YALI0E09012g


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: 4959 nucleotides,
on anti-sense strand of
Yali0E: complement(join(1070790..1070822,1065864..1070204)).
Other names:
YALI-CDS0111.1
YALI-IPF2222
Coding sequence: 1458 codons.
Database cross references:
EMBL: CR382131
GeneID: 2912514
HOGENOM: Q6C6J7

Computed results  

None available yet

Homologs and Orthologs

Homologs in protein families: GL3C0282 GL3C0282.N1
Orthologs: strict determination not possible; homologs must be refined manually

Protein YALI0E09012p  


similar to uniprot|P53115 Saccharomyces cerevisiae YGL150c INO80

Protein domain map

Protein length: 1457 amino acids
Protein family: GL3C0282
Database cross references:
InterPro: IPR000330
InterPro: IPR001650
InterPro: IPR014001
InterPro: IPR014021
KEGG: yli:YALI0E09012g
PROSITE: PS51192
PROSITE: PS51194
Pfam: PF00176
Pfam: PF00271
RefSeq: XP_503715.1
SMART: SM00487
SMART: SM00490
UniProtKB/TrEMBL: Q6C6J7
UniprotKB: Q6C6J7_YARLI

Computed results for YALI0E09012p  

Blastp Genolevures
Blastp Uniprot

Gene Ontology terms  

GO:0005524 ATP binding
GO:0004386 helicase activity
GO:0003677 DNA binding

Sequence data  


Nucleotide sequence    

>YALI0E09012g.nt
TGCAGCGAAAACGTTTGAGGGTTGCACCCAACGCGTGGAAATAACGTGAGCTAAAAACTA
ACCCGGTCGGCTGTCAAGGGGTTGGCTAATGTGGGCCTACTTGCGCCGAAAGTGGCACCA
ACAGCTTCCTTGCGACGAGCCGAGCACATTGACTGCACCCCCGTCTCCATATATCAAGTA
TCGAGAGAGTTAGACGTCTTCCGTCCTGAGCTCGACATTGCGGTGATGACCAGGTACTTG
TAGGGCGGAAGAGCCACCGCAAAGTTGAATTGTAGCAAGAAAAAGTAAAACGGTATCAAT
TACAACCACAGAAAGATCTTTACAGCCAGCATTTCCATACGTTTATCCCACCATTTCTCG
GAGACTTCCACCTTCACCCAGAGCTACTTCATTACATAGTATTACGTCAAAGTCGAGCGC
ATGAAGCATGCGATTGGGAAAGTGGAAGAAGGCGCGAAGAGAGGGTGCAGATGGATGGCT
GTGGGATATTCTAAAAAGTCGGATTAGTCATCACAAATATCCCCATCTTGTTCCATGCCC
GCTCGATTTTGCCCCTTATTGTGTGAGCTGTATCCGGCTTTTTCTGCTACACCCCCGGAA
GGTGGAGCACAGGTGCATACGATAGATAGACTATTGGGAACCCTGAGGAAGAAGGGAGGG
