CAGL0E05038g


similar to uniprot|P53115 Saccharomyces cerevisiae YGL150c INO80 ATPase that forms a large complex, containing actin and several actin-related proteins, that has chromatin remodeling activity and 3' to 5' DNA helicase activity in vitro

Genomic environment map

Element type: CDS
Element length: 4455 nucleotides,
on sense strand of
Cagl0E: 488786..493240.
Other names:
CAGL-CDS0110.1
CAGL-IPF5008
Coding sequence: 1485 codons.
Database cross references:
EMBL: CR380951
GeneID: 2887378
HOGENOM: Q6FV37

Computed results  

None available yet

Homologs and Orthologs

Homologs in protein families: GL3C0282 GL3C0282.N4
Orthologs: strict determination not possible; homologs must be refined manually

Protein CAGL0E05038p  


similar to uniprot|P53115 Saccharomyces cerevisiae YGL150c INO80

Protein domain map

Protein length: 1484 amino acids
Protein family: GL3C0282
Database cross references:
InterPro: IPR000330
InterPro: IPR001650
InterPro: IPR014001
InterPro: IPR014021
KEGG: cgr:CAGL0E05038g
PROSITE: PS51192
PROSITE: PS51194
Pfam: PF00176
Pfam: PF00271
RefSeq: XP_445907.1
SMART: SM00487
SMART: SM00490
UniProtKB/Swiss-Prot: Q6FV37
UniprotKB: INO80_CANGA

