Aspergillus niger CBS 147353

General Properties

Protein ID	Ani_SJS100_1\|g10026.t1
Gene name
Location	scaffold_103:35525..38618
Strand	+
Gene length (bp)	3093
Transcript length (bp)	2970
Coding sequence length (bp)	2970
Protein length (aa)	990

PFAM Domains

PFAM Domain ID	Short name	Long name	E-value	Start	End
PF00133	tRNA-synt_1	tRNA synthetases class I (I, L, M and V)	7.2E-36	61	482
PF00133	tRNA-synt_1	tRNA synthetases class I (I, L, M and V)	4.0E-07	491	655
PF13603	tRNA-synt_1_2	Leucyl-tRNA synthetase, Domain 2	5.2E-38	275	477
PF09334	tRNA-synt_1g	tRNA synthetases class I (M)	2.9E-23	88	225
PF08264	Anticodon_1	Anticodon-binding domain of tRNA ligase	4.4E-12	801	932

GO

GO Term	Description	Terminal node
GO:0005524	ATP binding	Yes
GO:0000166	nucleotide binding	Yes
GO:0002161	aminoacyl-tRNA editing activity	Yes
GO:0006418	tRNA aminoacylation for protein translation	Yes
GO:0004812	aminoacyl-tRNA ligase activity	Yes
GO:0044238	primary metabolic process	No
GO:0035639	purine ribonucleoside triphosphate binding	No
GO:0006082	organic acid metabolic process	No
GO:1901363	heterocyclic compound binding	No
GO:1901265	nucleoside phosphate binding	No
GO:0032553	ribonucleotide binding	No
GO:0009987	cellular process	No
GO:0017076	purine nucleotide binding	No
GO:0016874	ligase activity	No
GO:0003674	molecular_function	No
GO:0016787	hydrolase activity	No
GO:0097367	carbohydrate derivative binding	No
GO:0019752	carboxylic acid metabolic process	No
GO:0008152	metabolic process	No
GO:0043038	amino acid activation	No
GO:0032555	purine ribonucleotide binding	No
GO:0043170	macromolecule metabolic process	No
GO:0071704	organic substance metabolic process	No
GO:0006399	tRNA metabolic process	No
GO:0016070	RNA metabolic process	No
GO:1901360	organic cyclic compound metabolic process	No
GO:0043167	ion binding	No
GO:0090304	nucleic acid metabolic process	No
GO:0036094	small molecule binding	No
GO:0006807	nitrogen compound metabolic process	No
GO:0016788	hydrolase activity, acting on ester bonds	No
GO:0034660	ncRNA metabolic process	No
GO:0005488	binding	No
GO:0032559	adenyl ribonucleotide binding	No
GO:0097159	organic cyclic compound binding	No
GO:0052689	carboxylic ester hydrolase activity	No
GO:0006139	nucleobase-containing compound metabolic process	No
GO:0140101	catalytic activity, acting on a tRNA	No
GO:0043039	tRNA aminoacylation	No
GO:0003824	catalytic activity	No
GO:0046483	heterocycle metabolic process	No
GO:0008150	biological_process	No
GO:0140640	catalytic activity, acting on a nucleic acid	No
GO:0043168	anion binding	No
GO:0006725	cellular aromatic compound metabolic process	No
GO:0043436	oxoacid metabolic process	No
GO:0016875	ligase activity, forming carbon-oxygen bonds	No
GO:0034641	cellular nitrogen compound metabolic process	No
GO:0044237	cellular metabolic process	No
GO:0030554	adenyl nucleotide binding	No
GO:0006520	cellular amino acid metabolic process	No
GO:1901564	organonitrogen compound metabolic process	No
GO:0044281	small molecule metabolic process	No
GO:0140098	catalytic activity, acting on RNA	No

SignalP

[Help with interpreting these statistics]