TGCAGATGGGGCGGAGTGGTATTTGACAAATGAAGGGGGGTTTTTATAAATACCAAGTTT
TTTTTTGGTAATCATCAACCTGGCCCTTTTCACCTCCTCCCCTTTCCCCCATATTTTTCC
CATTTTCCCACCCCACTCCTCTTCTCGTTGCGGTGCACCTCCAGAAACAGCGGGCAGGTT
TTTTTCTTCGAACTCTCGCTGCGCTCGAGTTCGATTGGAGGCAGGAAGAGACCAACGCAA
CAGCACTGCACAATTTATTGTTGACTCCATCCATCACCACCAAGCCACGACACAAAGACG
CGGAACGACAGACACAAAAAGACAAGCAACGAAAACAGCCATGAATGGCCATAACAACAA
CCACGATGAGACCgtgagtattaccagttggcgatggctgaatacgggcttacgaggagg
gaggtttggggcgagggagggagacatggtattttttgccacagacgtttgtgggcgacg
ggagaagatgcaatcaacttggtgggactcggcgagcacgatggtgcccttggcgagccg
atcggtttcgattctgtcttgttgccattgccacacacccacaccgctgcttatgtcaac
cgggtagcaccacggtgacatgccacaagacctgaacggggccgcgaagatgagaagccg
atggcattgaagggattctgcatccgtgaagtgtctcgatcatgcttctgccacggtcga
tggggataccgttcgtgccgcctgtgatagaaagtgatatggaaacggtgatctctttgc
tgacgaggctgtcatcgccgtatacatctccatcaagcatcctgaggctggatccgacac
gttagtatctccatctccggtcctgccctatcacagctcccctatcccgtttaccatgtc
tcacttctcatcaaccatgtcgcatgccatctctacgataccgatctaactaacacagAA
CCGCGGGGCTATGTCCATTTCATCGATTCTCTCTGGTGGAGAACGACGTGCATCGGATGC
CTCTCAGCAGCCACCGGCCCCACCGCTACAACAGCAGTCACCACTACAGCAACAGCCCCC
TCCTGCTCTGCACCATCCACCACCACCACCACATCTCTCCCCCCACCAGACGCATCAGGC
ACCGCACATCTCGCCACAGCATTCGCCTCAGAATGGACACACCATGCCGGGGCCTCCCAT
GATGGGCCACGAGCAGCACTACATGCAGCAGCAGCACCCCCAGCATCCTCAGCATCCTCA
ACAGCAGTCGCCACCGATGCTGCCGCAGCATCACCAGCATCATCCGCATCCACACCACTC
GCCGCAGCACTCACCTCCCATGCTGCAGCACCAGCACCACTCTTCCACATCGCCGCCCAT
GTACCACAAACAGCAGCCCCATCCCCAGCATCAACACCCCCCACCACCGCATCCGGGTCA
CATGTCCCCCCAGGGTCATCCCAATATGTCTCCTCACCCGGTGCAGCATCAGGGTCCTCA
TCCCGGCCACCAGGGCCACCCAGGACACCCTGGCCATCAGGGTCATCCGGCACCACCTGA
CATGTACGCTCCCCGCATTTACATGTCGCAGCAGCAGATTCCGCAGCAGGCTCCGTGGCC
TATCCAGATTCCCATTCAGGGTCACACGTCTGTTGACGGCGATCACTCTGCACCGGAGTC
ACCACCCGCGGATGCAGATGATCCCGCATACGCAGACGCCAAGACGGGATTTCTACAGCA
GGTCCAGAGCCGGCTGGAGGCCGTGGTGCAGCTGGAAGAGTTGCGAGACAAGGTCGTGAT
TGATGAATACACGAAAACCAAGGCGTACACAAACGCAGCCCGCTACGCAGCCGTTAAGCA
