Ophiocordyceps subramaniannii

General Properties

Protein ID	Hirsu2\|9667
Gene name
Location	Contig_718:10561..13484
Strand	+
Gene length (bp)	2923
Transcript length (bp)	2658
Coding sequence length (bp)	2658
Protein length (aa)	886

PFAM Domains

PFAM Domain ID	Short name	Long name	E-value	Start	End
PF13718	GNAT_acetyltr_2	GNAT acetyltransferase 2	5.4E-98	537	767
PF05127	Helicase_RecD	Helicase	1.1E-63	282	495
PF13725	tRNA_bind_2	Possible tRNA binding domain	4.6E-44	775	881
PF08351	DUF1726	Domain of unknown function (DUF1726)	1.4E-32	108	202

Swissprot hits

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|P87115\|NAT10_SCHPO	RNA cytidine acetyltransferase OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=nat10 PE=1 SV=1	1	881	0.0E+00
sp\|Q9H0A0\|NAT10_HUMAN	RNA cytidine acetyltransferase OS=Homo sapiens GN=NAT10 PE=1 SV=2	1	880	0.0E+00
sp\|Q8K224\|NAT10_MOUSE	RNA cytidine acetyltransferase OS=Mus musculus GN=Nat10 PE=1 SV=1	1	880	0.0E+00
sp\|Q55EJ3\|NAT10_DICDI	RNA cytidine acetyltransferase OS=Dictyostelium discoideum GN=nat10 PE=3 SV=1	1	873	0.0E+00
sp\|O01757\|NAT10_CAEEL	RNA cytidine acetyltransferase OS=Caenorhabditis elegans GN=nath-10 PE=3 SV=1	3	880	0.0E+00

