CAGL0M01188g


similar to uniprot|Q05471 Saccharomyces cerevisiae YDR334w SWR1 Swi2/Snf2-related ATPase that is the structural component of the SWR1 complex, which exchanges histone variant H2AZ (Htz1p) for chromatin-bound histone H2A

Genomic environment map

Element type: CDS
Element length: 4353 nucleotides,
on anti-sense strand of
Cagl0M: complement(132330..136682).
Other names:
CAGL-CDS0126.1
CAGL-IPF9576
Coding sequence: 1451 codons.
Database cross references:
EMBL: CR380959
GeneID: 2891166
HOGENOM: Q6FK48

Computed results  

None available yet

Homologs and Orthologs

Homologs in protein families: GL3C0282 GL3C0282.N2
Orthologs: strict determination not possible; homologs must be refined manually

Protein CAGL0M01188p  


similar to uniprot|Q05471 Saccharomyces cerevisiae YDR334w

Protein domain map

Protein length: 1450 amino acids
Protein family: GL3C0282
Database cross references:
InterPro: IPR000330
InterPro: IPR001650
InterPro: IPR002464
InterPro: IPR006562
InterPro: IPR014001
InterPro: IPR014012
InterPro: IPR014021
KEGG: cgr:CAGL0M01188g
PROSITE: PS00690
PROSITE: PS51192
PROSITE: PS51194
PROSITE: PS51204
Pfam: PF00176
Pfam: PF00271
Pfam: PF07529
RefSeq: XP_449396.1
SMART: SM00487
SMART: SM00490
UniProtKB/Swiss-Prot: Q6FK48
UniprotKB: SWR1_CANGA