AAGCGCTAAGACGTCCCTGCAAAAGGAGGCGATTGTGCGTGTGGCGTTTGTGGAGTACGA
GGAGGGTGGTGGCCTGGCCGGCGCACATACATCGGCCAGTCCTGCTGCATCGTCGTCATC
ATCAGCAGCCCCAGTGTCCTCCACATCGTCAGCACCAGCGTCAGCTTCCTCTGCTGCAGG
CGCTGCCGCCGCTGCCGCCGCAACAACTTCTTCTGTGTCCACTCCGAAGGCAAAGAAGCG
AAGCAAGGCCGTATCTAAGACGTCAGCTGCTGCTTCTGTCGCAGCGGGAACCTCCTCTAA
GGAGGCTTCCCCTGCCCCCAAGCCAAAGACGAAGAAACAGCTCCAGGCAGAGCAGCGAGA
GAAGGACAGGGAGATTAGGGAAGAAAATGCGGCGGCTAAGGAAGCTGCGGCTGCTGCCAA
GCAGCTTGATCAGGCCTATGATTCCATTTGGAAGGATATGGCACGTCGAGACGCCGCCAA
GGTGCACAAAACTGTGGCTGCAACGATCGCCGTGAAGCAGTCCAACCACCGAAAAACAGC
TGTTTTGGCGTCCAAGGAGGCCCGAAGATGGCAATATCGAACCAACAAGTCTATCAAGGA
CATGCAAGGCAAGGCTCGACGAGCTATGCGAGAGATGCTCTCTTTCTGGAAGAGAAATGA
GAAGGAAGAGCGAGATCTGCGAAAGAAGGCCGAGAAGGAGGCTCTTGACCAGGCCAAGAA
GGACGAGGAAGATCGAGAGAGTAAGCGGCAAGCCAGGAAGCTCAATTTCTTGCTCACCCA
GACAGAGCTATACTCACATTTCATCGGTCGGAAGATCAAGACTGACGAGATGGAAGATGG
TGAGGCTGCCAAGGACGGTGACGAGGACTACGAGGCCATGGAGAAGATTGCCAAAAGTGG
CAGCGATGTGGAGACGAAGCGGGCTGCAGAGCTGGACTTTGACGAAGACGATGACGACAA
GCTGCGGCAGATTGCCATGCAGAATGCTCATAATCAGGTGCGAAGGAACCAGCAGCAGGC
CCAGGCGTTCGACGCGCAGTCTGAGACGCCTACCGCAGAATCTGGCGCTGCAGCTGACTC
GGATGACGCCTTTCAGAACCCCACGTCTCTTGGAGACCTACAGCTCTCCCAGCCCAAACT
CCTCAACTGCACTCTCAAGGAATACCAGCTTAAGGGTCTCAACTGGCTGGCCAACCTGTA
CGAGCAGGGTATCAACGGTATTCTTGCTGACGAAATGGGTCTGGGAAAGACTGTCCAGTC
GATCTCCGTCATGGCCTATCTCGCCGAGACCCACAACATCTGGGGTCCATATCTTGTGAT
CGCACCTGCTTCCACACTCCACAACTGGCAGCAGGAAATCTCCAAGTTTGTCCCCGACTT
CAAAGTGTTGCCTTATTGGGGTAATGGTAAGGATCGAAAGATTTTGCGAAAATTCTGGGA
CAGAAAGAATGTCAAGTACACGCGAGATTCGCCGTTCCATGTGCTGGTCACCTCATATCA
GCTCGTTGTGTCTGATGCCCAGTACTTTTCTCGAGTGAAGTGGCAATACATGATTCTGGA
TGAGGCTCAGGCCATCAAGTCGTCTTCTTCTTCGCGATGGAAGTCTCTGCTGGCTTTCCA
GTGCCGAAACCGACTGCTTTTGACCGGTACTCCCATTCAGAACTCCATGCAGGAACTATG
GGCGCTGTTGCATTTCATCATGCCCTCTCTTTTCGACTCGCACGATGAGTTTTCCGAATG
GTTTTCCAAGGACATTGAGTCGCACGCCAAGGAAAAGTCGCAGCTAGACCAGCAGCAGCT
CAAGCGACTGCATATGATCCTGAAGCCGTTCATGTTGCGACGAGTTAAGAAGCACGTGCA