SignalP signal predicted	Location (based on Ymax)	D score (significance: > 0.45)
No	1 - 16	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	>Ani_SJS100_1\|g10026.t1 MQSLLRFRLSPTRSALPHPARWNCASRPILRPTAVPSRYATTTASATSISKKLDLLALDKKWQERWQTDSLKKPS KTSADGDAKPKSYILSMFPYPSGTLHMGHLRVYTISDVLARFYRMRGHEVLHPMGWDAFGLPAENAAIERGIDPA EWTESNITKMKEQLRSISTSFDWDRELATCAPEFYEHTQRIFLMLYEKGLAYQAEALVNYDPVDKTVLANEQVDA NGFSWRSGAKVEKLKLKQWFFRITDFKEMLLKDLDSLAGGWPERVLSMQRNWLGKSQGAKIKFPVAVNGNNGTDI DIDVFTTRPDTLYGVEYLALSLDHPIVLEAAKKDPELRRFLDTAASLPPDSKAGYKLSTVTASHPLHVIDKESPH VARQLPVFAAPYVLSDYGEGAVMGVPGHDARDLAFFRDNVNPDSIPVVVGPQEEAGADGGDASIVPSADAKAFTQ EGYLNSLCWKYEGLHSREAKKQIVTDLKQVGRGDFVEQWRLRDWLISRQRYWGAPIPIIHCGDCGPVPVPDDQLP VKLPKIEGDWLKGKRGNPLESSHEWVNTKCPSCGGPAKRDTDTMDTFVDSSWYFLRFLDPKNKEQPFSPSAARPV DVYIGGVEHAILHLLYARFIYKFLSQSELFPEIARAGNVATPFEPFKTLLSQGMVHGRTYSEPSTGRFLHPSEVD LSSPDKPLIKGTQITPNVSFEKMSKSKHNGVDPTGCALRYGADTTRAHVLFSAPVSEVLEWDETKIVGIERWFGR LWKLVNDAQQSLASFSFTLQPADLKATSGHATGLPSSLQDLSDSDADAVLATHRTISSVTSCIEKNPYGLNTVIS DLTKLTNSLSSSTPSSPQVLYLSISSLLRLLSPIAPALASECWEILNGPVTAGKPSTNVPAIFDCPWPTPLLKPE EADILSARGGQVVAVQINGKLRFTITIPRRLSPTTAPEASGTVTEEQDWIINRILETDEGQFWLRKKNDWDKRRR VIVVKGGKLVNVVF*
Coding	>Ani_SJS100_1\|g10026.t1 ATGCAATCCCTACTACGTTTTCGATTGAGCCCGACACGGTCGGCGCTCCCACACCCAGCCCGATGGAACTGCGCA TCCCGTCCGATTTTACGACCGACTGCTGTTCCCTCTCGATATGCGACAACCACCGCATCTGCAACCTCGATCTCC AAGAAGCTCGATTTATTGGCCTTGGATAAGAAGTGGCAGGAAAGATGGCAAACAGATTCCTTGAAGAAGCCCTCC AAGACATCGGCGGACGGAGACGCAAAACCCAAATCATACATCCTATCTATGTTCCCCTACCCTTCCGGGACGTTA CACATGGGGCACCTGCGCGTGTACACTATTTCCGATGTGCTGGCTAGGTTTTACCGGATGCGCGGACATGAGGTC CTTCATCCAATGGGTTGGGATGCGTTTGGCTTGCCGGCGGAGAATGCGGCGATTGAACGGGGGATAGACCCCGCG GAATGGACCGAGTCGAATATAACAAAGATGAAAGAGCAATTACGAAGTATTTCAACCTCTTTCGATTGGGATCGG GAACTAGCAACGTGCGCACCGGAGTTCTACGAACATACCCAGCGGATTTTCCTTATGCTATATGAGAAGGGCCTC GCATACCAGGCTGAAGCGCTAGTCAATTATGACCCGGTTGATAAGACAGTGCTGGCTAATGAGCAGGTCGATGCC AATGGCTTCTCTTGGCGCTCGGGAGCCAAGGTCGAGAAGCTGAAGTTGAAGCAATGGTTCTTCCGTATCACGGAT TTCAAGGAGATGCTCCTGAAGGATCTTGACTCTTTGGCGGGCGGCTGGCCGGAGCGCGTTCTTTCCATGCAGCGG AATTGGCTTGGGAAATCGCAGGGTGCCAAGATCAAGTTCCCTGTGGCCGTCAATGGCAATAATGGCACAGACATC