Protein ID | Hirsu2|2511 |
Gene name | |
Location | Contig_160:5124..7044 |
Strand | - |
Gene length (bp) | 1920 |
Transcript length (bp) | 1803 |
Coding sequence length (bp) | 1803 |
Protein length (aa) | 601 |
PFAM Domain ID | Short name | Long name | E-value | Start | End |
---|---|---|---|---|---|
PF01593 | Amino_oxidase | Flavin containing amine oxidoreductase | 6.1E-40 | 79 | 564 |
PF13450 | NAD_binding_8 | NAD(P)-binding Rossmann-like domain | 3.0E-09 | 73 | 114 |
Swissprot ID | Swissprot Description | Start | End | E-value |
---|---|---|---|---|
sp|Q54EW2|Y9130_DICDI | Putative bifunctional amine oxidase DDB_G0291301 OS=Dictyostelium discoideum GN=DDB_G0291301 PE=1 SV=1 | 18 | 589 | 1.0E-108 |
sp|P86810|OXLA_SIGCA | L-amino-acid oxidase OS=Siganus canaliculatus PE=1 SV=2 | 71 | 578 | 2.0E-41 |
sp|P81383|OXLA_OPHHA | L-amino-acid oxidase OS=Ophiophagus hannah PE=1 SV=3 | 53 | 563 | 1.0E-34 |
sp|O34363|YOBN_BACSU | Putative L-amino-acid oxidase YobN OS=Bacillus subtilis (strain 168) GN=yobN PE=3 SV=3 | 73 | 565 | 2.0E-32 |
sp|Q8KHS0|REBO_NOCAE | Flavin-dependent L-tryptophan oxidase RebO OS=Lechevalieria aerocolonigenes GN=rebO PE=1 SV=1 | 70 | 562 | 2.0E-30 |
Swissprot ID | Swissprot Description | Start | End | E-value |
---|---|---|---|---|
sp|Q54EW2|Y9130_DICDI | Putative bifunctional amine oxidase DDB_G0291301 OS=Dictyostelium discoideum GN=DDB_G0291301 PE=1 SV=1 | 18 | 589 | 1.0E-108 |
sp|P86810|OXLA_SIGCA | L-amino-acid oxidase OS=Siganus canaliculatus PE=1 SV=2 | 71 | 578 | 2.0E-41 |
sp|P81383|OXLA_OPHHA | L-amino-acid oxidase OS=Ophiophagus hannah PE=1 SV=3 | 53 | 563 | 1.0E-34 |
sp|O34363|YOBN_BACSU | Putative L-amino-acid oxidase YobN OS=Bacillus subtilis (strain 168) GN=yobN PE=3 SV=3 | 73 | 565 | 2.0E-32 |
sp|Q8KHS0|REBO_NOCAE | Flavin-dependent L-tryptophan oxidase RebO OS=Lechevalieria aerocolonigenes GN=rebO PE=1 SV=1 | 70 | 562 | 2.0E-30 |
sp|Q6TGQ8|OXLA_BOTMO | L-amino-acid oxidase (Fragment) OS=Bothrops moojeni PE=1 SV=1 | 54 | 551 | 3.0E-28 |