GCAAGAGCTGGGCGATAAGATTGAGATTGATGTGTACTGCAACCTGACCACCCGGCAGCG
AGTCATGTACAAGATTCTGAAGTCTCAGATCAACCTGCAGGAGCTCCTTGCCAAGGCCCA
GAGTGGCTCTGAAGAGAACACTCAGAGTCTGATGAACCTGGTCATGCAATTCCGAAAGGT
TTGCAACCATCCCGACTTGTTTGAGCGTGCCGATGTGAAGAGTGCCTATAACTTTGGCCC
TTCCAACTGTGGCTCTGACAAAGACACTTGGATTGGAAGCAGCAATCGAAACCTCATCAG
TTTTGAAGTCCCCAAGCTCGTGTACCGGGAGGGGGGCTTCTTGGACGTTCCTGGAGAACA
CAGCAAGGCCGGTAGCTTGAATAAGCTGCTCAAGGTCGATCTGAACATCTGGGAGCCTTC
TTGGATGGGTCGAAAGAGAGACCTTGTGGTCGAGGAGGAAGGAGGAGTGGGCCGAGTCAG
CCGAGTCAGTCAGATGGGGGTCATGGAGCGTGTTATTAACGAGGTCAATCGTGATGTTCC
CAGCGTCGGTGCGCTGCCCAGGTACACACCTGCTCCTTCTCCATTTGACGTCTTTGAGAC
TCTCTACGACTCGTATCTCCACCGACTGGAGCCTGCATATGACCCTCGCGTCGTTGCTCC
TCCTGTGGACTTTGTTTGCCGTGACCGAGGGTTCCAGATTGAGCAGGAGGAGAAGATGGG
TGGCGTGGACGTGCGAAGAGCCCTTACACCCCTCACTCTTGGCCAGGAACTGTGGTGGTT
GGAGAAGGCCGAGGCCGAGGTAAAGGGCACCAATGTCACTGCATTGACTCCTGGGTCTGT
TTCACTGCCTCCCAACGATCTGTTCCCGTCTCGGGTGCTGGACTTCAACGGCATCAACAC
TCTGCGAATGCCCTCTATGTCCAAGTTCATCTCGTGCTCTGGCAAGCTCGCCAAGCTGGA
CGAGCTGCTCGCAGAGTTGAAGGCTGGAGGTCACCGTGTTCTCGTCTATTTCCAGATGAC
CAAGATGATGGACCTGGCCGAGGAGTACCTCACGTTCAAGCAGTACAACTACTGTCGACT
GGACGGTTCCTCCAAGCTGTCCGATCGAAGAGATCTCGTCAACGACTGGCAGACCAAGCC
CGAGCTATTCGTGTTTTTGCTATCCACTCGAGCTGGAGGTCTGGGTATCAACTTGACAGC
TGCCGACACAGTCATCTTCTATGATTCCGACTGGAACCCTACGATCGATTCGCAGGCCAT
GGATCGAGCCCATCGACTGGGACAGACCCGGCAGGTGACTGTGTACCGTCTGCTGGTCAA
GGGTACTATCGAAGAGCGAATGCGAGATCGAGCCAAACAGAAGGAGCATGTGCAGAATGT
GGTCATGAGTGGCCAGAGCCAGAGTCACGAGGAGGAGGTCAACTCCAAGCCGTCACGAGA
TGTGGCACTGTGGCTGCTTGACGATGATCAGGATGAGGCATCGTTTGTCAAGGGCAAGGA
GAACCGAGGCGTCAAGAGAGGTGCTGAGGGAGAGGAGGAAAAGAAGGTGGAGGAGATCAA
AAAGCCGAAGACGGAGTAGACGAGTAGAAAAGACTCTGGTAGGACAGGTATATTTAATGT
ATTGTTTATATTTAATGGCCATAGCTTGTACAAGTTGTGACGGTGTGAGTTTCTGCTACG
AGTTGAATACTGTGGTTTCCAGACAGTGCGAGTGCAGTACTGACAGCGACGTAAAAGTAA
TGTACAGGAACAGCAAGCGTACATTCAGTACACGTAGAATATTAACAGAATATGTGAGTT
CATTAAAGCACTATTTCTCTTTCTCTCCCTGCCACTCATCTTTGCTCAGAAGTCTCTTGA
GATTCTCCATGTGCTCATC