Computed results for CAGL0E05038p  

Blastp Genolevures
Blastp Uniprot

Gene Ontology terms  

None available yet

Sequence data  


Nucleotide sequence    

>CAGL0E05038g.nt
ATCTACATCTACTTCCAACTTAAAATTTCTTTTCCTTACAAAGACAAACTGTTGTACTTA
ATTTGATCTTTTAAAACAATTTTTCTACAAGTGTTGGTTTGTGCGATATTGCTCTTGTTG
TCAGATATTTTTATTAATATTTTCCCTCTTTCCTGAATTGTCTAAGTGGTCTTTTCAAGA
GCTTTCATTATTGCTTCAAAAAGCCTAAGAATTTCTTACTTCCTTTAAATAAAAAGTGGA
TCGGGATGGTTTCAAATGGGATTTAGCTTCTTTATTCACAAAGGAGAAATTTTCTTTTTG
CGTTCTTCTTTCAAATGGATTCTGGATAAATCCTCTTTCCATAACATTTTTTTTTTCCCT
TTCTCTTCATATTATTATTAGTTCCCTCTTGTAGGGATTTTATTGGGTAGCAGTTATGTG
GAAACCTAGCTTATTTTACACCGAAGCTTTTGTTATCTTGCTAGAAGTGATTTTCTTCTA
AGTTAAACGTTTTGGGACCCTCTCTTTTTACCAATGAAAGCAACTCACCCAAACGTGGAA
TGGAGTGATCACTGACACAGCAAATTTCGCCTCCTTCCTTCTTCATCCTTCCTCTTATAT
ATACTTTCTCTTAGTAAATATTTGTAACACTAAAACCACAAAACTACCAAGATCTAAATA
GCAATACAAGATCAAAAGTCTGTATAGTGAACCAGAGCACTATAAATAAGCTGGCAAGAC
TGGATTGGAGACTTGGACTACAGAGGGAGAAAGAGAGAAATCATAGACACCAACAGCTCA
ATCTTGAAAGCTCATTTTTTATAATCTCTAGTGAGGGTGTCAGTGTCAGGTAAGGTAGAA
ATCTCTACAAATATAAAAATAGAAGAAACTAAAACAGCAAGATACTAGAAATTCGATACA
GATTATCACATAGGTATTTGGTCCTTAATTTATTATTTGATTTAAAGGTATCAACGAAGA
GGGACTGGCTCATAAGACAAAGTAACTATTTTATATCGTAATGTCCCTAAGCGCATTGCT
TAATAACGATGATCCGGTGGAAGACACCAAACTCTACTTGGAATCCCTCAATAGAGAAAT
GGACAGACTCATAAAGAGGGATCAATTGGAACTGATGTATCAGGATTGGAAGTTTGCTAA
CTACCAAGAATTCGAGTTGATCAGTGAATGGAATACCCAGTGTAAAGAGCTTGTCGGTGA
CGGTAACGATCTCCAAAATAACGATTTAATGACCGAAGAAGTGCATTTAGATGATTTATA
CGACAACATTCAACGTATACGTAACGAATGGAAAGACTACGAATCCTATAAGGAAACCAG
ATCACAGCTTCTGAGCAAGAGCATACAGGCAAAGCCCATCAAACATAGAAGAAGAAGAAG
AACTAAGCTTGAAATGGAAGCGGCGGCAAATCTTGCCGCTCTTAGCCAAATGGGCACAAC
TGATGTCAAAACTCCTGAAATTATCAATGATCATGGAAACCGCTCTAAAGCATCAAGAAG
CGACACCACTAACAAGACTGACAACACAATGGCAGGCATTAACTCTCCTACTTCAGATGT
AGATTCAGGACATAAGGATGAGCTTGATCAGACAAAATTAATAAAGAAACAAGAAGCTAG
CTCTTCTACCAATTCTGCTGCAAGTGTTACCGCCTCAGTCGCAAACGGTATAGTTGAAGA
TCAAAAAGATGAAGCGGAGAGAACTATAGAAGCCAATAGGATCGGGAGCAATATGCAAAA
CTCTGATCAAGATACAATGGATGATTTGAAAAAGACAAATGACCCTTCAAGCGACATAGA
