Fungal Genomics

at Utrecht University

General Properties

Protein IDOphun1|388
Gene name
LocationContig_1100:749..2400
Strand+
Gene length (bp)1651
Transcript length (bp)1527
Coding sequence length (bp)1527
Protein length (aa) 509

Overview

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PFAM Domains

PFAM Domain ID Short name Long name E-value Start End
PF01399 PCI PCI domain 4.2E-19 315 416

Swissprot hits

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Swissprot ID Swissprot Description Start End E-value
sp|Q7SI58|CSN2_NEUCR COP9 signalosome complex subunit 2 OS=Neurospora crassa (strain ATCC 24698 / 74-OR23-1A / CBS 708.71 / DSM 1257 / FGSC 987) GN=csn-2 PE=1 SV=1 1 465 0.0E+00
sp|Q5B3U7|CSN2_EMENI COP9 signalosome complex subunit 2 OS=Emericella nidulans (strain FGSC A4 / ATCC 38163 / CBS 112.46 / NRRL 194 / M139) GN=csnB PE=1 SV=2 1 479 0.0E+00
sp|Q6IQT4|CSN2_DANRE COP9 signalosome complex subunit 2 OS=Danio rerio GN=cops2 PE=2 SV=1 1 413 6.0E-150
sp|P61203|CSN2_RAT COP9 signalosome complex subunit 2 OS=Rattus norvegicus GN=Cops2 PE=1 SV=1 1 413 1.0E-149
sp|P61202|CSN2_MOUSE COP9 signalosome complex subunit 2 OS=Mus musculus GN=Cops2 PE=1 SV=1 1 413 1.0E-149
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Swissprot ID Swissprot Description Start End E-value
sp|Q7SI58|CSN2_NEUCR COP9 signalosome complex subunit 2 OS=Neurospora crassa (strain ATCC 24698 / 74-OR23-1A / CBS 708.71 / DSM 1257 / FGSC 987) GN=csn-2 PE=1 SV=1 1 465 0.0E+00
sp|Q5B3U7|CSN2_EMENI COP9 signalosome complex subunit 2 OS=Emericella nidulans (strain FGSC A4 / ATCC 38163 / CBS 112.46 / NRRL 194 / M139) GN=csnB PE=1 SV=2 1 479 0.0E+00
sp|Q6IQT4|CSN2_DANRE COP9 signalosome complex subunit 2 OS=Danio rerio GN=cops2 PE=2 SV=1 1 413 6.0E-150
sp|P61203|CSN2_RAT COP9 signalosome complex subunit 2 OS=Rattus norvegicus GN=Cops2 PE=1 SV=1 1 413 1.0E-149
sp|P61202|CSN2_MOUSE COP9 signalosome complex subunit 2 OS=Mus musculus GN=Cops2 PE=1 SV=1 1 413 1.0E-149
sp|P61201|CSN2_HUMAN COP9 signalosome complex subunit 2 OS=Homo sapiens GN=COPS2 PE=1 SV=1 1 413 1.0E-149
sp|Q6IR75|CSN2_XENLA COP9 signalosome complex subunit 2 (Fragment) OS=Xenopus laevis GN=csn2 PE=2 SV=1 4 413 2.0E-149
sp|Q8W207|CSN2_ARATH COP9 signalosome complex subunit 2 OS=Arabidopsis thaliana GN=CSN2 PE=1 SV=1 11 414 5.0E-149
sp|Q54HL6|CSN2_DICDI COP9 signalosome complex subunit 2 OS=Dictyostelium discoideum GN=csn2 PE=1 SV=1 27 408 7.0E-138
sp|Q94899|CSN2_DROME COP9 signalosome complex subunit 2 OS=Drosophila melanogaster GN=alien PE=1 SV=2 16 437 2.0E-136
sp|O01422|CSN2_CAEEL COP9 signalosome complex subunit 2 OS=Caenorhabditis elegans GN=csn-2 PE=1 SV=2 18 413 2.0E-122
