCGCGGCCGGTACACCGGAGCCTCTTCTCCACGGCT GATGGCGTGGCGGGGCTGACCGAGGCGGCCGTCGATTATGTGCGGGCAAAGGTGCAGCGGCAGCCCCGGCGACAG GAGGTGAAGCTGGGCAGATTTGTCTTTGACTTGGTGGTTGGCGCGGCGGCGCGTGCGCTCTGGGGAGAGGAGAAT CCGTGGACGAGCGATGCCGAGTTTATGGAGCAGTTTATGTGAGTCTTTTCCCCTCGTGTGTGTGTGTTTTTTGGC AAAGAAGGAAAAAAGAAGGAAAAAATGGGCAAAAAACAAAGACTGACATGGCTGTATAGCATTGTGAGCGATAAA TTCGAAACATTGGGCCAGCCAATGGCTTGGCTCACGGCGGCAAAAGCATACCGCGCGCGCGAGTTTCTCGTCTCG CGTCTCAAGCGCTTTCACGCCACGCACCAAAACACGCGCAAGCACAGCGTGGCGCATCGCATCAATGCCGTGGCC ATGACAGATGCACAGTGGGAAAGCAACGACGACTATTACCGGGTGGAGCTGCTCGAGGCATTGGGACTGCTAGCC ACGGCCAGCACGCTGTCCGTATGGCTGGTGCGCGAGATTATAGCGCGGCCGGCGCTTCTTGCCGCCGTGGAGCGG GAAGTGCGAGCGTCGGGAGAGAACAATGTTCGGGCTTCGTGTCCGACGCTGGTGGCGGCATGGTATGAGACGCTG CGGCTTCACATGACGCTTGTGCCGCGGGTGGCGTCGCAAGGCTTTACCCTCGACTTGGCGACAGGGCCGGTGCGG GTGGACAAGAACGATGTGATTCTCATGCCCATGCTGGCCTTTAACCTGGACGAGACGACATGGGGAGCGGATGCG CGCGAGTTCAACCCAGGGCGGTTCCTGGATGCAAGCGGGACCGTTGTGGCGAGCAAGACGAGACGCGTGAGAGGG TTCGGCGTGGCGGGCAATTTGTGTCCCGGGCGGGCGTTTGGGTTCGAGGTAGCCATGGGGGCTGTGGCGACGGTG CTGCGCGAGTTTGATGTTGAGAAGAAGGCGTATGCACAGCCGACGGCCATGGCGGGAACCAATGTTGGCTTTGAG CGGCTAGGGGATGAAGTGTGCAGCGAGCTGAGGCGGACAACATGA

Fungal Genomics

General Properties

PFAM Domains

Swissprot hits

GO

SignalP

Transmembrane Domains

Transcription Factor Class

Expression data

Sequences