TTCCGATGCAAATACTAGCGTCAATGATGGTAGCGATGAAAATTTGAGTAATAAACTAGA
CAGTGATGATTTACATTCAGAACCTGCTGATAACGAGGAAGAACCGGTTAGCTCTGACGC
AGAGAAAGATCAGGCGGAAAACATAAATCAAACTGATGAATCTGAAGAGGAAATAATAGT
TAAAGAGTATGATGACAATAATGACGAGGATTTCGCACCTGAAATTAAGAAGCCAAAGCC
TAACGGTAAAATAGTGACCATCAATAGCGATAGACCTAAGATTGTCAGAGAATTAATTAA
GCTGCGCAACAAAGGTAAAGCACCAAAGTCTAGTAAAAGGCGTTATACAGCCGTGAATAT
AACGGAATATAGTCCAACTGAAAAAAAGATCTCAGTGAAGATTACACTGAAACAAATGCA
TGTCAAGAAATTGAAAAAGATCTTACAGGATGCTAGGAAAGCCGAAGAGAAAAGGCTTCA
AGAAGAAGCTAAACAGATTGCTGATCAGGAGTCTCCCAGGAAAAGAAGGAAAATTGATCG
ATCTGAGAACACTAAACAAGAAGATGAAGACGATAAAGAAGACGATGATCTTGATGGTTT
GCCTACCTATGGTATGAAAATGAGTTTGAAGGATGCCAAAGCTATTCAACGACATTACGA
TAATACATATACCATGATATGGAAGGATATGGCTAGAAAAGATTGCATGAAGATTTCGAG
ACTTGTTCAACAGATTCAATCAACCAGAGCATTAAACTATAAAAAAACTTCTTCTCTGTG
CGCTAGAGAAGCCCGTAAATGGCAGACTAGAAATTTCAAGCAAGTTAAAGACTTCCAAAC
TCGTGCTAGAAAGGGTATCAGAGAGATGGCAAATTTCTGGAAAAAGAATGAAAGAGAGGA
GAGAGATTTGAAGAAAAAGGCAGAAAGAGAAGCACTAGAATTGGCCAAGAAGGAAGAAGA
AGAAAAGGAATCAAAGAGACAGGCTAAAAAGTTAAACTTCTTATTAACACAGACAGAATT
ATACTCTCACTTTATTGGGAGAAAAATAAAAACAAGTGCATTAGAAGGTAATGAAGTTGC
AGAAGAGGATGAAGACAATTATGACTTGACAACTACTGCACCAAATAAGAATGACTTCCA
TGCCATCGATTTTGATAATGAAAATGATGAGCAACTAAAGTTAAAAGCAGCACAAAATGC
ATCGAATGCGTTAGCAGAAACGAGAGCTAAAGCGAAGGCTTTTGATGATGCACATAGACA
GCAGCAATCAACCGAAAGTGATGATGAAGAAGAAATGAACTTCCAAAACCCAACTTCACT
TGGTGAAATTACTATAGAGCAACCAAAAATGCTAGCATGCACACTAAAAGAATATCAATT
GAAGGGATTAAATTGGCTTGCTAATTTATATGATCAAGGTATCAATGGTATTCTAGCTGA
CGAGATGGGTTTAGGTAAGACTGTACAATCAATCTCAGTTTTAGCTCACTTAGCGGAGCA
TCACAACATCTGGGGACCTTTCTTGGTTGTAACACCTGCATCAACGTTACACAACTGGGT
AAATGAAATATCAAAGTTTGTACCCCAATTTAAAATCCTTCCATATTGGGGATCTGCAAA
TGATAGAAAGGTATTAAGAAAATTTTGGGATAGGAAAAACTTAAGATATAGTGAAAAATC
TCCATTTCATGTTATGATTACTTCTTATCAGATGGTTGTAGCGGATGCCTCGTATCTTCA
AAAAATGAAGTGGCAGTACATGATATTGGATGAAGCCCAAGCCATTAAGTCTTCTCAATC
ATCGAGATGGAAAAATTTATTGAGCTTTCACTGTAGAAATAGACTATTACTAACTGGTAC
ACCTATTCAAAACAACATGCAAGAGTTATGGGCATTACTGCATTTTATTATGCCGTCACT
GTTTGACTCCCATGATGAATTTAATGAGTGGTTTTCTAGAGATATAGAGTCACACGCAGA