sp|Q9HFR0|CSN2_SCHPO COP9 signalosome complex subunit 2 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=csn2 PE=1 SV=1 6 416 2.0E-114
sp|Q54UB5|PSD11_DICDI 26S proteasome non-ATPase regulatory subunit 11 OS=Dictyostelium discoideum GN=psmD11 PE=2 SV=1 47 415 6.0E-21
sp|A8X379|PS11B_CAEBR Probable 26S proteasome regulatory subunit rpn-6.2 OS=Caenorhabditis briggsae GN=rpn-6.2 PE=3 SV=1 146 434 2.0E-19
sp|Q7KLV9|PSD11_DROME 26S proteasome non-ATPase regulatory subunit 11 OS=Drosophila melanogaster GN=Rpn6 PE=1 SV=1 236 439 3.0E-17
sp|Q2KI42|PSD11_BOVIN 26S proteasome non-ATPase regulatory subunit 11 OS=Bos taurus GN=PSMD11 PE=2 SV=3 90 438 3.0E-17
sp|O00231|PSD11_HUMAN 26S proteasome non-ATPase regulatory subunit 11 OS=Homo sapiens GN=PSMD11 PE=1 SV=3 90 438 3.0E-17
sp|F1LMZ8|PSD11_RAT 26S proteasome non-ATPase regulatory subunit 11 OS=Rattus norvegicus GN=Psmd11 PE=1 SV=2 90 438 3.0E-17
sp|Q8BG32|PSD11_MOUSE 26S proteasome non-ATPase regulatory subunit 11 OS=Mus musculus GN=Psmd11 PE=1 SV=3 90 438 3.0E-17
sp|F6P3G4|PS11A_DANRE 26S proteasome non-ATPase regulatory subunit 11A OS=Danio rerio GN=psmd11a PE=2 SV=1 236 438 4.0E-17
sp|P34481|PS11B_CAEEL Probable 26S proteasome regulatory subunit rpn-6.2 OS=Caenorhabditis elegans GN=rpn-6.2 PE=3 SV=3 231 434 1.0E-16
sp|F6XBL2|PSD11_XENTR 26S proteasome non-ATPase regulatory subunit 11 OS=Xenopus tropicalis GN=psmd11 PE=3 SV=2 90 438 1.0E-16
sp|F1QGH9|PS11B_DANRE 26S proteasome non-ATPase regulatory subunit 11B OS=Danio rerio GN=psmd11b PE=2 SV=1 236 438 3.0E-15
sp|Q12377|RPN6_YEAST 26S proteasome regulatory subunit RPN6 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPN6 PE=1 SV=3 89 439 1.0E-14
sp|Q9LP45|PSD11_ARATH 26S proteasome non-ATPase regulatory subunit 11 homolog OS=Arabidopsis thaliana GN=RPN6 PE=1 SV=1 150 424 3.0E-14
sp|Q9P7S2|RPN6_SCHPO Probable 26S proteasome regulatory subunit rpn6 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=rpn6 PE=3 SV=1 201 415 3.0E-11
sp|Q20938|PS11A_CAEEL Probable 26S proteasome regulatory subunit rpn-6.1 OS=Caenorhabditis elegans GN=rpn-6.1 PE=2 SV=2 235 415 1.0E-10
sp|Q9GS00|CSN1_CAEEL COP9 signalosome complex subunit 1 OS=Caenorhabditis elegans GN=csn-1 PE=1 SV=1 316 424 8.0E-07
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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 ID4
Orthogroup2322
Change Orthofinder run
Species Protein ID
Ophiocordyceps australis 1348a (Ghana) OphauG2|5918
Ophiocordyceps australis map64 (Brazil) OphauB2|1447
Ophiocordyceps camponoti-floridani Ophcf2|02429
Ophiocordyceps camponoti-rufipedis Ophun1|388 (this protein)
Ophiocordyceps kimflemingae Ophio5|7214
Ophiocordyceps subramaniannii Hirsu2|3154