sp|Q6TGQ9|OXLA_BOTJR | L-amino-acid oxidase (Fragment) OS=Bothrops jararacussu PE=1 SV=1 | 54 | 557 | 2.0E-27 |
sp|P0DI84|OXLA_VIPAA | L-amino-acid oxidase OS=Vipera ammodytes ammodytes PE=1 SV=1 | 71 | 557 | 2.0E-27 |
sp|X2L4E2|OXLA_BOTPC | L-amino acid oxidase (Fragment) OS=Bothrops pictus PE=2 SV=1 | 54 | 564 | 4.0E-27 |
sp|G8XQX1|OXLA_DABRR | L-amino-acid oxidase OS=Daboia russelii PE=1 SV=1 | 54 | 557 | 4.0E-27 |
sp|P81382|OXLA_CALRH | L-amino-acid oxidase OS=Calloselasma rhodostoma PE=1 SV=2 | 71 | 560 | 9.0E-27 |
sp|B5U6Y8|OXLA_ECHOC | L-amino-acid oxidase OS=Echis ocellatus PE=1 SV=1 | 54 | 557 | 1.0E-26 |
sp|X2JCV5|OXLA_CERCE | L-amino acid oxidase OS=Cerastes cerastes PE=1 SV=1 | 70 | 557 | 4.0E-26 |
sp|A0A024BTN9|OXLA_BOTSC | L-amino acid oxidase Bs29 (Fragment) OS=Bothriechis schlegelii PE=1 SV=1 | 71 | 557 | 5.0E-26 |
sp|B5AR80|OXLA_BOTPA | L-amino-acid oxidase (Fragment) OS=Bothrops pauloensis PE=1 SV=1 | 71 | 557 | 6.0E-26 |
sp|A6MFL0|OXLA_DEMVE | L-amino-acid oxidase OS=Demansia vestigiata PE=2 SV=1 | 54 | 560 | 1.0E-25 |
sp|Q6STF1|OXLA_GLOHA | L-amino-acid oxidase OS=Gloydius halys PE=1 SV=1 | 36 | 560 | 2.0E-25 |
sp|Q90W54|OXLA_GLOBL | L-amino-acid oxidase OS=Gloydius blomhoffii PE=1 SV=1 | 71 | 560 | 2.0E-25 |
sp|P56742|OXLA_CROAT | L-amino-acid oxidase OS=Crotalus atrox PE=1 SV=2 | 70 | 557 | 6.0E-25 |
sp|F8S0Z5|OXLA2_CROAD | L-amino-acid oxidase OS=Crotalus adamanteus PE=1 SV=1 | 70 | 557 | 6.0E-25 |
sp|J7H670|OXLA_LACMT | L-amino acid oxidase Lm29 OS=Lachesis muta PE=1 SV=1 | 71 | 557 | 2.0E-24 |
sp|K9N7B7|OXLA_CRODM | L-amino acid oxidase Cdc18 (Fragment) OS=Crotalus durissus cumanensis PE=1 SV=1 | 71 | 557 | 3.0E-24 |
sp|O93364|OXLA_CROAD | L-amino-acid oxidase OS=Crotalus adamanteus PE=1 SV=1 | 70 | 557 | 3.0E-24 |
sp|B0VXW0|OXLA_SISCA | L-amino-acid oxidase OS=Sistrurus catenatus edwardsii PE=2 SV=1 | 70 | 557 | 5.0E-24 |
sp|Q4JHE1|OXLA_PSEAU | L-amino-acid oxidase OS=Pseudechis australis PE=1 SV=1 | 70 | 557 | 1.0E-23 |
sp|Q6WP39|OXLA_TRIST | L-amino-acid oxidase OS=Trimeresurus stejnegeri PE=1 SV=1 | 71 | 557 | 2.0E-22 |