AGGAAACAGCTCTTTGAATCAACAACAGCTAAGAAGACTTCATATGATATTGAAACCATT
TATGCTAAGACGTATTAAGAAAAATGTCCAGTCTGAGTTGGGAGACAAGATTGAAATTGA
TGTGATGTGCGATTTAACACAAAGACAAACGAAATTATATCAAGTTCTAAAATCTCAGAT
GTCCTCTAACTACGACGCAATAGAAAATGCTGCTGCAGAAGGTTCAGATATTGCAGGAGG
AGGTAACTCTGATCAAAGCATTATCAATGCAGTAATGCAATTCAGGAAGGTCTGTAACCA
CCCAGATTTATTTGAGAGAGCAGACATAAACTCCCCATTTTCATTCACATCTTTTGGTAA
AACATCGTCATTGATCTCATCAAGCATAGCAACTTCAGGAGGTCTTACAGAGACCATTTC
CGAGTTGATGTATTCTAGTACAAACCCTATCAATTGCGCAATTCCGAAATTAATATATGA
AGATCTAATCCTTCCTAACTATAACAATTCGATAGACATAATGGAGAAATTATTACTTTC
CGACTTTTCAATATATGATCCTGTCAATAATAAGGAAATGTGTCAATATCTGGGTTTGTT
AACAGGCCTTGCATATGGCTCTTTCAGGAAGATTCACAAAAGTAATTACTTTGAGAGGAT
TATTAACTTGAAAAAAGAGAGTAAACAAAGTAGTCAAAATTTGATTACTGTAGTCTCTAA
TGCCAATGATCTCATTGCAGACTCTATTGTGCATGCTGATACCAATCTGCCTAATCTGAC
TGGGATTCGGAATGATATTTATCACAACGATTACCTAAACAGCATACAACCAGGGTATTG
TCCAAAAGTAGTTGCTCCTCCCATAAATTTTAATGTAAATGGTTCCCTAAACTTTACTAA
TAAAATGTCATCATATTTATTCAATCCTGTTATCACAACAGCATTGTCATCAATCCCACC
ACCTACACAGTACAATATGTTTGTTAAAAAGTGCATTCCTATAGAAGAATTCCCAATCAG
TGAAATGTACCCCAATCCATTGAATAAACATTTTTCTTCAAATATATCGATGCCTTCAAT
GGATAGGTTTATTACAGAGTCTGCTAAATTGAAAAAGTTGGATGAATTATTGGTGGAGCT
GAAGAAGAACGATCACAGAGTATTGATTTACTTCCAAATGACTAAAATGATGGACTTGAT
GGAGGAATATCTAACATATCGTCAATACAATCATATAAGGTTGGATGGTTCTTCCAAATT
AGAAGATCGTCGTGATCTGGTTCATGATTGGCAGACAAATCCAGAAATTTTCATTTTCCT
ATTAAGTACAAGAGCAGGTGGTTTAGGTATAAACTTGACAGCAGCCGACACTGTAATTTT
TTATGATTCGGATTGGAACCCTACAATAGATTCTCAAGCAATGGACAGAGCCCATAGATT
GGGACAAACCAAACAAGTTACTGTTTATAGATTACTCGTTAGAGGAACAATTGAGGAGAG
GATGCGTGATAGGGCAAAACAAAAAGAGCAAGTCCAACAGGTAGTCATGGAAGGTAAGAC
AAAGGATACAAATATACAAACAACTCATACGAGACCAGAACATGAACAGTTGACACCAAA
GTCCCTCTCTTCTGAACCAGAAGCGACAAATAACCTGATAACAGTCAAGAACTAATACAT
ACGCACCTACCCACATACATATATACTATTATAGTAGTTCGATGAGACCGCTTACTATAA
ATAAAGATATGCATATATATGTATTAATTGCATCAATAACTTATCATTACTTAAAAGTTA
CATTTTAAAAAATACAGGTTTTTAACATTTTTAAGTATCTGCTGTGGTATTCGCAGATTT
TCTTATAATCTTCATATGACATAGAATCGCTTTCCAAAGTTCCGTAGGATAGTTTAATTT
CATGTATTATGAATCCAAATGTGTGTCTATTCTTTCCAAGAGCGCAGTTTCTGTC