Sequences

Type of sequenceSequence
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 >Ophun1|388
MSDDEDFMQQSDEEQYDFEYEDDDDEDSGDVDIENKYYNAKQLKLSDPQDAIVEFLSIPPLEQDKGEWGFKGLKQ
AIKLEFKMGMYQKAADHFAELLTYVKAAVTRNYSEKSINNMLDFIEKGADRPDAVESMEKFYSLTLQSFQSTNNE
RLWLKTNIKLAKLLLDRKEYGAVAKKLRELHRACQRPDGTDDPGKGTYSLEIYALEIQMLAETKNNKQLKALYHR
ALKVKSAVPHPRIMGIIRECGGKMHMSEENWNAAQSDFFESFRNYDEAGSLQRIQVLKYLLLSTMLMRSNINPFD
SQETKPYKTDARISAMTELVDAYQRDDVHAYEKVLQANRDLLADPFIAENIDEVTRTMRTKGIMKLIAPYTRLKL
SWIARQLRISEPEVQDILSFLIVDGKINGTLDQREGVLVVTSDADAERIAAVRGLTKSISNLFEAMFKDGDGFRA
QDGQSGSGMEDSSADGHSAAAVRKAARLRESMLQQQTQQTQQLQQQKWKKDKGAPWAS*
Coding >Ophun1|388
ATGTCGGACGACGAGGACTTCATGCAGCAGTCGGATGAGGAGCAGTACGATTTCGAGTACGAGGACGATGACGAC
GAAGACTCGGGCGACGTCGATATCGAGAACAAGTACTACAACGCCAAGCAGCTGAAGCTATCGGACCCGCAAGAT
GCCATCGTCGAGTTCCTTAGCATCCCCCCGCTCGAGCAGGACAAGGGCGAATGGGGCTTCAAGGGCCTGAAGCAG
GCCATTAAGCTCGAGTTCAAGATGGGCATGTACCAAAAGGCCGCCGACCATTTCGCCGAGCTCCTGACGTACGTC
AAGGCGGCCGTGACGCGCAACTACTCGGAAAAGTCCATCAACAACATGCTCGATTTCATCGAAAAGGGCGCAGAC
CGGCCGGATGCCGTCGAGAGCATGGAGAAATTCTACTCGCTCACGCTGCAGAGCTTCCAGAGCACCAACAACGAG
CGGCTATGGCTCAAGACCAATATCAAGCTAGCAAAGCTGCTACTGGACCGGAAAGAGTACGGCGCCGTGGCTAAG
AAACTCCGCGAGCTGCACAGGGCATGCCAGCGACCGGACGGCACCGACGATCCCGGCAAGGGTACCTACTCGCTC
GAGATCTACGCCCTCGAGATCCAGATGCTGGCGGAGACGAAGAACAACAAGCAGCTCAAGGCCCTTTATCATCGC
GCCCTCAAGGTCAAGTCGGCGGTGCCGCACCCGCGCATCATGGGCATCATCCGGGAGTGCGGTGGCAAGATGCAC
ATGAGCGAGGAGAACTGGAACGCGGCCCAGAGCGACTTCTTCGAGTCGTTTCGCAACTACGACGAGGCGGGATCG
CTGCAGCGGATTCAGGTGCTCAAGTACCTGCTGCTCAGCACCATGCTGATGCGGTCCAACATCAACCCGTTCGAC
TCGCAGGAGACGAAGCCCTACAAGACGGACGCCCGCATCTCGGCCATGACGGAGCTGGTGGACGCCTACCAGCGG
GACGACGTGCACGCGTACGAAAAGGTGCTGCAGGCGAACCGCGACCTGCTGGCGGACCCCTTCATCGCCGAGAAC
ATTGACGAGGTGACACGCACCATGCGGACCAAGGGCATCATGAAGCTCATAGCGCCCTACACGCGTCTGAAGCTG
TCGTGGATCGCCAGGCAGCTCCGCATCTCGGAGCCCGAGGTGCAGGACATCTTGAGCTTCCTCATCGTCGACGGC