GATATCGATGTCTTCACCACGCGACCAGATACTCTTTACGGAGTCGAGTACCTCGCTCTTTCTCTGGATCATCCC ATTGTCCTGGAGGCGGCGAAGAAGGATCCGGAACTGCGCAGATTTCTGGATACTGCCGCGTCGCTTCCGCCCGAC TCTAAAGCTGGCTACAAACTGTCTACTGTCACTGCTTCCCACCCTCTGCATGTTATTGACAAGGAGAGCCCCCAT GTCGCCCGTCAGTTGCCTGTATTCGCGGCGCCTTACGTCCTTAGCGACTACGGTGAGGGCGCAGTGATGGGAGTC CCAGGCCACGATGCTAGAGACCTTGCATTTTTCAGAGATAATGTGAACCCCGATTCCATACCCGTTGTCGTTGGA CCCCAAGAGGAAGCCGGGGCAGACGGTGGTGACGCGAGCATCGTTCCCTCCGCGGATGCAAAGGCTTTTACGCAA GAGGGATATTTGAACTCCTTGTGCTGGAAGTACGAGGGTCTTCACTCTCGCGAGGCCAAGAAGCAGATCGTCACC GATCTGAAGCAGGTCGGACGCGGTGACTTTGTCGAACAATGGAGGCTCAGAGACTGGTTGATCAGCCGACAGCGC TACTGGGGGGCTCCCATCCCGATTATCCACTGCGGCGATTGCGGCCCTGTACCTGTGCCAGATGATCAGCTCCCA GTCAAGCTGCCCAAGATTGAAGGGGACTGGCTGAAGGGCAAGAGAGGAAATCCTCTCGAGTCATCCCATGAGTGG GTGAACACGAAATGTCCGAGCTGTGGCGGGCCTGCTAAGCGGGATACGGACACCATGGACACCTTTGTCGACTCT TCATGGTACTTCCTCCGTTTCTTGGACCCGAAGAACAAGGAACAGCCGTTTTCGCCGTCGGCTGCGCGCCCGGTG GATGTCTACATCGGCGGTGTCGAGCATGCAATTTTGCACCTGCTATATGCCCGATTCATCTACAAGTTCCTCTCC CAGTCCGAACTATTCCCGGAAATCGCTCGAGCTGGAAACGTTGCGACGCCGTTTGAACCATTCAAGACTCTCCTC TCCCAAGGTATGGTGCACGGCAGGACGTATTCGGAGCCGTCTACGGGGAGATTCCTGCACCCCTCCGAAGTGGAT CTTTCCAGCCCCGACAAGCCACTGATCAAGGGCACCCAAATCACGCCCAATGTGTCCTTTGAGAAGATGTCCAAG AGCAAGCACAACGGAGTCGATCCGACCGGATGTGCGTTGAGATACGGTGCCGATACTACTCGGGCCCATGTCCTT TTCTCAGCTCCGGTCAGCGAGGTGCTGGAATGGGACGAAACGAAGATCGTGGGCATTGAGCGCTGGTTTGGTCGA CTCTGGAAGTTGGTGAACGATGCGCAGCAGAGCCTGGCTTCGTTCTCGTTTACACTGCAGCCAGCCGACTTGAAA GCCACCTCCGGCCACGCGACTGGCTTGCCCAGCTCTCTACAGGATCTGAGCGACAGTGATGCGGACGCTGTGCTT GCCACCCACCGCACCATTTCCTCTGTCACGAGCTGTATTGAGAAAAATCCATACGGGCTGAATACTGTCATCTCC GACCTGACCAAGCTGACCAACTCGTTGTCGTCGTCGACGCCCAGTTCACCGCAGGTCCTCTACCTATCTATTTCT TCCCTGCTCCGGCTGCTTTCGCCGATCGCGCCCGCGCTGGCGTCCGAATGTTGGGAGATCCTCAATGGTCCCGTG ACTGCGGGGAAGCCATCCACCAATGTCCCCGCCATCTTTGACTGTCCCTGGCCAACTCCTCTGCTGAAGCCCGAG GAGGCCGATATTCTGTCTGCGCGCGGTGGCCAAGTGGTCGCCGTCCAGATCAATGGCAAATTGCGATTTACGATC ACGATCCCCCGGCGGCTCTCCCCCACGACCGCGCCCGAAGCTAGCGGCACGGTCACGGAGGAACAAGACTGGATT ATCAATCGGATCTTGGAGACGGACGAAGGACAATTCTGGCTGCGGAAGAAGAACGACTGGGACAAGCGGAGACGG GTGATTGTCGTCAAGGGGGGCAAGTTGGTGAATGTGGTGTTTTAG