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|P87115\|NAT10_SCHPO	RNA cytidine acetyltransferase OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=nat10 PE=1 SV=1	1	881	0.0E+00
sp\|Q9H0A0\|NAT10_HUMAN	RNA cytidine acetyltransferase OS=Homo sapiens GN=NAT10 PE=1 SV=2	1	880	0.0E+00
sp\|Q8K224\|NAT10_MOUSE	RNA cytidine acetyltransferase OS=Mus musculus GN=Nat10 PE=1 SV=1	1	880	0.0E+00
sp\|Q55EJ3\|NAT10_DICDI	RNA cytidine acetyltransferase OS=Dictyostelium discoideum GN=nat10 PE=3 SV=1	1	873	0.0E+00
sp\|O01757\|NAT10_CAEEL	RNA cytidine acetyltransferase OS=Caenorhabditis elegans GN=nath-10 PE=3 SV=1	3	880	0.0E+00
sp\|Q9XIK4\|NT101_ARATH	RNA cytidine acetyltransferase 1 OS=Arabidopsis thaliana GN=At1g10490 PE=2 SV=2	3	880	0.0E+00
sp\|Q9W3C1\|NAT10_DROME	RNA cytidine acetyltransferase OS=Drosophila melanogaster GN=l(1)G0020 PE=1 SV=2	1	881	0.0E+00
sp\|Q9M2Q4\|NT102_ARATH	RNA cytidine acetyltransferase 2 OS=Arabidopsis thaliana GN=At3g57940 PE=2 SV=2	3	880	0.0E+00
sp\|P53914\|NAT10_YEAST	RNA cytidine acetyltransferase OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=NAT10 PE=1 SV=1	1	880	0.0E+00
sp\|P54008\|NAT10_ACHAM	RNA cytidine acetyltransferase (Fragment) OS=Achlya ambisexualis PE=3 SV=1	463	795	3.0E-108
sp\|Q9UZ78\|TMCA_PYRAB	tRNA(Met) cytidine acetyltransferase TmcA OS=Pyrococcus abyssi (strain GE5 / Orsay) GN=tmcA PE=3 SV=1	59	866	1.0E-67
sp\|Q8TYZ5\|TMCA_METKA	tRNA(Met) cytidine acetyltransferase TmcA OS=Methanopyrus kandleri (strain AV19 / DSM 6324 / JCM 9639 / NBRC 100938) GN=tmcA PE=3 SV=1	59	866	8.0E-67
sp\|A1RY08\|TMCA_THEPD	tRNA(Met) cytidine acetyltransferase TmcA OS=Thermofilum pendens (strain Hrk 5) GN=tmcA PE=3 SV=1	4	871	1.0E-59
sp\|C3N792\|TMCA_SULIY	tRNA(Met) cytidine acetyltransferase TmcA OS=Sulfolobus islandicus (strain Y.G.57.14 / Yellowstone #1) GN=tmcA PE=3 SV=1	108	767	3.0E-39
sp\|D5C1K8\|TMCA_NITHN	tRNA(Met) cytidine acetyltransferase TmcA OS=Nitrosococcus halophilus (strain Nc4) GN=tmcA PE=3 SV=1	253	795	6.0E-37
sp\|D4GW73\|TMCA_HALVD	tRNA(Met) cytidine acetyltransferase TmcA OS=Haloferax volcanii (strain ATCC 29605 / DSM 3757 / JCM 8879 / NBRC 14742 / NCIMB 2012 / VKM B-1768 / DS2) GN=tmcA PE=3 SV=1	109	770	4.0E-35
sp\|Q5V5M5\|TMCA_HALMA	tRNA(Met) cytidine acetyltransferase TmcA OS=Haloarcula marismortui (strain ATCC 43049 / DSM 3752 / JCM 8966 / VKM B-1809) GN=tmcA PE=3 SV=1	112	792	1.0E-29
sp\|Q9KKJ5\|TMCA_VIBCH	tRNA(Met) cytidine acetyltransferase TmcA OS=Vibrio cholerae serotype O1 (strain ATCC 39315 / El Tor Inaba N16961) GN=tmcA PE=3 SV=1	280	666	3.0E-25
sp\|Q9YBQ6\|TMCA_AERPE	tRNA(Met) cytidine acetyltransferase TmcA OS=Aeropyrum pernix (strain ATCC 700893 / DSM 11879 / JCM 9820 / NBRC 100138 / K1) GN=tmcA PE=3 SV=1	251	637	2.0E-22
sp\|A8ADB3\|TMCA_CITK8	tRNA(Met) cytidine acetyltransferase TmcA OS=Citrobacter koseri (strain ATCC BAA-895 / CDC 4225-83 / SGSC4696) GN=tmcA PE=3 SV=1	278	663	1.0E-17
sp\|Q7VLN6\|TMCA_HAEDU	tRNA(Met) cytidine acetyltransferase TmcA OS=Haemophilus ducreyi (strain 35000HP / ATCC 700724) GN=tmcA PE=3 SV=1	383	785	8.0E-15
sp\|Q5QY69\|TMCA_IDILO	tRNA(Met) cytidine acetyltransferase TmcA OS=Idiomarina loihiensis (strain ATCC BAA-735 / DSM 15497 / L2-TR) GN=tmcA PE=3 SV=1	279	639	2.0E-10

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GO

(None)