Computed results for CAGL0M01188p  

Blastp Genolevures
Blastp Uniprot

Gene Ontology terms  

None available yet

Sequence data  


Nucleotide sequence    

>CAGL0M01188g.nt
TTCCGCACACACCATTTACAATATAATTCGTATCTGCATATTTTATATTATTTAATTACT
GCATATTTTAACAAATATACAATACCAAAACAAGTACAGAGCTCTTTACAGAATATTTAT
AGTAAACTCATAAAATCTTCAACCTGTACTGATTGCCCTCTTGTGCGTTGAGCCGTTTAA
TATACTGTTCTAAATTGAGTAATTGAGTAACAGTATAACTTCTCAAGCAGTATAGTTCAC
ATGATAATATATCGCTCTACGGATCTTCTGGCTTTTAACAGGCTGAAGGCCCCTCCACCC
ACATCGCTGAAATTCTAAAAATTGGGCACAAGACGGGAAAAGTTGAAGAAGAGGTCTGGC
CTTGAAAAAAATAAAAGCTGAAAAACTGGGAAGTTGCCACTGTTTTGAAGAGAAATTTGA
TATAAATCTGATAAGAAACTAGGCTTTTTGACTAGTTATAGAGGTATAAACCAATTCATC
GCGGACTACAGAACTGGAGCTTTCTATTGATACTGAAAAGATTGCATTTACTTAGGCAGT
GGATCTTCAAATTGTACAATAAACGTCGTTTCTAGTTGGTCACTATCGAAAAGGAACGCG
TATTCAATAGTCTGTCTGGGCTCATCCTTTTTTTTATTGCATTTGCTAGAGAGGTTGCAA
GTCAAACTGCCAAATATAAATCCAGAAATTTGTTGATCTTGTTTTGAATCATCGGTTTAA
GCACTCCATAGACATTCGCATAGGTGAAATAAACGCTTTACATTTACCTGCTGACTGTAT
TAGCCCTGCATTTTGACCATTTTACTTGTATTTATTCATTCCAAACCGTGTATTTTACTT
GTTCATTTGTTGCTAGGCGTTGTTTTATTGTTTTTTTTTACTTCATTATTTGATTTGCAC
TTTATTACTTTACACCAAATATCTGTGGTAGTTGTATGCCATTTTATAAAAATTGACTAT
AACAAAACTAAACCATACTCAAAAGCAGAATACAGAAGATATGTCGAAAAATAACAAACT
GAATGGGAAAGACAACAGACAGAGCAAAATTGAGAAGCTTTCGGAATTAAAATTGCGTCA
CGATCAACTGACAAATGAGTTATATCATCTACATGAATACATATCACTGGTTGAATATGA
TCCATTCTATATACCGAATTCAGAAAACTATGAAAGACTACTGGAAGAAAAGGACGTGAC
GTGGGGGTCGATATTTCAGGAGAAGAAACAGCTACATAACGAAAGTAGCGGAAAGAAAGT
TCGTAGATCAGTGAGACATCTTCGAGATTCTGGGTCCAGCACCATCAATGAGTTAGATAC
TATGTCTGAAAATGATATTAATCTGCTAAAAGAAGTTGATATACTGGCAAAACAGAAACT
ACAAGATCTGAAATTACAGTTTTCAAATTCACATATAAAAAAGAAAGGTAATACTAAACG
TGCCAAAATTGTAAAACAAGTACCAAATCATCAGGATAAATCTGAAAGTCCTCAAATTTC
TGAAAGAGATGTTAAGACTGTAGTGAAAGATTTGAAACCAAATCATCGAGGTTCTGAAAT
CAAACCAGAAATTATGGAGTCAAGCGATGTAAAAAACGAAATCGAAAACTGCGACTTTAA
TGAAAAGCAATTGAAGTTATACAAAGATGACGACATCGCAAGCGAGTCAGATTTTTATTT
CACTACTTCATCGGAGGATGAATTGCCCAATAAGAGAAGAGGAACGATAAAGAGAAGGAA
AAGAATAAATTTATATGTGAACCCACCAAAGGCAGTCATAACAAACCCAGATAATATAGC
TAATAGTCACTACCCCACCTTACACGAGTACTTAGACTCATTTAAGATATTAGAAGATGA
TATGACAAATGAGGAATATAACACATTCATAAAGGAACAGCAAAGGTTTGCCAAAATGAT
CAAGAAAGGTATTGAAACTGGAGCTCTTAAGTATGATCCTGTAACAGAGACCGTTCAACC
TTCGGCACGAAAGGTGCCAAACATGTTCTCTCACGCAAAGGTGGATCCAATACAATATAT
GTATAAGGAGCAAAACCTTCATATTCATCAAGAACATTTAATTAATCAAGGTCTGTTTTC
ATCCAAGCTTGTTCAAAACAGAAAAAAACAAAGAATAGCTGGCGCTAAAAAAATTGCACA
GATGATAGAGCAGCATTTCAAACATATCGCTGGTGCTGAAGATCGCCGTTTAAAAGAAAA
CGAAAAGCAAAGAAAGGCAATAGCAAGAAATATTATCCAAAGTGTCAAGAAGAGATGGAA
TTTAGCTGAAAAAGCATATAGAATTTTGAAAAAAGACGAAGAGGAACAACTGAAAAGAAT
ACAAGGAAAAGAACATTTATCAAAAATGTTGGAAAAAAGTTCCAAACTTTTAGGAGCCCA
ACTGAAACAGCATCCTAACGAGGATGATATCGAAAATAGTACCAGTGACGATTTTTCTTC
AACTGGTGACAGTGATAATTTATCATCATCTTCGGATGAGGAATCTGATGATGAAATTAA
CGATTTATCAGAAGATCAAAAAAATAACATCAATGAGCTCAAAACTAGCTCAACTTCTGC
ATTTAGCTCACCTGAAATTTCATCCCCATCTAAAAACCCCGACTTGGGCCTAAATTCTCT
TTTGACCAACGATTTCGAAAATGAATCTAATTCAAGTGACACTAATGAAGAGTTTATAAT
GGGTGACTCTGACACCTCCCATTCTGATGACGAAAATCTGACTGATGACAGTGAAGATTC