sp|Q4JHE2|OXLA_NOTSC | L-amino-acid oxidase OS=Notechis scutatus scutatus PE=2 SV=1 | 71 | 557 | 4.0E-22 |
sp|Q4JHE3|OXLA_OXYSC | L-amino-acid oxidase OS=Oxyuranus scutellatus scutellatus PE=2 SV=1 | 71 | 557 | 1.0E-21 |
sp|A8QL51|OXLA_BUNMU | L-amino-acid oxidase OS=Bungarus multicinctus PE=2 SV=1 | 71 | 557 | 4.0E-21 |
sp|P23623|OXLA_NEUCR | L-amino-acid oxidase OS=Neurospora crassa (strain ATCC 24698 / 74-OR23-1A / CBS 708.71 / DSM 1257 / FGSC 987) GN=lox PE=1 SV=2 | 65 | 582 | 6.0E-21 |
sp|A8QL52|OXLA_BUNFA | L-amino-acid oxidase OS=Bungarus fasciatus PE=1 SV=1 | 54 | 557 | 5.0E-20 |
sp|Q4F867|OXLA_DABSI | L-amino-acid oxidase (Fragments) OS=Daboia siamensis PE=1 SV=2 | 246 | 557 | 1.0E-18 |
sp|Q96RQ9|OXLA_HUMAN | L-amino-acid oxidase OS=Homo sapiens GN=IL4I1 PE=1 SV=1 | 387 | 564 | 5.0E-12 |
sp|O09046|OXLA_MOUSE | L-amino-acid oxidase OS=Mus musculus GN=Il4i1 PE=1 SV=1 | 86 | 563 | 1.0E-11 |
GO Term | Description | Terminal node |
---|---|---|
GO:0016491 | oxidoreductase activity | Yes |
GO:0003674 | molecular_function | No |
GO:0003824 | catalytic activity | No |
Localizations | Signals | Cytoplasm | Nucleus | Extracellular | Cell membrane | Mitochondrion | Plastid | Endoplasmic reticulum | Lysosome vacuole | Golgi apparatus | Peroxisome |
---|---|---|---|---|---|---|---|---|---|---|---|
Extracellular | Signal peptide | 0.1563 | 0.0529 | 0.8611 | 0.0653 | 0.0864 | 0.0406 | 0.2064 | 0.3039 | 0.1947 | 0.0134 |
SignalP signal predicted | Location | Score |
---|---|---|
Yes | 1 - 29 | 0.999523 |
Orthofinder run ID | 4 |
Orthogroup | 7523 |
Change Orthofinder run |
Species | Protein ID |
---|---|
Ophiocordyceps australis map64 (Brazil) | OphauB2|3691 |
Ophiocordyceps subramaniannii | Hirsu2|2511 (this protein) |