SignalP

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SignalP signal predicted	Location (based on Ymax)	D score (significance: > 0.45)
No	1 - 12	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	>Hirsu2\|9667 MSRKQLDQRIQTLIRNGLQEKKRSFFVVVGDRSKDVIVYLHHIMSSMDIKQNKSVLWAYKSKLLGFTSHRKKREQ KIKKEIKRGIREANAEDPFELFVSLHNIRYTYYKETDKILGNTFGMCVLQDFEALTPNILARTIETVEGGGLVIM LLKGMNSLRQLYNLSMDVHSRYRTEAHKEVVARFNERFLLSLGRCDSCLVIDDELNVLPISGGKDVKALPPPDLD QPKTPEQMELESVKDEHREQEPVGSLISLAKSVDQAKALLTFTEAIAEKTLRSTVALTAARGRGKSAAMGVAVAA AVAYGYSNIFITSPSPENLKTLFEFIFKGFDALDYADHADYTIIQSTNPDFNKAIVRVNIHRQHRQTIQYIRPQD AHVLGQAELVVIDEAAAIPLPLVKKLMGPYLVFMASTINGYEGTGRSLSLKLIKQLREESRSASSRNGDTELADR STGKAAKVAEYQSARKLREITLAEPIRYTRGDAVEKWLNKLLCLDATLPKSKSNVYGCPDPSQCELLAVNRDTLF SFHPVSEAFLQQMVALYVASHYKNSPDDLQLMSDAPAHELFVLVPPNVEGSGKLPEPLCVIQVALEGKISRQSVL NSLSRGQRPHGDLIPWLVSQQFQDEDFASLSGARIVRIATNPEYVSMGYGTKALQLLVDFYEGRFASLSEEDDQR TEERVERATDAELAKTSLLEEEITVRDQAKMPPLFAKLRERKPEALDYLGVSYGLTGPLHKFWKRSSFSPVYLRQ TANGLTGEHTCVMLRPLDNSQDRSWLGAFSRDFQKRFLSLLSYQFRTFATKTALGIDESARRGASLDAVETAPLD KAELDRHLTPFDLKRLESYANNMLDYHVILDMLPTIAALFFGGKLKADVRLTGVQQWCAR*
Coding	>Hirsu2\|9667 ATGTCGCGAAAACAGCTGGACCAGCGCATCCAGACTCTCATCCGCAATGGCCTGCAGGAGAAGAAGAGGAGCTTC TTCGTCGTCGTCGGCGATCGATCCAAGGATGTCATCGTGTACTTGCATCACATCATGTCTAGCATGGACATCAAG CAGAACAAGTCCGTCCTGTGGGCGTATAAGAGCAAGCTGCTTGGATTCACGAGCCATCGGAAGAAGCGCGAGCAG AAGATCAAGAAGGAGATCAAGCGCGGCATCCGCGAAGCCAACGCCGAGGACCCCTTCGAGCTCTTCGTCTCCCTG CACAACATCCGATACACGTACTACAAGGAGACGGACAAAATCCTCGGCAACACCTTCGGCATGTGCGTCCTGCAG GACTTCGAGGCCCTGACGCCCAACATCCTGGCCCGCACCATCGAGACGGTCGAGGGCGGCGGCTTGGTCATCATG CTGCTCAAGGGCATGAACAGTCTGAGACAGCTGTACAACCTGTCGATGGACGTCCACTCCAGGTACCGCACAGAG GCGCATAAGGAAGTGGTGGCGAGGTTCAACGAGCGATTCCTGCTGTCTCTCGGCCGTTGTGACTCCTGTCTCGTC ATCGACGACGAACTCAACGTCCTGCCCATATCCGGTGGCAAAGACGTCAAGGCCCTGCCCCCGCCGGACCTGGAC CAGCCCAAGACGCCGGAGCAGATGGAGCTGGAAAGCGTCAAGGATGAGCATCGAGAACAGGAACCGGTCGGCTCC CTCATCTCCCTCGCTAAGTCGGTTGACCAAGCCAAGGCGCTCCTGACCTTCACCGAAGCCATTGCCGAGAAGACG