Coding sequence    

>CAGL0E05038g.cds
ATGTCCCTAAGCGCATTGCTTAATAACGATGATCCGGTGGAAGACACCAAACTCTACTTG
GAATCCCTCAATAGAGAAATGGACAGACTCATAAAGAGGGATCAATTGGAACTGATGTAT
CAGGATTGGAAGTTTGCTAACTACCAAGAATTCGAGTTGATCAGTGAATGGAATACCCAG
TGTAAAGAGCTTGTCGGTGACGGTAACGATCTCCAAAATAACGATTTAATGACCGAAGAA
GTGCATTTAGATGATTTATACGACAACATTCAACGTATACGTAACGAATGGAAAGACTAC
GAATCCTATAAGGAAACCAGATCACAGCTTCTGAGCAAGAGCATACAGGCAAAGCCCATC
AAACATAGAAGAAGAAGAAGAACTAAGCTTGAAATGGAAGCGGCGGCAAATCTTGCCGCT
CTTAGCCAAATGGGCACAACTGATGTCAAAACTCCTGAAATTATCAATGATCATGGAAAC
CGCTCTAAAGCATCAAGAAGCGACACCACTAACAAGACTGACAACACAATGGCAGGCATT
AACTCTCCTACTTCAGATGTAGATTCAGGACATAAGGATGAGCTTGATCAGACAAAATTA
ATAAAGAAACAAGAAGCTAGCTCTTCTACCAATTCTGCTGCAAGTGTTACCGCCTCAGTC
GCAAACGGTATAGTTGAAGATCAAAAAGATGAAGCGGAGAGAACTATAGAAGCCAATAGG
ATCGGGAGCAATATGCAAAACTCTGATCAAGATACAATGGATGATTTGAAAAAGACAAAT
GACCCTTCAAGCGACATAGATTCCGATGCAAATACTAGCGTCAATGATGGTAGCGATGAA
AATTTGAGTAATAAACTAGACAGTGATGATTTACATTCAGAACCTGCTGATAACGAGGAA
GAACCGGTTAGCTCTGACGCAGAGAAAGATCAGGCGGAAAACATAAATCAAACTGATGAA
TCTGAAGAGGAAATAATAGTTAAAGAGTATGATGACAATAATGACGAGGATTTCGCACCT
GAAATTAAGAAGCCAAAGCCTAACGGTAAAATAGTGACCATCAATAGCGATAGACCTAAG
ATTGTCAGAGAATTAATTAAGCTGCGCAACAAAGGTAAAGCACCAAAGTCTAGTAAAAGG
CGTTATACAGCCGTGAATATAACGGAATATAGTCCAACTGAAAAAAAGATCTCAGTGAAG
ATTACACTGAAACAAATGCATGTCAAGAAATTGAAAAAGATCTTACAGGATGCTAGGAAA
GCCGAAGAGAAAAGGCTTCAAGAAGAAGCTAAACAGATTGCTGATCAGGAGTCTCCCAGG
AAAAGAAGGAAAATTGATCGATCTGAGAACACTAAACAAGAAGATGAAGACGATAAAGAA
GACGATGATCTTGATGGTTTGCCTACCTATGGTATGAAAATGAGTTTGAAGGATGCCAAA
GCTATTCAACGACATTACGATAATACATATACCATGATATGGAAGGATATGGCTAGAAAA
GATTGCATGAAGATTTCGAGACTTGTTCAACAGATTCAATCAACCAGAGCATTAAACTAT
AAAAAAACTTCTTCTCTGTGCGCTAGAGAAGCCCGTAAATGGCAGACTAGAAATTTCAAG
CAAGTTAAAGACTTCCAAACTCGTGCTAGAAAGGGTATCAGAGAGATGGCAAATTTCTGG
AAAAAGAATGAAAGAGAGGAGAGAGATTTGAAGAAAAAGGCAGAAAGAGAAGCACTAGAA
TTGGCCAAGAAGGAAGAAGAAGAAAAGGAATCAAAGAGACAGGCTAAAAAGTTAAACTTC
TTATTAACACAGACAGAATTATACTCTCACTTTATTGGGAGAAAAATAAAAACAAGTGCA
TTAGAAGGTAATGAAGTTGCAGAAGAGGATGAAGACAATTATGACTTGACAACTACTGCA
CCAAATAAGAATGACTTCCATGCCATCGATTTTGATAATGAAAATGATGAGCAACTAAAG
TTAAAAGCAGCACAAAATGCATCGAATGCGTTAGCAGAAACGAGAGCTAAAGCGAAGGCT
TTTGATGATGCACATAGACAGCAGCAATCAACCGAAAGTGATGATGAAGAAGAAATGAAC
TTCCAAAACCCAACTTCACTTGGTGAAATTACTATAGAGCAACCAAAAATGCTAGCATGC
ACACTAAAAGAATATCAATTGAAGGGATTAAATTGGCTTGCTAATTTATATGATCAAGGT