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|2511 MKTSKHLVASALSTLALISSALSGSPHIRSINPKTSAGNTRDLFLKHILEHSPDYGNFHNLSSSKGEGLKVGIIG AGAAGLYTALLLESLGVDYEILEASERVGGRIYTHRFDEAAWRASKPGEPEYYDYYDVGAMRFPGMKWMDRIIGP SNNSLVSHINSRLPEGEERIKLIPYIFEANNTFRLFNDELAYNQVTPSADTFHVQLAGGSAANDSFDATSASSVF SNTVEDLVRGLDADFQTGFDMLMKFDGISVRQYLLSKGFSPQQIDWMETVTDSTTHFDTYALSQGVLEQWIFFEA PLDSWVCVEGGMDRITDGMVKIISKPVETRKRVTAIRPAHGGDGALTVVINDQEERTYDHVINTVPLGAMQVMDM KSLDLDYRKKLAIRKLQYDPAGKIGMKFKSRWWENLDSGFFQGGQSFSDLPIRRSVYPSYGLDVPDAPGTMIASY TWGQDSSRLGAYYGQPESRERIVDITLHNLAQTHNVTYDFLRSQYIDSHLWDWYDGQDAVGGFAIFGPDEYSSVM PALMMPAANGRLHFAGEALSSGHAWIIGAVNSAYRTVVEALAVEKMDEKLNQLVDTWGVIDEVDMGWFSHAFNKA * |
Coding | >Hirsu2|2511 ATGAAGACGTCGAAACACCTCGTGGCCAGTGCGCTGAGCACGTTGGCTCTTATATCCTCTGCCCTCTCAGGATCT CCCCATATTCGCAGCATCAACCCCAAAACGAGCGCTGGAAACACACGGGACCTCTTTCTAAAACATATTCTGGAG CATTCCCCGGATTATGGAAATTTTCACAATCTCTCGTCCAGCAAGGGCGAGGGCCTCAAGGTGGGCATCATCGGT GCCGGAGCCGCAGGGCTTTATACAGCTCTTCTGCTGGAATCTCTCGGCGTCGATTATGAGATTTTGGAGGCGAGT GAGCGGGTCGGAGGAAGGATATATACACACCGGTTCGATGAGGCCGCGTGGCGTGCTTCCAAGCCCGGGGAGCCT GAGTACTACGACTACTATGACGTCGGAGCTATGAGATTCCCCGGCATGAAGTGGATGGACCGCATCATAGGCCCG TCGAACAACTCGCTTGTCTCCCACATCAACTCCAGACTCCCGGAGGGTGAGGAGCGGATCAAACTGATCCCGTAC ATCTTCGAGGCCAACAACACCTTCCGCCTGTTCAACGATGAGCTGGCGTACAACCAAGTGACCCCCTCCGCGGAT ACCTTCCACGTGCAGCTCGCAGGAGGAAGCGCGGCCAATGACAGCTTCGACGCCACGTCGGCCAGCAGTGTGTTC AGCAACACGGTCGAAGACCTTGTGCGAGGGCTGGACGCGGACTTCCAGACCGGATTCGACATGCTCATGAAATTC GACGGCATTTCCGTGCGGCAGTACCTGCTCTCCAAGGGCTTCTCTCCCCAGCAGATCGACTGGATGGAGACGGTG ACCGACTCTACTACGCATTTCGACACCTATGCCCTGTCACAGGGGGTGCTGGAACAATGGATCTTTTTCGAGGCC CCTCTCGATAGCTGGGTCTGCGTCGAGGGGGGCATGGACCGTATCACGGACGGCATGGTGAAAATCATCAGCAAA CCGGTGGAGACGAGAAAAAGAGTCACCGCAATCAGGCCGGCACATGGCGGCGACGGTGCACTGACGGTGGTGATC AACGACCAGGAGGAGAGGACTTACGATCATGTGATTAACACGGTGCCCCTGGGCGCCATGCAGGTCATGGATATG AAAAGCCTGGATCTCGACTATCGCAAGAAGCTCGCGATCAGAAAGCTCCAGTACGACCCTGCCGGCAAGATTGGC ATGAAGTTCAAGAGTCGATGGTGGGAGAATCTCGACTCCGGCTTCTTCCAGGGCGGGCAGTCCTTCTCCGACCTG CCCATCCGGCGCAGCGTCTACCCCTCGTACGGCCTCGATGTCCCGGATGCACCCGGGACGATGATCGCCTCGTAT ACCTGGGGCCAGGACAGCAGTCGCCTGGGCGCGTACTACGGCCAGCCAGAGTCCCGCGAGAGGATCGTCGACATC ACGCTCCACAACCTGGCACAGACGCACAACGTGACGTACGACTTCCTCCGGTCGCAATACATCGACTCGCACCTC TGGGACTGGTACGACGGCCAAGACGCGGTGGGCGGCTTCGCCATATTCGGGCCCGATGAGTACAGCAGCGTCATG CCGGCCTTGATGATGCCGGCCGCGAACGGGCGGCTGCACTTCGCCGGCGAGGCCTTGAGCTCGGGACACGCTTGG ATCATCGGCGCGGTCAATTCGGCGTACAGGACGGTTGTCGAGGCGCTGGCGGTCGAGAAGATGGACGAGAAGCTG AACCAGCTGGTCGACACCTGGGGTGTGATCGACGAGGTTGACATGGGGTGGTTTTCGCACGCCTTCAACAAGGCT TGA |