CTGAGAAGCACCGTCGCTCTGACGGCCGCCAGAGGTCGAGGCAAGTCGGCCGCCATGGGTGTGGCCGTCGCGGCG GCCGTCGCGTACGGATACAGCAACATCTTCATCACGTCGCCCTCGCCGGAGAACTTGAAGACGCTCTTCGAGTTC ATCTTCAAGGGCTTCGATGCCTTGGACTATGCCGACCACGCCGACTATACCATCATTCAGAGCACCAACCCCGAC TTCAACAAGGCCATCGTCCGCGTCAACATCCACAGGCAACACCGTCAGACCATTCAGTACATCCGGCCGCAGGAT GCGCACGTGCTGGGCCAGGCAGAGCTTGTCGTCATCGACGAGGCCGCCGCCATCCCCTTGCCGCTCGTCAAGAAG CTCATGGGCCCGTATCTGGTCTTCATGGCCTCCACAATCAACGGCTACGAAGGCACCGGCCGTTCGCTTTCACTC AAGCTCATCAAACAGCTGCGGGAAGAGTCGCGCTCTGCCTCTTCCAGGAACGGAGACACCGAGCTCGCCGATAGA TCGACGGGCAAGGCGGCCAAGGTTGCCGAGTACCAGTCGGCTCGGAAGCTGCGAGAAATCACGCTCGCCGAGCCC ATCCGATATACCCGCGGCGATGCGGTCGAGAAGTGGCTGAACAAGCTTCTATGTCTCGACGCGACGCTGCCCAAG TCCAAGTCCAACGTCTACGGATGTCCCGACCCGTCCCAGTGCGAGCTCCTGGCCGTCAACCGGGACACACTCTTC TCCTTCCATCCGGTGTCCGAGGCGTTCCTGCAGCAGATGGTGGCCCTGTACGTTGCTAGCCACTACAAGAACTCA CCGGACGACCTGCAGCTCATGAGCGACGCGCCGGCGCACGAGCTCTTTGTCCTGGTGCCGCCCAACGTGGAGGGC AGCGGAAAGCTGCCGGAGCCGCTGTGCGTCATCCAAGTAGCCCTGGAGGGAAAGATCAGCAGACAGAGCGTGCTC AACAGCCTGAGCCGAGGGCAGCGGCCGCACGGGGATCTGATACCCTGGCTCGTGAGCCAGCAATTCCAGGACGAG GACTTTGCATCCTTGTCGGGCGCGCGCATCGTGAGGATAGCAACCAACCCGGAATACGTGTCCATGGGCTACGGG ACAAAGGCACTGCAGCTCCTCGTCGACTTTTATGAGGGCCGCTTCGCCAGTCTGTCGGAAGAGGACGACCAAAGA ACGGAGGAGAGGGTGGAGCGGGCAACGGACGCAGAGCTGGCCAAGACGTCACTGCTGGAGGAGGAGATCACTGTC CGAGACCAGGCCAAGATGCCCCCCCTCTTCGCGAAGCTCCGGGAGAGGAAGCCGGAAGCGCTCGACTACCTCGGC GTCAGCTACGGCCTGACGGGGCCCCTGCACAAGTTCTGGAAGCGGTCCAGTTTCTCGCCCGTCTACCTTCGGCAA ACGGCCAACGGCCTGACGGGCGAGCACACGTGCGTCATGCTGCGGCCGCTCGACAACAGCCAGGACAGGAGCTGG CTCGGGGCGTTCTCGCGAGACTTCCAGAAGCGCTTCCTGTCGCTCCTGTCGTACCAGTTTCGCACGTTCGCGACC AAGACGGCGCTGGGGATCGACGAGTCGGCCCGGCGCGGGGCCAGTCTGGACGCGGTCGAGACGGCGCCGCTGGAC AAGGCGGAGCTGGACCGGCACCTGACGCCCTTCGACCTGAAGCGGCTGGAGTCGTACGCGAACAACATGCTCGAC TACCACGTCATCCTCGACATGCTCCCGACGATCGCCGCCCTCTTCTTCGGCGGCAAGCTGAAGGCGGACGTCCGG CTGACGGGCGTGCAGCAGTGGTGCGCAAGGTGA
