Fungal Genomics

at Utrecht University

General Properties

Protein ID	Hirsu2\|10481
Gene name
Location	Contig_851:4955..5957
Strand	+
Gene length (bp)	1002
Transcript length (bp)	1002
Coding sequence length (bp)	1002
Protein length (aa)	334

Overview

PFAM Domains

PFAM Domain ID	Short name	Long name	E-value	Start	End
PF01375	Enterotoxin_a	Heat-labile enterotoxin alpha chain	9.5E-19	64	239

Swissprot hits

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|P13810\|E2AA_ECOLX	Heat-labile enterotoxin IIA, A chain OS=Escherichia coli PE=3 SV=1	64	270	7.0E-14
sp\|P43528\|E2BA_ECOLX	Heat-labile enterotoxin IIB, A chain OS=Escherichia coli PE=1 SV=2	65	264	4.0E-13
sp\|P43530\|ELAH_ECOH1	Heat-labile enterotoxin A chain OS=Escherichia coli O78:H11 (strain H10407 / ETEC) GN=eltA PE=3 SV=1	64	186	2.0E-09
sp\|P06717\|ELAP_ECOLX	Heat-labile enterotoxin A chain OS=Escherichia coli GN=eltA PE=1 SV=1	64	186	2.0E-09
sp\|P01555\|CHTA_VIBCH	Cholera enterotoxin subunit A OS=Vibrio cholerae serotype O1 (strain ATCC 39315 / El Tor Inaba N16961) GN=ctxA PE=1 SV=1	64	185	1.0E-08

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|P13810\|E2AA_ECOLX	Heat-labile enterotoxin IIA, A chain OS=Escherichia coli PE=3 SV=1	64	270	7.0E-14
sp\|P43528\|E2BA_ECOLX	Heat-labile enterotoxin IIB, A chain OS=Escherichia coli PE=1 SV=2	65	264	4.0E-13
sp\|P43530\|ELAH_ECOH1	Heat-labile enterotoxin A chain OS=Escherichia coli O78:H11 (strain H10407 / ETEC) GN=eltA PE=3 SV=1	64	186	2.0E-09
sp\|P06717\|ELAP_ECOLX	Heat-labile enterotoxin A chain OS=Escherichia coli GN=eltA PE=1 SV=1	64	186	2.0E-09
sp\|P01555\|CHTA_VIBCH	Cholera enterotoxin subunit A OS=Vibrio cholerae serotype O1 (strain ATCC 39315 / El Tor Inaba N16961) GN=ctxA PE=1 SV=1	64	185	1.0E-08
sp\|A2PU44\|CHELT_VIBCL	NAD(+)--arginine ADP-ribosyltransferase Chelt OS=Vibrio cholerae GN=A51_B1772 PE=1 SV=1	64	187	7.0E-06

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GO

GO Term	Description	Terminal node
GO:0090729	toxin activity	Yes
GO:0005615	extracellular space	Yes
GO:0005575	cellular_component	No
GO:0003674	molecular_function	No
GO:0110165	cellular anatomical entity	No

Deeploc

[Help with interpreting the results of Deeploc 2.0]

Localizations	Signals	Cytoplasm	Nucleus	Extracellular	Cell membrane	Mitochondrion	Plastid	Endoplasmic reticulum	Lysosome vacuole	Golgi apparatus	Peroxisome
Extracellular	Signal peptide	0.1296	0.0797	0.9328	0.1015	0.1092	0.0484	0.213	0.2048	0.2019	0.012

SignalP

SignalP signal predicted	Location	Score
Yes	1 - 24	0.99969

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	302
Change Orthofinder run

Species	Protein ID
Ophiocordyceps camponoti-floridani	Ophcf2\|04574
Ophiocordyceps camponoti-rufipedis	Ophun1\|6775
Ophiocordyceps subramaniannii	Hirsu2\|10481 (this protein)
Ophiocordyceps subramaniannii	Hirsu2\|10922
Ophiocordyceps subramaniannii	Hirsu2\|1355
Ophiocordyceps subramaniannii	Hirsu2\|4943
Ophiocordyceps subramaniannii	Hirsu2\|5941
Ophiocordyceps subramaniannii	Hirsu2\|6284
Ophiocordyceps subramaniannii	Hirsu2\|6707
Ophiocordyceps subramaniannii	Hirsu2\|6915
Ophiocordyceps subramaniannii	Hirsu2\|8820