GAATGACGGCGAACATGATACTACATCAGATAATGAAAAATCAGACTTGTTTCCAGCAGA
TACGACAAATGACCCTTTAGCTGTCCAAGATGTGCCAACACCTTCGCTTTTAAGGGGCAC
TTTGAGGACATATCAAAAGCAGGGTTTGAACTGGTTAGCATCATTATATAACAACAATAC
CAATGGTATTTTGGCTGACGAAATGGGGTTAGGTAAAACGATACAAACAATTTCATTGTT
ATCCTATCTTGCATGTGAAAAGCACAACTGGGGACCACACTTAATCGTAGTCCCAACCTC
GGTATTATTAAACTGGGAAATGGAATTCAAGAGGTTTGCTCCAGGATTTAAGGTGTTAAC
ATATTATGGAAACCCGCAACAAAGAAAGGAAAAAAGGAAAGGATGGAATAAACCAGATGC
CTTCCATGTATGTATTGTCTCGTATCAACTCATTGTCCAGGATCAACACTCATTTAAGAG
GAAAAAGTGGCAGTATATGGTTCTTGATGAGGCGCATAACATCAAGAACTTCAGATCGAC
CAGATGGCAAGCACTTCTAAATTTCAATACCCAAAGACGTATATTATTAACTGGTACACC
TTTACAAAATAATATTGCTGAGCTTTGGTCCTTACTCTATTTTTTAATGCCACAAACAGT
GATAGACGGACAAAAGGTCAGTGGTTTTGCTGATTTAGATGCATTTCAACAATGGTTTGG
AAGACCTGTAGATAAATTGATTGAAACTGGAGGAACATATGAACAAGATAACGAGACTAA
AAGGACAGTAGAAAAATTGCACCAAGTCTTAAGACCTTATCTCTTGAGAAGATTAAAAGC
TGATGTTGAAAAACAAATTCCTGGCAAATATGAGCATATTGTCTATTGTAAGTTGTCTAA
GAGACAGCGTTTTCTTTATGATGATTTCATGTCAAGAGCTCAAACGAAAGCTACATTAGC
TAGTGGTAATTTTATGTCCATTGTTAATTGTTTAATGCAATTACGGAAAGTTTGTAATCA
CCCGGATTTGTTTGAAGTTAGACCAATAAAAACATCATTTTTGTTTGGTGAATCGGTGAT
TGCCAGATATTCTGAAAGGGCAAATAGCATTACAAGAAGAATACATTTTCATGATAAAGA
CACATTAGTTGACCTACAAAATATCAATCTTCAATTTACTAATAATGATCTAGAAAAGAC
CTCATATCATACAAACACCATAAACAAATTAGCTTGCATCAATGAATTTGTCGAAGAAGT
ACAAAAACTAAGGAAACAAAATGCTGAGGAGGAAAGACAAAAGTCTAGACATTTGAAAAT
CAATACACAAAATATATCAAATTTTTATGAAGAATTTATGCAACAAAAACTAGATGAGCA
AGAAAATAAAATTAATTTTATTGGTTATTTGAATTCCCAAAGGTGCTCAAGGAAGACGGT
ATATGGTATGAATCTAATCAGGTTATTAGAAATGCCACATGTTTCTAATAATTGTATAGA
TGATCCAAATTACGACGATTTGATTAAACCTCTTCAAACTAGACTACTTGACGGAAGAAC
CACAATTGAGAAGTTTGCAGTTTTAACCCCAGGTGCTGTAACTTCGAATATTGGTGAGTT
GACGCTGGGAATGGATGAATTTGTTACTCCTAATAGCAAATCAGGCATAATTCCTTATGA
AGAATTAGTACAACTGGATAATCCGTTCCATCAGGTTCAAACAAAACTGACAATTGCTTT
CCCAGATAAGTCCTTATTACAGTATGACTGTGGTAAATTACAAAAGCTTGCAATCTTACT
TCAACAATTAAAAGATGGTGGTCACAGAGCTTTGATATTTACTCAAATGACAAAAGTTTT
AGATATTCTTGAACAGTTTCTAAACTATCATGGTTATCTATATATGAGACTTGATGGTGC
AACTAAAATCGAAGACCGTCAAATTCTCACAGAGAGATTTAACAGTGACCCTAAAATTAC
TGTTTTCATTTTATCTAGTAGATCGGGTGGTTTAGGTATCAACCTAACAGGTGCTGACAC
AGTTATTTTCTATGACTCTGACTGGAATCCTGCAATGGATAAGCAATGCCAGGACCGTTG
TCATAGAATTGGACAGACAAGGGATGTTCACATTTATAGGTTTGTGAGTGAACATACTAT
CGAGAGCAATATTTTAAAGAAAGCCAATCAGAAACGACAGTTAGATGATGTAATAATCCA
GAAAGGTGAATTCACAACAGATTACTTTAGCAAGCTTTCGGTGAAAGATCTTTTCGGATC
TGATGTTGTTGGTGACCTGCCTGTTATTGATACCAAGCCTCTTCTCGGATCTGATTCAGA
AGCAATTAAAGATCCGAAGAAGCTAGAGAAACTGCTTGCACAAGCAGAGGATGAAGATGA
TGTCAAAGCCGCAAATTCAGCACTACGTGAAGTCAATGTTGATGATGAGGATTTTGATGA
GTCATCAACCAATAAAACTGGTGGTAATATACTAAATGGTGACGACATTGATGAAGATGT
TGATGAATATGAGGGTACAAATCATGTCGAAGAATATATGCTCCGTTTTATTGCTAACGG
TTTTTATTTCTGACCTCAACTGGCTTGATTTCTGATATCCTCATTAACGTTCTGTATGAT
TATACAATGTTTAGTTGATTGTAATTTGTAATATTATATAGCATAAAAAATATAACTGCA
TCTTGATAAAGTAGTTGAAATTGAGTTATCTCAAGACTGATCAATATTAATGCCGGACAT
TGACAACAAGAGAACTAATTAGCAACTAAAATCAACAGATGAAATAAGATCAATAACTTG
GATTTTGATTCATAAGGAACGTATAAAAACTTTATTTATAATAGATATATCAAACTGTAT
TTAGAAATCAGTC