AAGATCAACGGCACGCTGGACCAGAGGGAGGGGGTGCTGGTGGTGACGTCGGACGCCGACGCGGAGCGCATCGCG
GCGGTTCGCGGCCTGACAAAGTCCATCTCCAACCTGTTCGAGGCCATGTTCAAGGACGGCGACGGCTTTCGGGCG
CAGGACGGCCAGTCGGGCTCCGGAATGGAGGACTCGTCGGCGGACGGACATTCGGCGGCGGCGGTCAGGAAAGCG
GCCCGTCTTAGAGAGTCGATGCTGCAGCAGCAGACGCAGCAGACGCAGCAACTGCAGCAGCAGAAGTGGAAGAAG
GACAAGGGGGCACCCTGGGCTAGCTAA
Transcript >Ophun1|388
ATGTCGGACGACGAGGACTTCATGCAGCAGTCGGATGAGGAGCAGTACGATTTCGAGTACGAGGACGATGACGAC
GAAGACTCGGGCGACGTCGATATCGAGAACAAGTACTACAACGCCAAGCAGCTGAAGCTATCGGACCCGCAAGAT
GCCATCGTCGAGTTCCTTAGCATCCCCCCGCTCGAGCAGGACAAGGGCGAATGGGGCTTCAAGGGCCTGAAGCAG
GCCATTAAGCTCGAGTTCAAGATGGGCATGTACCAAAAGGCCGCCGACCATTTCGCCGAGCTCCTGACGTACGTC
AAGGCGGCCGTGACGCGCAACTACTCGGAAAAGTCCATCAACAACATGCTCGATTTCATCGAAAAGGGCGCAGAC
CGGCCGGATGCCGTCGAGAGCATGGAGAAATTCTACTCGCTCACGCTGCAGAGCTTCCAGAGCACCAACAACGAG
CGGCTATGGCTCAAGACCAATATCAAGCTAGCAAAGCTGCTACTGGACCGGAAAGAGTACGGCGCCGTGGCTAAG
AAACTCCGCGAGCTGCACAGGGCATGCCAGCGACCGGACGGCACCGACGATCCCGGCAAGGGTACCTACTCGCTC
GAGATCTACGCCCTCGAGATCCAGATGCTGGCGGAGACGAAGAACAACAAGCAGCTCAAGGCCCTTTATCATCGC
GCCCTCAAGGTCAAGTCGGCGGTGCCGCACCCGCGCATCATGGGCATCATCCGGGAGTGCGGTGGCAAGATGCAC
ATGAGCGAGGAGAACTGGAACGCGGCCCAGAGCGACTTCTTCGAGTCGTTTCGCAACTACGACGAGGCGGGATCG
CTGCAGCGGATTCAGGTGCTCAAGTACCTGCTGCTCAGCACCATGCTGATGCGGTCCAACATCAACCCGTTCGAC
TCGCAGGAGACGAAGCCCTACAAGACGGACGCCCGCATCTCGGCCATGACGGAGCTGGTGGACGCCTACCAGCGG
GACGACGTGCACGCGTACGAAAAGGTGCTGCAGGCGAACCGCGACCTGCTGGCGGACCCCTTCATCGCCGAGAAC
ATTGACGAGGTGACACGCACCATGCGGACCAAGGGCATCATGAAGCTCATAGCGCCCTACACGCGTCTGAAGCTG
TCGTGGATCGCCAGGCAGCTCCGCATCTCGGAGCCCGAGGTGCAGGACATCTTGAGCTTCCTCATCGTCGACGGC
AAGATCAACGGCACGCTGGACCAGAGGGAGGGGGTGCTGGTGGTGACGTCGGACGCCGACGCGGAGCGCATCGCG
GCGGTTCGCGGCCTGACAAAGTCCATCTCCAACCTGTTCGAGGCCATGTTCAAGGACGGCGACGGCTTTCGGGCG
CAGGACGGCCAGTCGGGCTCCGGAATGGAGGACTCGTCGGCGGACGGACATTCGGCGGCGGCGGTCAGGAAAGCG
GCCCGTCTTAGAGAGTCGATGCTGCAGCAGCAGACGCAGCAGACGCAGCAACTGCAGCAGCAGAAGTGGAAGAAG