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	>Hirsu2\|10481 MHAPTAKALCLALSLLLSPSNSNAAAVPATLPGDGPEKNRTVDLASKTSQAPNAASQTELPRVLWRGDGRPPDQI RAKGGIVEGEVNPPKEFGLWHHSTQWDVRRGPWDTAYTATSSSLGVATDYLGAYQKNRTFDEGYVYRIHATPNCF SLQQTHLQHTVYPDEKEFPCLGGIHWNQIEGWIAISSNFSQSVKEAGMYLRGLTFDEFSSGFVQNEEYDATKYDA LSASEGQPQLAGWDTVPKDYGIMGMPTWNYNKELPWSKFQDKTTVEYAVDFMNLHGKEVGFVGTFPLPLTVPPGP FNQTMRKELAPYRRHQQASSVSGRRTLRALRLA*
Coding	>Hirsu2\|10481 ATGCACGCACCCACAGCCAAGGCTCTGTGTCTCGCCCTCAGCCTGCTTCTTTCGCCAAGCAACAGCAACGCCGCG GCTGTCCCGGCGACTCTGCCAGGCGACGGACCAGAAAAGAATCGTACCGTTGATCTTGCCAGCAAGACATCCCAA GCCCCGAATGCGGCATCGCAGACGGAGCTTCCGAGAGTTCTCTGGCGCGGCGATGGCAGGCCTCCCGATCAGATC AGGGCCAAGGGCGGCATCGTCGAAGGCGAGGTGAATCCCCCGAAGGAATTCGGTTTATGGCACCACTCGACACAG TGGGATGTAAGGCGTGGCCCGTGGGACACGGCCTATACTGCAACTTCGTCGTCTCTTGGGGTAGCCACGGATTAC CTGGGCGCCTATCAGAAAAACCGGACTTTCGACGAAGGCTATGTTTACAGGATTCACGCGACGCCAAACTGCTTC AGTCTTCAGCAGACGCACCTTCAGCATACGGTATATCCCGATGAAAAGGAATTCCCATGTCTCGGAGGGATCCAT TGGAACCAGATCGAAGGCTGGATCGCCATATCCAGCAACTTTTCACAGTCCGTAAAAGAAGCAGGCATGTATCTG AGAGGATTAACTTTTGATGAATTCTCCTCCGGATTCGTCCAAAACGAAGAATATGATGCGACAAAATACGACGCC TTATCCGCCAGCGAAGGACAGCCACAGCTGGCTGGCTGGGACACCGTGCCCAAAGATTACGGCATCATGGGCATG CCCACATGGAACTACAACAAGGAGCTTCCCTGGAGTAAGTTCCAGGACAAGACGACGGTCGAATATGCCGTCGAT TTCATGAACCTCCATGGCAAGGAGGTGGGCTTTGTTGGGACCTTCCCACTTCCGCTCACTGTTCCTCCAGGTCCG TTCAATCAAACAATGCGGAAAGAGTTGGCACCATATAGGAGGCATCAGCAAGCTTCGTCAGTCTCCGGGCGACGC ACGCTGCGGGCTTTGCGGCTAGCTTGA
Transcript	>Hirsu2\|10481 ATGCACGCACCCACAGCCAAGGCTCTGTGTCTCGCCCTCAGCCTGCTTCTTTCGCCAAGCAACAGCAACGCCGCG GCTGTCCCGGCGACTCTGCCAGGCGACGGACCAGAAAAGAATCGTACCGTTGATCTTGCCAGCAAGACATCCCAA GCCCCGAATGCGGCATCGCAGACGGAGCTTCCGAGAGTTCTCTGGCGCGGCGATGGCAGGCCTCCCGATCAGATC AGGGCCAAGGGCGGCATCGTCGAAGGCGAGGTGAATCCCCCGAAGGAATTCGGTTTATGGCACCACTCGACACAG TGGGATGTAAGGCGTGGCCCGTGGGACACGGCCTATACTGCAACTTCGTCGTCTCTTGGGGTAGCCACGGATTAC