ATCAATGGTATTCTAGCTGACGAGATGGGTTTAGGTAAGACTGTACAATCAATCTCAGTT
TTAGCTCACTTAGCGGAGCATCACAACATCTGGGGACCTTTCTTGGTTGTAACACCTGCA
TCAACGTTACACAACTGGGTAAATGAAATATCAAAGTTTGTACCCCAATTTAAAATCCTT
CCATATTGGGGATCTGCAAATGATAGAAAGGTATTAAGAAAATTTTGGGATAGGAAAAAC
TTAAGATATAGTGAAAAATCTCCATTTCATGTTATGATTACTTCTTATCAGATGGTTGTA
GCGGATGCCTCGTATCTTCAAAAAATGAAGTGGCAGTACATGATATTGGATGAAGCCCAA
GCCATTAAGTCTTCTCAATCATCGAGATGGAAAAATTTATTGAGCTTTCACTGTAGAAAT
AGACTATTACTAACTGGTACACCTATTCAAAACAACATGCAAGAGTTATGGGCATTACTG
CATTTTATTATGCCGTCACTGTTTGACTCCCATGATGAATTTAATGAGTGGTTTTCTAGA
GATATAGAGTCACACGCAGAAGGAAACAGCTCTTTGAATCAACAACAGCTAAGAAGACTT
CATATGATATTGAAACCATTTATGCTAAGACGTATTAAGAAAAATGTCCAGTCTGAGTTG
GGAGACAAGATTGAAATTGATGTGATGTGCGATTTAACACAAAGACAAACGAAATTATAT
CAAGTTCTAAAATCTCAGATGTCCTCTAACTACGACGCAATAGAAAATGCTGCTGCAGAA
GGTTCAGATATTGCAGGAGGAGGTAACTCTGATCAAAGCATTATCAATGCAGTAATGCAA
TTCAGGAAGGTCTGTAACCACCCAGATTTATTTGAGAGAGCAGACATAAACTCCCCATTT
TCATTCACATCTTTTGGTAAAACATCGTCATTGATCTCATCAAGCATAGCAACTTCAGGA
GGTCTTACAGAGACCATTTCCGAGTTGATGTATTCTAGTACAAACCCTATCAATTGCGCA
ATTCCGAAATTAATATATGAAGATCTAATCCTTCCTAACTATAACAATTCGATAGACATA
ATGGAGAAATTATTACTTTCCGACTTTTCAATATATGATCCTGTCAATAATAAGGAAATG
TGTCAATATCTGGGTTTGTTAACAGGCCTTGCATATGGCTCTTTCAGGAAGATTCACAAA
AGTAATTACTTTGAGAGGATTATTAACTTGAAAAAAGAGAGTAAACAAAGTAGTCAAAAT
TTGATTACTGTAGTCTCTAATGCCAATGATCTCATTGCAGACTCTATTGTGCATGCTGAT
ACCAATCTGCCTAATCTGACTGGGATTCGGAATGATATTTATCACAACGATTACCTAAAC
AGCATACAACCAGGGTATTGTCCAAAAGTAGTTGCTCCTCCCATAAATTTTAATGTAAAT
GGTTCCCTAAACTTTACTAATAAAATGTCATCATATTTATTCAATCCTGTTATCACAACA
GCATTGTCATCAATCCCACCACCTACACAGTACAATATGTTTGTTAAAAAGTGCATTCCT
ATAGAAGAATTCCCAATCAGTGAAATGTACCCCAATCCATTGAATAAACATTTTTCTTCA
AATATATCGATGCCTTCAATGGATAGGTTTATTACAGAGTCTGCTAAATTGAAAAAGTTG
GATGAATTATTGGTGGAGCTGAAGAAGAACGATCACAGAGTATTGATTTACTTCCAAATG
ACTAAAATGATGGACTTGATGGAGGAATATCTAACATATCGTCAATACAATCATATAAGG
TTGGATGGTTCTTCCAAATTAGAAGATCGTCGTGATCTGGTTCATGATTGGCAGACAAAT
CCAGAAATTTTCATTTTCCTATTAAGTACAAGAGCAGGTGGTTTAGGTATAAACTTGACA
GCAGCCGACACTGTAATTTTTTATGATTCGGATTGGAACCCTACAATAGATTCTCAAGCA
ATGGACAGAGCCCATAGATTGGGACAAACCAAACAAGTTACTGTTTATAGATTACTCGTT
AGAGGAACAATTGAGGAGAGGATGCGTGATAGGGCAAAACAAAAAGAGCAAGTCCAACAG
GTAGTCATGGAAGGTAAGACAAAGGATACAAATATACAAACAACTCATACGAGACCAGAA
CATGAACAGTTGACACCAAAGTCCCTCTCTTCTGAACCAGAAGCGACAAATAACCTGATA
ACAGTCAAGAACTAA