Coding sequence    

>YALI0E09012g.cds
ATGAATGGCCATAACAACAACCACGATGAGACCAACCGCGGGGCTATGTCCATTTCATCG
ATTCTCTCTGGTGGAGAACGACGTGCATCGGATGCCTCTCAGCAGCCACCGGCCCCACCG
CTACAACAGCAGTCACCACTACAGCAACAGCCCCCTCCTGCTCTGCACCATCCACCACCA
CCACCACATCTCTCCCCCCACCAGACGCATCAGGCACCGCACATCTCGCCACAGCATTCG
CCTCAGAATGGACACACCATGCCGGGGCCTCCCATGATGGGCCACGAGCAGCACTACATG
CAGCAGCAGCACCCCCAGCATCCTCAGCATCCTCAACAGCAGTCGCCACCGATGCTGCCG
CAGCATCACCAGCATCATCCGCATCCACACCACTCGCCGCAGCACTCACCTCCCATGCTG
CAGCACCAGCACCACTCTTCCACATCGCCGCCCATGTACCACAAACAGCAGCCCCATCCC
CAGCATCAACACCCCCCACCACCGCATCCGGGTCACATGTCCCCCCAGGGTCATCCCAAT
ATGTCTCCTCACCCGGTGCAGCATCAGGGTCCTCATCCCGGCCACCAGGGCCACCCAGGA
CACCCTGGCCATCAGGGTCATCCGGCACCACCTGACATGTACGCTCCCCGCATTTACATG
TCGCAGCAGCAGATTCCGCAGCAGGCTCCGTGGCCTATCCAGATTCCCATTCAGGGTCAC
ACGTCTGTTGACGGCGATCACTCTGCACCGGAGTCACCACCCGCGGATGCAGATGATCCC
GCATACGCAGACGCCAAGACGGGATTTCTACAGCAGGTCCAGAGCCGGCTGGAGGCCGTG
GTGCAGCTGGAAGAGTTGCGAGACAAGGTCGTGATTGATGAATACACGAAAACCAAGGCG
TACACAAACGCAGCCCGCTACGCAGCCGTTAAGCAAAGCGCTAAGACGTCCCTGCAAAAG
GAGGCGATTGTGCGTGTGGCGTTTGTGGAGTACGAGGAGGGTGGTGGCCTGGCCGGCGCA
CATACATCGGCCAGTCCTGCTGCATCGTCGTCATCATCAGCAGCCCCAGTGTCCTCCACA
TCGTCAGCACCAGCGTCAGCTTCCTCTGCTGCAGGCGCTGCCGCCGCTGCCGCCGCAACA
ACTTCTTCTGTGTCCACTCCGAAGGCAAAGAAGCGAAGCAAGGCCGTATCTAAGACGTCA
GCTGCTGCTTCTGTCGCAGCGGGAACCTCCTCTAAGGAGGCTTCCCCTGCCCCCAAGCCA
AAGACGAAGAAACAGCTCCAGGCAGAGCAGCGAGAGAAGGACAGGGAGATTAGGGAAGAA
AATGCGGCGGCTAAGGAAGCTGCGGCTGCTGCCAAGCAGCTTGATCAGGCCTATGATTCC
ATTTGGAAGGATATGGCACGTCGAGACGCCGCCAAGGTGCACAAAACTGTGGCTGCAACG
ATCGCCGTGAAGCAGTCCAACCACCGAAAAACAGCTGTTTTGGCGTCCAAGGAGGCCCGA
AGATGGCAATATCGAACCAACAAGTCTATCAAGGACATGCAAGGCAAGGCTCGACGAGCT
ATGCGAGAGATGCTCTCTTTCTGGAAGAGAAATGAGAAGGAAGAGCGAGATCTGCGAAAG
AAGGCCGAGAAGGAGGCTCTTGACCAGGCCAAGAAGGACGAGGAAGATCGAGAGAGTAAG
CGGCAAGCCAGGAAGCTCAATTTCTTGCTCACCCAGACAGAGCTATACTCACATTTCATC
GGTCGGAAGATCAAGACTGACGAGATGGAAGATGGTGAGGCTGCCAAGGACGGTGACGAG
GACTACGAGGCCATGGAGAAGATTGCCAAAAGTGGCAGCGATGTGGAGACGAAGCGGGCT
GCAGAGCTGGACTTTGACGAAGACGATGACGACAAGCTGCGGCAGATTGCCATGCAGAAT
GCTCATAATCAGGTGCGAAGGAACCAGCAGCAGGCCCAGGCGTTCGACGCGCAGTCTGAG
ACGCCTACCGCAGAATCTGGCGCTGCAGCTGACTCGGATGACGCCTTTCAGAACCCCACG
TCTCTTGGAGACCTACAGCTCTCCCAGCCCAAACTCCTCAACTGCACTCTCAAGGAATAC
CAGCTTAAGGGTCTCAACTGGCTGGCCAACCTGTACGAGCAGGGTATCAACGGTATTCTT