GACAAGGGGGCACCCTGGGCTAGCTAA
Gene >Ophun1|388
ATGTCGGACGACGAGGACTTCATGCAGCAGTCGGATGAGGAGCAGTGAGCCACCCGCGTGTTCCCGCTCGAGACA
GCACAAGCGCTCACCCGCTCCTTCAGGTACGATTTCGAGTACGAGGACGATGACGACGAAGACTCGGGCGACGTC
GATATCGAGAACAAGTACTACAACGCCAAGCAGCTGAAGCTATCGGACCCGCAAGATGCCATCGTCGAGTTCCTT
AGCATCCCCCCGCTCGAGCAGGACAAGGGCGAATGGGGCTTCAAGGGCCTGAAGCAGGCCATTAAGCTCGAGTTC
AAGATGGGCATGTACCAAAAGGTGCGTCGCCGATACGCGCGCAGACTCGTCATGGGACCTGTGCGTTGACGCTGT
ACCTGTTGTCCAGGCCGCCGACCATTTCGCCGAGCTCCTGACGTACGTCAAGGCGGCCGTGACGCGCAACTACTC
GGAAAAGTCCATCAACAACATGCTCGATTTCATCGAAAAGGGCGCAGACCGGCCGGATGCCGTCGAGAGCATGGA
GAAATTCTACTCGCTCACGCTGCAGAGCTTCCAGAGCACCAACAACGAGCGGCTATGGCTCAAGACCAATATCAA
GCTAGCAAAGCTGCTACTGGACCGGAAAGAGTACGGCGCCGTGGCTAAGAAACTCCGCGAGCTGCACAGGGCATG
CCAGCGACCGGACGGCACCGACGATCCCGGCAAGGGTACCTACTCGCTCGAGATCTACGCCCTCGAGATCCAGAT
GCTGGCGGAGACGAAGAACAACAAGCAGCTCAAGGCCCTTTATCATCGCGCCCTCAAGGTCAAGTCGGCGGTGCC
GCACCCGCGCATCATGGGCATCATCCGGGAGTGCGGTGGCAAGATGCACATGAGCGAGGAGAACTGGAACGCGGC
CCAGAGCGACTTCTTCGAGTCGTTTCGCAACTACGACGAGGCGGGATCGCTGCAGCGGATTCAGGTGCTCAAGTA
CCTGCTGCTCAGCACCATGCTGATGCGGTCCAACATCAACCCGTTCGACTCGCAGGAGACGAAGCCCTACAAGAC
GGACGCCCGCATCTCGGCCATGACGGAGCTGGTGGACGCCTACCAGCGGGACGACGTGCACGCGTACGAAAAGGT
GCTGCAGGCGAACCGCGACCTGCTGGCGGACCCCTTCATCGCCGAGAACATTGACGAGGTGACACGCACCATGCG
GACCAAGGGCATCATGAAGCTCATAGCGCCCTACACGCGTCTGAAGCTGTCGTGGATCGCCAGGCAGCTCCGCAT
CTCGGAGCCCGAGGTGCAGGACATCTTGAGCTTCCTCATCGTCGACGGCAAGATCAACGGCACGCTGGACCAGAG
GGAGGGGGTGCTGGTGGTGACGTCGGACGCCGACGCGGAGCGCATCGCGGCGGTTCGCGGCCTGACAAAGTCCAT
CTCCAACCTGTTCGAGGCCATGTTCAAGGACGGCGACGGCTTTCGGGCGCAGGACGGCCAGTCGGGCTCCGGAAT
GGAGGACTCGTCGGCGGACGGACATTCGGCGGCGGCGGTCAGGAAAGCGGCCCGTCTTAGAGAGTCGATGCTGCA
GCAGCAGACGCAGCAGACGCAGCAACTGCAGCAGCAGAAGTGGAAGAAGGACAAGGGGGCACCCTGGGCTAGCTA
A

© 2023 - Robin Ohm - Utrecht University - The Netherlands

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