Predicted translation product    

>CAGL0E05038g.aa
MSLSALLNNDDPVEDTKLYLESLNREMDRLIKRDQLELMYQDWKFANYQEFELISEWNTQ
CKELVGDGNDLQNNDLMTEEVHLDDLYDNIQRIRNEWKDYESYKETRSQLLSKSIQAKPI
KHRRRRRTKLEMEAAANLAALSQMGTTDVKTPEIINDHGNRSKASRSDTTNKTDNTMAGI
NSPTSDVDSGHKDELDQTKLIKKQEASSSTNSAASVTASVANGIVEDQKDEAERTIEANR
IGSNMQNSDQDTMDDLKKTNDPSSDIDSDANTSVNDGSDENLSNKLDSDDLHSEPADNEE
EPVSSDAEKDQAENINQTDESEEEIIVKEYDDNNDEDFAPEIKKPKPNGKIVTINSDRPK
IVRELIKLRNKGKAPKSSKRRYTAVNITEYSPTEKKISVKITLKQMHVKKLKKILQDARK
AEEKRLQEEAKQIADQESPRKRRKIDRSENTKQEDEDDKEDDDLDGLPTYGMKMSLKDAK
AIQRHYDNTYTMIWKDMARKDCMKISRLVQQIQSTRALNYKKTSSLCAREARKWQTRNFK
QVKDFQTRARKGIREMANFWKKNEREERDLKKKAEREALELAKKEEEEKESKRQAKKLNF
LLTQTELYSHFIGRKIKTSALEGNEVAEEDEDNYDLTTTAPNKNDFHAIDFDNENDEQLK
LKAAQNASNALAETRAKAKAFDDAHRQQQSTESDDEEEMNFQNPTSLGEITIEQPKMLAC
TLKEYQLKGLNWLANLYDQGINGILADEMGLGKTVQSISVLAHLAEHHNIWGPFLVVTPA
STLHNWVNEISKFVPQFKILPYWGSANDRKVLRKFWDRKNLRYSEKSPFHVMITSYQMVV
ADASYLQKMKWQYMILDEAQAIKSSQSSRWKNLLSFHCRNRLLLTGTPIQNNMQELWALL
HFIMPSLFDSHDEFNEWFSRDIESHAEGNSSLNQQQLRRLHMILKPFMLRRIKKNVQSEL
GDKIEIDVMCDLTQRQTKLYQVLKSQMSSNYDAIENAAAEGSDIAGGGNSDQSIINAVMQ
FRKVCNHPDLFERADINSPFSFTSFGKTSSLISSSIATSGGLTETISELMYSSTNPINCA
IPKLIYEDLILPNYNNSIDIMEKLLLSDFSIYDPVNNKEMCQYLGLLTGLAYGSFRKIHK
SNYFERIINLKKESKQSSQNLITVVSNANDLIADSIVHADTNLPNLTGIRNDIYHNDYLN
SIQPGYCPKVVAPPINFNVNGSLNFTNKMSSYLFNPVITTALSSIPPPTQYNMFVKKCIP
IEEFPISEMYPNPLNKHFSSNISMPSMDRFITESAKLKKLDELLVELKKNDHRVLIYFQM
TKMMDLMEEYLTYRQYNHIRLDGSSKLEDRRDLVHDWQTNPEIFIFLLSTRAGGLGINLT
AADTVIFYDSDWNPTIDSQAMDRAHRLGQTKQVTVYRLLVRGTIEERMRDRAKQKEQVQQ
VVMEGKTKDTNIQTTHTRPEHEQLTPKSLSSEPEATNNLITVKN*



Legend and notes  


Lengths
The length, in codons, of coding sequences includes the stop codon, hence it is one unit longer than the protein length.

Genomic environment map
Click on the symbol of an element or a family to go to its corresponding page. Colors in the lane "protein encoding genes" indicate strandedness: shades of blue for direct orientation, shades of red for reverse orientation. Colors in the lane "protein family" are arbitrarly chosen in such a way that different protein families have different colors in the map.

Protein domain map
Domains are extracted from SwissProt files. Click on the symbol of a domain to extract the domain sequence.

Genemark image and list
Genemark computation of protein-coding potential of DNA was made from 1000 nucleotides upstream the open reading frame to 300 nucleotides downstream. Thus the open reading frame protein-coding potential appears on frame #3.

Sequences
ColorNucleotide sequence and Coding sequencePredicted translation product
REDstart and stop codonsInitial methionine and sequence end
BLUEcoding sequenceprotein sequence
greynon-coding sequence (upstream, downstream or intron)
greydonor and acceptor splicing sites