Transcript | >Hirsu2|2511 ATGAAGACGTCGAAACACCTCGTGGCCAGTGCGCTGAGCACGTTGGCTCTTATATCCTCTGCCCTCTCAGGATCT CCCCATATTCGCAGCATCAACCCCAAAACGAGCGCTGGAAACACACGGGACCTCTTTCTAAAACATATTCTGGAG CATTCCCCGGATTATGGAAATTTTCACAATCTCTCGTCCAGCAAGGGCGAGGGCCTCAAGGTGGGCATCATCGGT GCCGGAGCCGCAGGGCTTTATACAGCTCTTCTGCTGGAATCTCTCGGCGTCGATTATGAGATTTTGGAGGCGAGT GAGCGGGTCGGAGGAAGGATATATACACACCGGTTCGATGAGGCCGCGTGGCGTGCTTCCAAGCCCGGGGAGCCT GAGTACTACGACTACTATGACGTCGGAGCTATGAGATTCCCCGGCATGAAGTGGATGGACCGCATCATAGGCCCG TCGAACAACTCGCTTGTCTCCCACATCAACTCCAGACTCCCGGAGGGTGAGGAGCGGATCAAACTGATCCCGTAC ATCTTCGAGGCCAACAACACCTTCCGCCTGTTCAACGATGAGCTGGCGTACAACCAAGTGACCCCCTCCGCGGAT ACCTTCCACGTGCAGCTCGCAGGAGGAAGCGCGGCCAATGACAGCTTCGACGCCACGTCGGCCAGCAGTGTGTTC AGCAACACGGTCGAAGACCTTGTGCGAGGGCTGGACGCGGACTTCCAGACCGGATTCGACATGCTCATGAAATTC GACGGCATTTCCGTGCGGCAGTACCTGCTCTCCAAGGGCTTCTCTCCCCAGCAGATCGACTGGATGGAGACGGTG ACCGACTCTACTACGCATTTCGACACCTATGCCCTGTCACAGGGGGTGCTGGAACAATGGATCTTTTTCGAGGCC CCTCTCGATAGCTGGGTCTGCGTCGAGGGGGGCATGGACCGTATCACGGACGGCATGGTGAAAATCATCAGCAAA CCGGTGGAGACGAGAAAAAGAGTCACCGCAATCAGGCCGGCACATGGCGGCGACGGTGCACTGACGGTGGTGATC AACGACCAGGAGGAGAGGACTTACGATCATGTGATTAACACGGTGCCCCTGGGCGCCATGCAGGTCATGGATATG AAAAGCCTGGATCTCGACTATCGCAAGAAGCTCGCGATCAGAAAGCTCCAGTACGACCCTGCCGGCAAGATTGGC ATGAAGTTCAAGAGTCGATGGTGGGAGAATCTCGACTCCGGCTTCTTCCAGGGCGGGCAGTCCTTCTCCGACCTG CCCATCCGGCGCAGCGTCTACCCCTCGTACGGCCTCGATGTCCCGGATGCACCCGGGACGATGATCGCCTCGTAT ACCTGGGGCCAGGACAGCAGTCGCCTGGGCGCGTACTACGGCCAGCCAGAGTCCCGCGAGAGGATCGTCGACATC ACGCTCCACAACCTGGCACAGACGCACAACGTGACGTACGACTTCCTCCGGTCGCAATACATCGACTCGCACCTC TGGGACTGGTACGACGGCCAAGACGCGGTGGGCGGCTTCGCCATATTCGGGCCCGATGAGTACAGCAGCGTCATG CCGGCCTTGATGATGCCGGCCGCGAACGGGCGGCTGCACTTCGCCGGCGAGGCCTTGAGCTCGGGACACGCTTGG ATCATCGGCGCGGTCAATTCGGCGTACAGGACGGTTGTCGAGGCGCTGGCGGTCGAGAAGATGGACGAGAAGCTG AACCAGCTGGTCGACACCTGGGGTGTGATCGACGAGGTTGACATGGGGTGGTTTTCGCACGCCTTCAACAAGGCT TGA |