Transcript	>Ani_SJS100_1\|g10026.t1 ATGCAATCCCTACTACGTTTTCGATTGAGCCCGACACGGTCGGCGCTCCCACACCCAGCCCGATGGAACTGCGCA TCCCGTCCGATTTTACGACCGACTGCTGTTCCCTCTCGATATGCGACAACCACCGCATCTGCAACCTCGATCTCC AAGAAGCTCGATTTATTGGCCTTGGATAAGAAGTGGCAGGAAAGATGGCAAACAGATTCCTTGAAGAAGCCCTCC AAGACATCGGCGGACGGAGACGCAAAACCCAAATCATACATCCTATCTATGTTCCCCTACCCTTCCGGGACGTTA CACATGGGGCACCTGCGCGTGTACACTATTTCCGATGTGCTGGCTAGGTTTTACCGGATGCGCGGACATGAGGTC CTTCATCCAATGGGTTGGGATGCGTTTGGCTTGCCGGCGGAGAATGCGGCGATTGAACGGGGGATAGACCCCGCG GAATGGACCGAGTCGAATATAACAAAGATGAAAGAGCAATTACGAAGTATTTCAACCTCTTTCGATTGGGATCGG GAACTAGCAACGTGCGCACCGGAGTTCTACGAACATACCCAGCGGATTTTCCTTATGCTATATGAGAAGGGCCTC GCATACCAGGCTGAAGCGCTAGTCAATTATGACCCGGTTGATAAGACAGTGCTGGCTAATGAGCAGGTCGATGCC AATGGCTTCTCTTGGCGCTCGGGAGCCAAGGTCGAGAAGCTGAAGTTGAAGCAATGGTTCTTCCGTATCACGGAT TTCAAGGAGATGCTCCTGAAGGATCTTGACTCTTTGGCGGGCGGCTGGCCGGAGCGCGTTCTTTCCATGCAGCGG AATTGGCTTGGGAAATCGCAGGGTGCCAAGATCAAGTTCCCTGTGGCCGTCAATGGCAATAATGGCACAGACATC GATATCGATGTCTTCACCACGCGACCAGATACTCTTTACGGAGTCGAGTACCTCGCTCTTTCTCTGGATCATCCC ATTGTCCTGGAGGCGGCGAAGAAGGATCCGGAACTGCGCAGATTTCTGGATACTGCCGCGTCGCTTCCGCCCGAC TCTAAAGCTGGCTACAAACTGTCTACTGTCACTGCTTCCCACCCTCTGCATGTTATTGACAAGGAGAGCCCCCAT GTCGCCCGTCAGTTGCCTGTATTCGCGGCGCCTTACGTCCTTAGCGACTACGGTGAGGGCGCAGTGATGGGAGTC CCAGGCCACGATGCTAGAGACCTTGCATTTTTCAGAGATAATGTGAACCCCGATTCCATACCCGTTGTCGTTGGA CCCCAAGAGGAAGCCGGGGCAGACGGTGGTGACGCGAGCATCGTTCCCTCCGCGGATGCAAAGGCTTTTACGCAA GAGGGATATTTGAACTCCTTGTGCTGGAAGTACGAGGGTCTTCACTCTCGCGAGGCCAAGAAGCAGATCGTCACC GATCTGAAGCAGGTCGGACGCGGTGACTTTGTCGAACAATGGAGGCTCAGAGACTGGTTGATCAGCCGACAGCGC TACTGGGGGGCTCCCATCCCGATTATCCACTGCGGCGATTGCGGCCCTGTACCTGTGCCAGATGATCAGCTCCCA GTCAAGCTGCCCAAGATTGAAGGGGACTGGCTGAAGGGCAAGAGAGGAAATCCTCTCGAGTCATCCCATGAGTGG GTGAACACGAAATGTCCGAGCTGTGGCGGGCCTGCTAAGCGGGATACGGACACCATGGACACCTTTGTCGACTCT TCATGGTACTTCCTCCGTTTCTTGGACCCGAAGAACAAGGAACAGCCGTTTTCGCCGTCGGCTGCGCGCCCGGTG GATGTCTACATCGGCGGTGTCGAGCATGCAATTTTGCACCTGCTATATGCCCGATTCATCTACAAGTTCCTCTCC CAGTCCGAACTATTCCCGGAAATCGCTCGAGCTGGAAACGTTGCGACGCCGTTTGAACCATTCAAGACTCTCCTC TCCCAAGGTATGGTGCACGGCAGGACGTATTCGGAGCCGTCTACGGGGAGATTCCTGCACCCCTCCGAAGTGGAT