GCTGACGAAATGGGTCTGGGAAAGACTGTCCAGTCGATCTCCGTCATGGCCTATCTCGCC
GAGACCCACAACATCTGGGGTCCATATCTTGTGATCGCACCTGCTTCCACACTCCACAAC
TGGCAGCAGGAAATCTCCAAGTTTGTCCCCGACTTCAAAGTGTTGCCTTATTGGGGTAAT
GGTAAGGATCGAAAGATTTTGCGAAAATTCTGGGACAGAAAGAATGTCAAGTACACGCGA
GATTCGCCGTTCCATGTGCTGGTCACCTCATATCAGCTCGTTGTGTCTGATGCCCAGTAC
TTTTCTCGAGTGAAGTGGCAATACATGATTCTGGATGAGGCTCAGGCCATCAAGTCGTCT
TCTTCTTCGCGATGGAAGTCTCTGCTGGCTTTCCAGTGCCGAAACCGACTGCTTTTGACC
GGTACTCCCATTCAGAACTCCATGCAGGAACTATGGGCGCTGTTGCATTTCATCATGCCC
TCTCTTTTCGACTCGCACGATGAGTTTTCCGAATGGTTTTCCAAGGACATTGAGTCGCAC
GCCAAGGAAAAGTCGCAGCTAGACCAGCAGCAGCTCAAGCGACTGCATATGATCCTGAAG
CCGTTCATGTTGCGACGAGTTAAGAAGCACGTGCAGCAAGAGCTGGGCGATAAGATTGAG
ATTGATGTGTACTGCAACCTGACCACCCGGCAGCGAGTCATGTACAAGATTCTGAAGTCT
CAGATCAACCTGCAGGAGCTCCTTGCCAAGGCCCAGAGTGGCTCTGAAGAGAACACTCAG
AGTCTGATGAACCTGGTCATGCAATTCCGAAAGGTTTGCAACCATCCCGACTTGTTTGAG
CGTGCCGATGTGAAGAGTGCCTATAACTTTGGCCCTTCCAACTGTGGCTCTGACAAAGAC
ACTTGGATTGGAAGCAGCAATCGAAACCTCATCAGTTTTGAAGTCCCCAAGCTCGTGTAC
CGGGAGGGGGGCTTCTTGGACGTTCCTGGAGAACACAGCAAGGCCGGTAGCTTGAATAAG
CTGCTCAAGGTCGATCTGAACATCTGGGAGCCTTCTTGGATGGGTCGAAAGAGAGACCTT
GTGGTCGAGGAGGAAGGAGGAGTGGGCCGAGTCAGCCGAGTCAGTCAGATGGGGGTCATG
GAGCGTGTTATTAACGAGGTCAATCGTGATGTTCCCAGCGTCGGTGCGCTGCCCAGGTAC
ACACCTGCTCCTTCTCCATTTGACGTCTTTGAGACTCTCTACGACTCGTATCTCCACCGA
CTGGAGCCTGCATATGACCCTCGCGTCGTTGCTCCTCCTGTGGACTTTGTTTGCCGTGAC
CGAGGGTTCCAGATTGAGCAGGAGGAGAAGATGGGTGGCGTGGACGTGCGAAGAGCCCTT
ACACCCCTCACTCTTGGCCAGGAACTGTGGTGGTTGGAGAAGGCCGAGGCCGAGGTAAAG
GGCACCAATGTCACTGCATTGACTCCTGGGTCTGTTTCACTGCCTCCCAACGATCTGTTC
CCGTCTCGGGTGCTGGACTTCAACGGCATCAACACTCTGCGAATGCCCTCTATGTCCAAG
TTCATCTCGTGCTCTGGCAAGCTCGCCAAGCTGGACGAGCTGCTCGCAGAGTTGAAGGCT
GGAGGTCACCGTGTTCTCGTCTATTTCCAGATGACCAAGATGATGGACCTGGCCGAGGAG
TACCTCACGTTCAAGCAGTACAACTACTGTCGACTGGACGGTTCCTCCAAGCTGTCCGAT
CGAAGAGATCTCGTCAACGACTGGCAGACCAAGCCCGAGCTATTCGTGTTTTTGCTATCC
ACTCGAGCTGGAGGTCTGGGTATCAACTTGACAGCTGCCGACACAGTCATCTTCTATGAT
TCCGACTGGAACCCTACGATCGATTCGCAGGCCATGGATCGAGCCCATCGACTGGGACAG
ACCCGGCAGGTGACTGTGTACCGTCTGCTGGTCAAGGGTACTATCGAAGAGCGAATGCGA
GATCGAGCCAAACAGAAGGAGCATGTGCAGAATGTGGTCATGAGTGGCCAGAGCCAGAGT
CACGAGGAGGAGGTCAACTCCAAGCCGTCACGAGATGTGGCACTGTGGCTGCTTGACGAT
GATCAGGATGAGGCATCGTTTGTCAAGGGCAAGGAGAACCGAGGCGTCAAGAGAGGTGCT
GAGGGAGAGGAGGAAAAGAAGGTGGAGGAGATCAAAAAGCCGAAGACGGAGTAG