Transcript	>Hirsu2\|9667 ATGTCGCGAAAACAGCTGGACCAGCGCATCCAGACTCTCATCCGCAATGGCCTGCAGGAGAAGAAGAGGAGCTTC TTCGTCGTCGTCGGCGATCGATCCAAGGATGTCATCGTGTACTTGCATCACATCATGTCTAGCATGGACATCAAG CAGAACAAGTCCGTCCTGTGGGCGTATAAGAGCAAGCTGCTTGGATTCACGAGCCATCGGAAGAAGCGCGAGCAG AAGATCAAGAAGGAGATCAAGCGCGGCATCCGCGAAGCCAACGCCGAGGACCCCTTCGAGCTCTTCGTCTCCCTG CACAACATCCGATACACGTACTACAAGGAGACGGACAAAATCCTCGGCAACACCTTCGGCATGTGCGTCCTGCAG GACTTCGAGGCCCTGACGCCCAACATCCTGGCCCGCACCATCGAGACGGTCGAGGGCGGCGGCTTGGTCATCATG CTGCTCAAGGGCATGAACAGTCTGAGACAGCTGTACAACCTGTCGATGGACGTCCACTCCAGGTACCGCACAGAG GCGCATAAGGAAGTGGTGGCGAGGTTCAACGAGCGATTCCTGCTGTCTCTCGGCCGTTGTGACTCCTGTCTCGTC ATCGACGACGAACTCAACGTCCTGCCCATATCCGGTGGCAAAGACGTCAAGGCCCTGCCCCCGCCGGACCTGGAC CAGCCCAAGACGCCGGAGCAGATGGAGCTGGAAAGCGTCAAGGATGAGCATCGAGAACAGGAACCGGTCGGCTCC CTCATCTCCCTCGCTAAGTCGGTTGACCAAGCCAAGGCGCTCCTGACCTTCACCGAAGCCATTGCCGAGAAGACG CTGAGAAGCACCGTCGCTCTGACGGCCGCCAGAGGTCGAGGCAAGTCGGCCGCCATGGGTGTGGCCGTCGCGGCG GCCGTCGCGTACGGATACAGCAACATCTTCATCACGTCGCCCTCGCCGGAGAACTTGAAGACGCTCTTCGAGTTC ATCTTCAAGGGCTTCGATGCCTTGGACTATGCCGACCACGCCGACTATACCATCATTCAGAGCACCAACCCCGAC TTCAACAAGGCCATCGTCCGCGTCAACATCCACAGGCAACACCGTCAGACCATTCAGTACATCCGGCCGCAGGAT GCGCACGTGCTGGGCCAGGCAGAGCTTGTCGTCATCGACGAGGCCGCCGCCATCCCCTTGCCGCTCGTCAAGAAG CTCATGGGCCCGTATCTGGTCTTCATGGCCTCCACAATCAACGGCTACGAAGGCACCGGCCGTTCGCTTTCACTC AAGCTCATCAAACAGCTGCGGGAAGAGTCGCGCTCTGCCTCTTCCAGGAACGGAGACACCGAGCTCGCCGATAGA TCGACGGGCAAGGCGGCCAAGGTTGCCGAGTACCAGTCGGCTCGGAAGCTGCGAGAAATCACGCTCGCCGAGCCC ATCCGATATACCCGCGGCGATGCGGTCGAGAAGTGGCTGAACAAGCTTCTATGTCTCGACGCGACGCTGCCCAAG TCCAAGTCCAACGTCTACGGATGTCCCGACCCGTCCCAGTGCGAGCTCCTGGCCGTCAACCGGGACACACTCTTC TCCTTCCATCCGGTGTCCGAGGCGTTCCTGCAGCAGATGGTGGCCCTGTACGTTGCTAGCCACTACAAGAACTCA CCGGACGACCTGCAGCTCATGAGCGACGCGCCGGCGCACGAGCTCTTTGTCCTGGTGCCGCCCAACGTGGAGGGC AGCGGAAAGCTGCCGGAGCCGCTGTGCGTCATCCAAGTAGCCCTGGAGGGAAAGATCAGCAGACAGAGCGTGCTC AACAGCCTGAGCCGAGGGCAGCGGCCGCACGGGGATCTGATACCCTGGCTCGTGAGCCAGCAATTCCAGGACGAG GACTTTGCATCCTTGTCGGGCGCGCGCATCGTGAGGATAGCAACCAACCCGGAATACGTGTCCATGGGCTACGGG