CTTTCCAGCCCCGACAAGCCACTGATCAAGGGCACCCAAATCACGCCCAATGTGTCCTTTGAGAAGATGTCCAAG AGCAAGCACAACGGAGTCGATCCGACCGGATGTGCGTTGAGATACGGTGCCGATACTACTCGGGCCCATGTCCTT TTCTCAGCTCCGGTCAGCGAGGTGCTGGAATGGGACGAAACGAAGATCGTGGGCATTGAGCGCTGGTTTGGTCGA CTCTGGAAGTTGGTGAACGATGCGCAGCAGAGCCTGGCTTCGTTCTCGTTTACACTGCAGCCAGCCGACTTGAAA GCCACCTCCGGCCACGCGACTGGCTTGCCCAGCTCTCTACAGGATCTGAGCGACAGTGATGCGGACGCTGTGCTT GCCACCCACCGCACCATTTCCTCTGTCACGAGCTGTATTGAGAAAAATCCATACGGGCTGAATACTGTCATCTCC GACCTGACCAAGCTGACCAACTCGTTGTCGTCGTCGACGCCCAGTTCACCGCAGGTCCTCTACCTATCTATTTCT TCCCTGCTCCGGCTGCTTTCGCCGATCGCGCCCGCGCTGGCGTCCGAATGTTGGGAGATCCTCAATGGTCCCGTG ACTGCGGGGAAGCCATCCACCAATGTCCCCGCCATCTTTGACTGTCCCTGGCCAACTCCTCTGCTGAAGCCCGAG GAGGCCGATATTCTGTCTGCGCGCGGTGGCCAAGTGGTCGCCGTCCAGATCAATGGCAAATTGCGATTTACGATC ACGATCCCCCGGCGGCTCTCCCCCACGACCGCGCCCGAAGCTAGCGGCACGGTCACGGAGGAACAAGACTGGATT ATCAATCGGATCTTGGAGACGGACGAAGGACAATTCTGGCTGCGGAAGAAGAACGACTGGGACAAGCGGAGACGG GTGATTGTCGTCAAGGGGGGCAAGTTGGTGAATGTGGTGTTTTAG
Gene	>Ani_SJS100_1\|g10026.t1 ATGCAATCCCTACTACGTTTTCGATTGAGCCCGACACGGTCGGCGCTCCCACACCCAGCCCGATGGAACTGCGCA TCCCGTCCGATTTTACGACCGACTGCTGTTCCCTCTCGATATGCGACAACCACCGCATCTGCAACCTCGATCTCC AAGAAGCTCGATTTATTGGCCTTGGATAAGAAGTGGCAGGAAAGATGGCAAACAGATTCCTTGAAGAAGCCCTCC AAGACATCGGCGGACGGAGACGCAAAACCCAAATCATACATCCTATCTATGTTCCCCTACCCTTCCGGGACGTTA CACATGGGGCACCTGCGCGTGTACACTATTTCCGATGTGCTGGCTAGGTTTTACCGGATGCGCGGACATGAGGTC CTTCATCCAATGGGTTGGGATGCGTTTGGCTTGCCGGCGGAGAATGCGGCGATTGAACGGGGGATAGACCCCGCG GAATGGACCGAGTCGAATATAACAAAGATGAAAGAGCAATTACGAAGTATTTCAACCTCTTTCGATTGGGATCGG GTATGTGTGTTGAGTGTGCAAGCTATGTGATTACCAGCTTTGCTGACATGTTGGTTGTCGAACGCAGGAACTAGC AACGTGCGCACCGGAGTTCTACGAACATACCCAGCGGATTTTCCTTATGCTATATGAGAAGGGCCTCGCATACCA GGCTGAAGCGCTAGTCAATTATGACCCGGTTGATAAGACAGTGCTGGCTAATGAGCAGGTGGGTGCTATGGAATG GGTTACACACGGGATTCAAAAGGCTCACTCTTGGTGCAGGTCGATGCCAATGGCTTCTCTTGGCGCTCGGGAGCC AAGGTCGAGAAGCTGAAGTTGAAGCAATGGTTCTTCCGTATCACGGATTTCAAGGAGATGCTCCTGAAGGATCTT GACTCTTTGGCGGGCGGCTGGCCGGAGCGCGTTCTTTCCATGCAGCGGAATTGGCTTGGGAAATCGCAGGGTGCC AAGATCAAGTTCCCTGTGGCCGTCAATGGCAATAATGGCACAGACATCGATATCGATGTCTTCACCACGCGACCA GATACTCTTTACGGAGTCGAGTACCTCGCTCTTTCTCTGGATCATCCCATTGTCCTGGAGGCGGCGAAGAAGGAT