CTGGGCGCCTATCAGAAAAACCGGACTTTCGACGAAGGCTATGTTTACAGGATTCACGCGACGCCAAACTGCTTC AGTCTTCAGCAGACGCACCTTCAGCATACGGTATATCCCGATGAAAAGGAATTCCCATGTCTCGGAGGGATCCAT TGGAACCAGATCGAAGGCTGGATCGCCATATCCAGCAACTTTTCACAGTCCGTAAAAGAAGCAGGCATGTATCTG AGAGGATTAACTTTTGATGAATTCTCCTCCGGATTCGTCCAAAACGAAGAATATGATGCGACAAAATACGACGCC TTATCCGCCAGCGAAGGACAGCCACAGCTGGCTGGCTGGGACACCGTGCCCAAAGATTACGGCATCATGGGCATG CCCACATGGAACTACAACAAGGAGCTTCCCTGGAGTAAGTTCCAGGACAAGACGACGGTCGAATATGCCGTCGAT TTCATGAACCTCCATGGCAAGGAGGTGGGCTTTGTTGGGACCTTCCCACTTCCGCTCACTGTTCCTCCAGGTCCG TTCAATCAAACAATGCGGAAAGAGTTGGCACCATATAGGAGGCATCAGCAAGCTTCGTCAGTCTCCGGGCGACGC ACGCTGCGGGCTTTGCGGCTAGCTTGA
Gene	>Hirsu2\|10481 ATGCACGCACCCACAGCCAAGGCTCTGTGTCTCGCCCTCAGCCTGCTTCTTTCGCCAAGCAACAGCAACGCCGCG GCTGTCCCGGCGACTCTGCCAGGCGACGGACCAGAAAAGAATCGTACCGTTGATCTTGCCAGCAAGACATCCCAA GCCCCGAATGCGGCATCGCAGACGGAGCTTCCGAGAGTTCTCTGGCGCGGCGATGGCAGGCCTCCCGATCAGATC AGGGCCAAGGGCGGCATCGTCGAAGGCGAGGTGAATCCCCCGAAGGAATTCGGTTTATGGCACCACTCGACACAG TGGGATGTAAGGCGTGGCCCGTGGGACACGGCCTATACTGCAACTTCGTCGTCTCTTGGGGTAGCCACGGATTAC CTGGGCGCCTATCAGAAAAACCGGACTTTCGACGAAGGCTATGTTTACAGGATTCACGCGACGCCAAACTGCTTC AGTCTTCAGCAGACGCACCTTCAGCATACGGTATATCCCGATGAAAAGGAATTCCCATGTCTCGGAGGGATCCAT TGGAACCAGATCGAAGGCTGGATCGCCATATCCAGCAACTTTTCACAGTCCGTAAAAGAAGCAGGCATGTATCTG AGAGGATTAACTTTTGATGAATTCTCCTCCGGATTCGTCCAAAACGAAGAATATGATGCGACAAAATACGACGCC TTATCCGCCAGCGAAGGACAGCCACAGCTGGCTGGCTGGGACACCGTGCCCAAAGATTACGGCATCATGGGCATG CCCACATGGAACTACAACAAGGAGCTTCCCTGGAGTAAGTTCCAGGACAAGACGACGGTCGAATATGCCGTCGAT TTCATGAACCTCCATGGCAAGGAGGTGGGCTTTGTTGGGACCTTCCCACTTCCGCTCACTGTTCCTCCAGGTCCG TTCAATCAAACAATGCGGAAAGAGTTGGCACCATATAGGAGGCATCAGCAAGCTTCGTCAGTCTCCGGGCGACGC ACGCTGCGGGCTTTGCGGCTAGCTTGA

© 2023 - Robin Ohm - Utrecht University - The Netherlands

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