ACAAAGGCACTGCAGCTCCTCGTCGACTTTTATGAGGGCCGCTTCGCCAGTCTGTCGGAAGAGGACGACCAAAGA ACGGAGGAGAGGGTGGAGCGGGCAACGGACGCAGAGCTGGCCAAGACGTCACTGCTGGAGGAGGAGATCACTGTC CGAGACCAGGCCAAGATGCCCCCCCTCTTCGCGAAGCTCCGGGAGAGGAAGCCGGAAGCGCTCGACTACCTCGGC GTCAGCTACGGCCTGACGGGGCCCCTGCACAAGTTCTGGAAGCGGTCCAGTTTCTCGCCCGTCTACCTTCGGCAA ACGGCCAACGGCCTGACGGGCGAGCACACGTGCGTCATGCTGCGGCCGCTCGACAACAGCCAGGACAGGAGCTGG CTCGGGGCGTTCTCGCGAGACTTCCAGAAGCGCTTCCTGTCGCTCCTGTCGTACCAGTTTCGCACGTTCGCGACC AAGACGGCGCTGGGGATCGACGAGTCGGCCCGGCGCGGGGCCAGTCTGGACGCGGTCGAGACGGCGCCGCTGGAC AAGGCGGAGCTGGACCGGCACCTGACGCCCTTCGACCTGAAGCGGCTGGAGTCGTACGCGAACAACATGCTCGAC TACCACGTCATCCTCGACATGCTCCCGACGATCGCCGCCCTCTTCTTCGGCGGCAAGCTGAAGGCGGACGTCCGG CTGACGGGCGTGCAGCAGTGGTGCGCAAGGTGA
Gene	>Hirsu2\|9667 ATGTCGCGAAAACAGCTGTAAGCGCTTGACTTTTGGTCCCCCCCCCTCGCTTCCGCCCATTCGACGGCGTCCGGC CTTTCATCTCTCTGACACCCGTCGACAGGGACCAGCGCATCCAGACTCTCATCCGCAATGGCCTGCAGGAGAAGA AGAGGAGCTTCTTCGTCGTCGTCGGCGATCGATCCAAGGATGTCATCGTGTACTTGCATCACATCATGTCTAGCA TGGACATCAAGCAGAACAAGTCCGTCCTGTGGGCGTATAAGAGCAAGCTGCTTGGATTCACGAGGTGCGCCAGTG CTGTTACCTGTTTTCCTCACCTCTGGGAAGGAATGCGGCCGCTGATCGTTGACGCGACTCGCATCTAGCCATCGG AAGAAGCGCGAGCAGAAGATCAAGAAGGAGATCAAGCGCGGCATCCGCGAAGCCAACGCCGAGGACCCCTTCGAG CTCTTCGTCTCCCTGCACAACATCCGATACACGTACTACAAGGAGACGGACAAAATCCTCGGCAACACCTTCGGC ATGTGCGTCCTGCAGGACTTCGAGGCCCTGACGCCCAACATCCTGGCCCGCACCATCGAGACGGTCGAGGGCGGC GGCTTGGTCATCATGCTGCTCAAGGGCATGAACAGTCTGAGACAGCTGTACAACCTGTCGATGGACGTCCACTCC AGGTACCGCACAGAGGCGCATAAGGAAGTGGTGGCGAGGTTCAACGAGCGATTCCTGCTGTCTCTCGGCCGTTGT GACTCCTGTCTCGTCATCGACGACGAACTCAACGTCCTGCCCATATCCGGTGGCAAAGACGTCAAGGCCCTGCCC CCGCCGGACCTGGACCAGCCCAAGACGCCGGAGCAGATGGAGCTGGAAAGCGTCAAGGATGAGCATCGAGAACAG GAACCGGTCGGCTCCCTCATCTCCCTCGCTAAGTCGGTTGACCAAGCCAAGGCGCTCCTGACCTTCACCGAAGCC ATTGCCGAGAAGACGCTGAGAAGCACCGTCGCTCTGACGGCCGCCAGAGGTCGAGGCAAGTCGGCCGCCATGGGT GTGGCCGTCGCGGCGGCCGTCGCGTACGGATACAGCAACATCTTCATCACGTCGCCCTCGCCGGAGAACTTGAAG ACGCTCTTCGAGTTCATCTTCAAGGGCTTCGATGCCTTGGACTATGCCGACCACGCCGACTATACCATCATTCAG