Coding sequence    

>CAGL0M01188g.cds
ATGTCGAAAAATAACAAACTGAATGGGAAAGACAACAGACAGAGCAAAATTGAGAAGCTT
TCGGAATTAAAATTGCGTCACGATCAACTGACAAATGAGTTATATCATCTACATGAATAC
ATATCACTGGTTGAATATGATCCATTCTATATACCGAATTCAGAAAACTATGAAAGACTA
CTGGAAGAAAAGGACGTGACGTGGGGGTCGATATTTCAGGAGAAGAAACAGCTACATAAC
GAAAGTAGCGGAAAGAAAGTTCGTAGATCAGTGAGACATCTTCGAGATTCTGGGTCCAGC
ACCATCAATGAGTTAGATACTATGTCTGAAAATGATATTAATCTGCTAAAAGAAGTTGAT
ATACTGGCAAAACAGAAACTACAAGATCTGAAATTACAGTTTTCAAATTCACATATAAAA
AAGAAAGGTAATACTAAACGTGCCAAAATTGTAAAACAAGTACCAAATCATCAGGATAAA
TCTGAAAGTCCTCAAATTTCTGAAAGAGATGTTAAGACTGTAGTGAAAGATTTGAAACCA
AATCATCGAGGTTCTGAAATCAAACCAGAAATTATGGAGTCAAGCGATGTAAAAAACGAA
ATCGAAAACTGCGACTTTAATGAAAAGCAATTGAAGTTATACAAAGATGACGACATCGCA
AGCGAGTCAGATTTTTATTTCACTACTTCATCGGAGGATGAATTGCCCAATAAGAGAAGA
GGAACGATAAAGAGAAGGAAAAGAATAAATTTATATGTGAACCCACCAAAGGCAGTCATA
ACAAACCCAGATAATATAGCTAATAGTCACTACCCCACCTTACACGAGTACTTAGACTCA
TTTAAGATATTAGAAGATGATATGACAAATGAGGAATATAACACATTCATAAAGGAACAG
CAAAGGTTTGCCAAAATGATCAAGAAAGGTATTGAAACTGGAGCTCTTAAGTATGATCCT
GTAACAGAGACCGTTCAACCTTCGGCACGAAAGGTGCCAAACATGTTCTCTCACGCAAAG
GTGGATCCAATACAATATATGTATAAGGAGCAAAACCTTCATATTCATCAAGAACATTTA
ATTAATCAAGGTCTGTTTTCATCCAAGCTTGTTCAAAACAGAAAAAAACAAAGAATAGCT
GGCGCTAAAAAAATTGCACAGATGATAGAGCAGCATTTCAAACATATCGCTGGTGCTGAA
GATCGCCGTTTAAAAGAAAACGAAAAGCAAAGAAAGGCAATAGCAAGAAATATTATCCAA
AGTGTCAAGAAGAGATGGAATTTAGCTGAAAAAGCATATAGAATTTTGAAAAAAGACGAA
GAGGAACAACTGAAAAGAATACAAGGAAAAGAACATTTATCAAAAATGTTGGAAAAAAGT
TCCAAACTTTTAGGAGCCCAACTGAAACAGCATCCTAACGAGGATGATATCGAAAATAGT
ACCAGTGACGATTTTTCTTCAACTGGTGACAGTGATAATTTATCATCATCTTCGGATGAG
GAATCTGATGATGAAATTAACGATTTATCAGAAGATCAAAAAAATAACATCAATGAGCTC
AAAACTAGCTCAACTTCTGCATTTAGCTCACCTGAAATTTCATCCCCATCTAAAAACCCC
GACTTGGGCCTAAATTCTCTTTTGACCAACGATTTCGAAAATGAATCTAATTCAAGTGAC
ACTAATGAAGAGTTTATAATGGGTGACTCTGACACCTCCCATTCTGATGACGAAAATCTG
ACTGATGACAGTGAAGATTCGAATGACGGCGAACATGATACTACATCAGATAATGAAAAA
TCAGACTTGTTTCCAGCAGATACGACAAATGACCCTTTAGCTGTCCAAGATGTGCCAACA
CCTTCGCTTTTAAGGGGCACTTTGAGGACATATCAAAAGCAGGGTTTGAACTGGTTAGCA