CCGGAACTGCGCAGATTTCTGGATACTGCCGCGTCGCTTCCGCCCGACTCTAAAGCTGGCTACAAACTGTCTACT GTCACTGCTTCCCACCCTCTGCATGTTATTGACAAGGAGAGCCCCCATGTCGCCCGTCAGTTGCCTGTATTCGCG GCGCCTTACGTCCTTAGCGACTACGGTGAGGGCGCAGTGATGGGAGTCCCAGGCCACGATGCTAGAGACCTTGCA TTTTTCAGAGATAATGTGAACCCCGATTCCATACCCGTTGTCGTTGGACCCCAAGAGGAAGCCGGGGCAGACGGT GGTGACGCGAGCATCGTTCCCTCCGCGGATGCAAAGGCTTTTACGCAAGAGGGATATTTGAACTCCTTGTGCTGG AAGTACGAGGGTCTTCACTCTCGCGAGGCCAAGAAGCAGATCGTCACCGATCTGAAGCAGGTCGGACGCGGTGAC TTTGTCGAACAATGGAGGCTCAGAGACTGGTTGATCAGCCGACAGCGCTACTGGGGGGCTCCCATCCCGATTATC CACTGCGGCGATTGCGGCCCTGTACCTGTGCCAGATGATCAGCTCCCAGTCAAGCTGCCCAAGATTGAAGGGGAC TGGCTGAAGGGCAAGAGAGGAAATCCTCTCGAGTCATCCCATGAGTGGGTGAACACGAAATGTCCGAGCTGTGGC GGGCCTGCTAAGCGGGATACGGACACCATGGACACCTTTGTCGACTCTTCATGGTACTTCCTCCGTTTCTTGGAC CCGAAGAACAAGGAACAGCCGTTTTCGCCGTCGGCTGCGCGCCCGGTGGATGTCTACATCGGCGGTGTCGAGCAT GCAATTTTGCACCTGCTATATGCCCGATTCATCTACAAGTTCCTCTCCCAGTCCGAACTATTCCCGGAAATCGCT CGAGCTGGAAACGTTGCGACGCCGTTTGAACCATTCAAGACTCTCCTCTCCCAAGGTATGGTGCACGGCAGGACG TATTCGGAGCCGTCTACGGGGAGATTCCTGCACCCCTCCGAAGTGGATCTTTCCAGCCCCGACAAGCCACTGATC AAGGGCACCCAAATCACGCCCAATGTGTCCTTTGAGAAGATGTCCAAGAGCAAGCACAACGGAGTCGATCCGACC GGATGTGCGTTGAGATACGGTGCCGATACTACTCGGGCCCATGTCCTTTTCTCAGCTCCGGTCAGCGAGGTGCTG GAATGGGACGAAACGAAGATCGTGGGCATTGAGCGCTGGTTTGGTCGACTCTGGAAGTTGGTGAACGATGCGCAG CAGAGCCTGGCTTCGTTCTCGTTTACACTGCAGCCAGCCGACTTGAAAGCCACCTCCGGCCACGCGACTGGCTTG CCCAGCTCTCTACAGGATCTGAGCGACAGTGATGCGGACGCTGTGCTTGCCACCCACCGCACCATTTCCTCTGTC ACGAGCTGTATTGAGAAAAATCCATACGGGCTGAATACTGTCATCTCCGACCTGACCAAGCTGACCAACTCGTTG TCGTCGTCGACGCCCAGTTCACCGCAGGTCCTCTACCTATCTATTTCTTCCCTGCTCCGGCTGCTTTCGCCGATC GCGCCCGCGCTGGCGTCCGAATGTTGGGAGATCCTCAATGGTCCCGTGACTGCGGGGAAGCCATCCACCAATGTC CCCGCCATCTTTGACTGTCCCTGGCCAACTCCTCTGCTGAAGCCCGAGGAGGCCGATATTCTGTCTGCGCGCGGT GGCCAAGTGGTCGCCGTCCAGATCAATGGCAAATTGCGATTTACGATCACGATCCCCCGGCGGCTCTCCCCCACG ACCGCGCCCGAAGCTAGCGGCACGGTCACGGAGGAACAAGACTGGATTATCAATCGGATCTTGGAGACGGACGAA GGACAATTCTGGCTGCGGAAGAAGAACGACTGGGACAAGCGGAGACGGGTGATTGTCGTCAAGGGGGGCAAGTTG GTGAATGTGGTGTTTTAG

Fungal Genomics

General Properties

PFAM Domains

GO

SignalP

Transmembrane Domains

Transcription Factor Class

Expression data

Sequences