AGCACCAACCCCGACTTCAACAAGGCCATCGTCCGCGTCAACATCCACAGGCAACACCGTCAGACCATTCAGTAC ATCCGGCCGCAGGATGCGCACGTGCTGGGCCAGGCAGAGCTTGTCGTCATCGACGAGGCCGCCGCCATCCCCTTG CCGCTCGTCAAGAAGCTCATGGGCCCGTATCTGGTCTTCATGGCCTCCACAATCAACGGCTACGAAGGCACCGGC CGTTCGCTTTCACTCAAGCTCATCAAACAGCTGCGGGAAGAGTCGCGCTCTGCCTCTTCCAGGAACGGAGACACC GAGCTCGCCGATAGATCGACGGGCAAGGCGGCCAAGGTTGCCGAGTACCAGTCGGCTCGGAAGCTGCGAGAAATC ACGCTCGCCGAGCCCATCCGATATACCCGCGGCGATGCGGTCGAGAAGTGGCTGAACAAGCTTCTATGTCTCGAC GCGACGCTGCCCAAGTCCAAGTCCAACGTCTACGGATGTCCCGACCCGTCCCAGTGCGAGCTCCTGGCCGTCAAC CGGGACACACTCTTCTCCTTCCATCCGGTGTCCGAGGCGTTCCTGCAGCAGATGGTGGCCCTGTACGTTGCTAGC CACTACAAGAACTCACCGGACGACCTGCAGCTCATGAGCGACGCGCCGGCGCACGAGCTCTTTGTCCTGGTGCCG CCCAACGTGGAGGGCAGCGGAAAGCTGCCGGAGCCGCTGTGCGTCATCCAAGTAGCCCTGGAGGGAAAGATCAGC AGACAGAGCGTGCTCAACAGCCTGAGCCGAGGGCAGCGGCCGCACGGGGATCTGATACCCTGGCTCGTGAGCCAG CAATTCCAGGACGAGGACTTTGCATCCTTGTCGGGCGCGCGCATCGTGAGGATAGCAACCAACCCGGAATACGTG TCCATGGGCTACGGGACAAAGGCACTGCAGCTCCTCGTCGACTTTTATGAGGGCCGCTTCGCCAGTCTGTCGGAA GAGGACGACCAAAGAACGGAGGAGAGGGTGGAGCGGGCAACGGACGCAGAGCTGGCCAAGACGTCACTGCTGGAG GAGGAGATCACTGTCCGAGACCAGGCCAAGATGCCCCCCCTCTTCGCGAAGCTCCGGGAGAGGAAGCCGGAAGCG CTCGACTACCTCGGCGTCAGCTACGGCCTGACGGGGCCCCTGCACAAGTTCTGGAAGCGGTCCAGTTTCTCGCCC GTCTACCTTCGGCAAACGGCCAACGGCCTGACGGGCGAGCACACGTGCGTCATGCTGCGGCCGCTCGACAACAGC CAGGACAGGAGCTGGCTCGGGGCGTTCTCGCGAGACTTCCAGAAGCGCTTCCTGTCGCTCCTGTCGTACCAGTTT CGCACGTTCGCGACCAAGACGGCGCTGGGGATCGACGAGTCGGCCCGGCGCGGGGCCAGTCTGGACGCGGTCGAG ACGGCGCCGCTGGACAAGGCGGAGCTGGACCGGCACCTGACGCCCTTCGACCTGAAGCGGCTGGAGTCGTACGCG AACAACATGCTCGACTACCACGTCATCCTCGACATGCTCCCGACGATCGCCGCCCTCTTCTTCGGCGGCAAGCTG AAGGCGGACGTCCGGCTGACGGGCGTGCAGCAGTGCATCCTGCTGGGCATGGGCCTGCAGCGCAAGGACGTGGAC GCGGTGGCGCAGGAGCTCGGCCTGCCGGCGGGCCAGCTGCTGGCCATGTTCATCAAGGTGGTGCGCAAGGTGA

Fungal Genomics

General Properties

PFAM Domains

Swissprot hits

GO

SignalP

Transmembrane Domains

Transcription Factor Class

Expression data

Sequences