Gene | >Hirsu2|2511 ATGAAGACGTCGAAACACCTCGTGGCCAGTGCGCTGAGCACGTTGGCTCTTATATCCTCTGCCCTCTCAGGATCT CCCCATATTCGCAGCATCAACCCCAAAACGAGCGCTGGAAACACACGGGACCTCTTTCTAAAACATATTCTGGAG CATTCCCCGGATTATGGAAATTTTCACAATCTCTCGTCCAGCAAGGGCGAGGGCCTCAAGGTGGGCATCATCGGT GCCGGAGCCGCAGGGCTTTATACAGCTCTTCTGCTGGAATCTCTCGGCGTCGATTATGAGATTTTGGAGGCGAGT GAGCGGGTCGGAGGAAGGATATATACACACCGGTTCGATGAGGCCGCGTGGCGTGCTTCCAAGCCCGGGGAGCCT GAGTACTACGACTACTATGTAAGTCGCCAGGACCGATGCCTGCCATGACCGAGATTGCTCACTTGTGGGGTAGGA CGTCGGAGCTATGAGATTCCCCGGCATGAAGTGGATGGACCGCATCATAGGCCCGTCGAACAACTCGCTTGTCTC CCACATCAACTCCAGACTCCCGGAGGGTGAGGAGCGGATCAAACTGATCCCGTACATCTTCGAGGCCAACAACAC CTTCCGCCTGTTCAACGATGAGCTGGCGTACAACCAAGTGACCCCCTCCGCGGATACCTTCCACGTGCAGCTCGC AGGAGGAAGCGCGGCCAATGACAGCTTCGACGCCACGTCGGCCAGCAGTGTGTTCAGCAACACGGTCGAAGACCT TGTGCGAGGGCTGGACGCGGACTTCCAGACCGGATTCGACATGCTCATGAAATTCGACGGCATTTCCGTGCGGCA GTACCTGCTCTCCAAGGGCTTCTCTCCCCAGCAGATCGACTGGATGGAGACGGTGACCGACTCTACTACGCATTT CGACACCTATGCCCTGTCACAGGGGGTGCTGGAACAATGGATCTTTTTCGAGGCCCCTCTCGATAGCTGGGTCTG CGTCGAGGGGGGCATGGACCGTATCACGGACGGCATGGTGAAAATCATCAGCAAACCGGTGGAGACGAGAAAAAG AGTCACCGCAATCAGGCCGGCACATGGCGGCGACGGTGCACTGACGGTGGTGATCAACGACCAGGAGGAGAGGAC TTACGATCATGTGATTAACACGGTGCCCCTGGGCGCCATGCAGGTCATGGATATGAAAAGCCTGGATCTCGACTA TCGCAAGAAGCTCGCGATCAGAAAGCTCCAGTACGACCCTGCCGGCAAGATTGGCATGAAGTTCAAGAGTCGATG GTTCGTATCCGATCCACCCATCGCCGCTCTGCTACGGACTTTGCTCACTCTCGTTGTCACAGGTGGGAGAATCTC GACTCCGGCTTCTTCCAGGGCGGGCAGTCCTTCTCCGACCTGCCCATCCGGCGCAGCGTCTACCCCTCGTACGGC CTCGATGTCCCGGATGCACCCGGGACGATGATCGCCTCGTATACCTGGGGCCAGGACAGCAGTCGCCTGGGCGCG TACTACGGCCAGCCAGAGTCCCGCGAGAGGATCGTCGACATCACGCTCCACAACCTGGCACAGACGCACAACGTG ACGTACGACTTCCTCCGGTCGCAATACATCGACTCGCACCTCTGGGACTGGTACGACGGCCAAGACGCGGTGGGC GGCTTCGCCATATTCGGGCCCGATGAGTACAGCAGCGTCATGCCGGCCTTGATGATGCCGGCCGCGAACGGGCGG CTGCACTTCGCCGGCGAGGCCTTGAGCTCGGGACACGCTTGGATCATCGGCGCGGTCAATTCGGCGTACAGGACG GTTGTCGAGGCGCTGGCGGTCGAGAAGATGGACGAGAAGCTGAACCAGCTGGTCGACACCTGGGGTGTGATCGAC GAGGTTGACATGGGGTGGTTTTCGCACGCCTTCAACAAGGCTTGA |