Predicted translation product    

>YALI0E09012g.aa
MNGHNNNHDETNRGAMSISSILSGGERRASDASQQPPAPPLQQQSPLQQQPPPALHHPPP
PPHLSPHQTHQAPHISPQHSPQNGHTMPGPPMMGHEQHYMQQQHPQHPQHPQQQSPPMLP
QHHQHHPHPHHSPQHSPPMLQHQHHSSTSPPMYHKQQPHPQHQHPPPPHPGHMSPQGHPN
MSPHPVQHQGPHPGHQGHPGHPGHQGHPAPPDMYAPRIYMSQQQIPQQAPWPIQIPIQGH
TSVDGDHSAPESPPADADDPAYADAKTGFLQQVQSRLEAVVQLEELRDKVVIDEYTKTKA
YTNAARYAAVKQSAKTSLQKEAIVRVAFVEYEEGGGLAGAHTSASPAASSSSSAAPVSST
SSAPASASSAAGAAAAAAATTSSVSTPKAKKRSKAVSKTSAAASVAAGTSSKEASPAPKP
KTKKQLQAEQREKDREIREENAAAKEAAAAAKQLDQAYDSIWKDMARRDAAKVHKTVAAT
IAVKQSNHRKTAVLASKEARRWQYRTNKSIKDMQGKARRAMREMLSFWKRNEKEERDLRK
KAEKEALDQAKKDEEDRESKRQARKLNFLLTQTELYSHFIGRKIKTDEMEDGEAAKDGDE
DYEAMEKIAKSGSDVETKRAAELDFDEDDDDKLRQIAMQNAHNQVRRNQQQAQAFDAQSE
TPTAESGAAADSDDAFQNPTSLGDLQLSQPKLLNCTLKEYQLKGLNWLANLYEQGINGIL
ADEMGLGKTVQSISVMAYLAETHNIWGPYLVIAPASTLHNWQQEISKFVPDFKVLPYWGN
GKDRKILRKFWDRKNVKYTRDSPFHVLVTSYQLVVSDAQYFSRVKWQYMILDEAQAIKSS
SSSRWKSLLAFQCRNRLLLTGTPIQNSMQELWALLHFIMPSLFDSHDEFSEWFSKDIESH
AKEKSQLDQQQLKRLHMILKPFMLRRVKKHVQQELGDKIEIDVYCNLTTRQRVMYKILKS
QINLQELLAKAQSGSEENTQSLMNLVMQFRKVCNHPDLFERADVKSAYNFGPSNCGSDKD
TWIGSSNRNLISFEVPKLVYREGGFLDVPGEHSKAGSLNKLLKVDLNIWEPSWMGRKRDL
VVEEEGGVGRVSRVSQMGVMERVINEVNRDVPSVGALPRYTPAPSPFDVFETLYDSYLHR
LEPAYDPRVVAPPVDFVCRDRGFQIEQEEKMGGVDVRRALTPLTLGQELWWLEKAEAEVK
GTNVTALTPGSVSLPPNDLFPSRVLDFNGINTLRMPSMSKFISCSGKLAKLDELLAELKA
GGHRVLVYFQMTKMMDLAEEYLTFKQYNYCRLDGSSKLSDRRDLVNDWQTKPELFVFLLS
TRAGGLGINLTAADTVIFYDSDWNPTIDSQAMDRAHRLGQTRQVTVYRLLVKGTIEERMR
DRAKQKEHVQNVVMSGQSQSHEEEVNSKPSRDVALWLLDDDQDEASFVKGKENRGVKRGA
EGEEEKKVEEIKKPKTE*



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