TCATTATATAACAACAATACCAATGGTATTTTGGCTGACGAAATGGGGTTAGGTAAAACG
ATACAAACAATTTCATTGTTATCCTATCTTGCATGTGAAAAGCACAACTGGGGACCACAC
TTAATCGTAGTCCCAACCTCGGTATTATTAAACTGGGAAATGGAATTCAAGAGGTTTGCT
CCAGGATTTAAGGTGTTAACATATTATGGAAACCCGCAACAAAGAAAGGAAAAAAGGAAA
GGATGGAATAAACCAGATGCCTTCCATGTATGTATTGTCTCGTATCAACTCATTGTCCAG
GATCAACACTCATTTAAGAGGAAAAAGTGGCAGTATATGGTTCTTGATGAGGCGCATAAC
ATCAAGAACTTCAGATCGACCAGATGGCAAGCACTTCTAAATTTCAATACCCAAAGACGT
ATATTATTAACTGGTACACCTTTACAAAATAATATTGCTGAGCTTTGGTCCTTACTCTAT
TTTTTAATGCCACAAACAGTGATAGACGGACAAAAGGTCAGTGGTTTTGCTGATTTAGAT
GCATTTCAACAATGGTTTGGAAGACCTGTAGATAAATTGATTGAAACTGGAGGAACATAT
GAACAAGATAACGAGACTAAAAGGACAGTAGAAAAATTGCACCAAGTCTTAAGACCTTAT
CTCTTGAGAAGATTAAAAGCTGATGTTGAAAAACAAATTCCTGGCAAATATGAGCATATT
GTCTATTGTAAGTTGTCTAAGAGACAGCGTTTTCTTTATGATGATTTCATGTCAAGAGCT
CAAACGAAAGCTACATTAGCTAGTGGTAATTTTATGTCCATTGTTAATTGTTTAATGCAA
TTACGGAAAGTTTGTAATCACCCGGATTTGTTTGAAGTTAGACCAATAAAAACATCATTT
TTGTTTGGTGAATCGGTGATTGCCAGATATTCTGAAAGGGCAAATAGCATTACAAGAAGA
ATACATTTTCATGATAAAGACACATTAGTTGACCTACAAAATATCAATCTTCAATTTACT
AATAATGATCTAGAAAAGACCTCATATCATACAAACACCATAAACAAATTAGCTTGCATC
AATGAATTTGTCGAAGAAGTACAAAAACTAAGGAAACAAAATGCTGAGGAGGAAAGACAA
AAGTCTAGACATTTGAAAATCAATACACAAAATATATCAAATTTTTATGAAGAATTTATG
CAACAAAAACTAGATGAGCAAGAAAATAAAATTAATTTTATTGGTTATTTGAATTCCCAA
AGGTGCTCAAGGAAGACGGTATATGGTATGAATCTAATCAGGTTATTAGAAATGCCACAT
GTTTCTAATAATTGTATAGATGATCCAAATTACGACGATTTGATTAAACCTCTTCAAACT
AGACTACTTGACGGAAGAACCACAATTGAGAAGTTTGCAGTTTTAACCCCAGGTGCTGTA
ACTTCGAATATTGGTGAGTTGACGCTGGGAATGGATGAATTTGTTACTCCTAATAGCAAA
TCAGGCATAATTCCTTATGAAGAATTAGTACAACTGGATAATCCGTTCCATCAGGTTCAA
ACAAAACTGACAATTGCTTTCCCAGATAAGTCCTTATTACAGTATGACTGTGGTAAATTA
CAAAAGCTTGCAATCTTACTTCAACAATTAAAAGATGGTGGTCACAGAGCTTTGATATTT
ACTCAAATGACAAAAGTTTTAGATATTCTTGAACAGTTTCTAAACTATCATGGTTATCTA
TATATGAGACTTGATGGTGCAACTAAAATCGAAGACCGTCAAATTCTCACAGAGAGATTT
AACAGTGACCCTAAAATTACTGTTTTCATTTTATCTAGTAGATCGGGTGGTTTAGGTATC
AACCTAACAGGTGCTGACACAGTTATTTTCTATGACTCTGACTGGAATCCTGCAATGGAT
AAGCAATGCCAGGACCGTTGTCATAGAATTGGACAGACAAGGGATGTTCACATTTATAGG
TTTGTGAGTGAACATACTATCGAGAGCAATATTTTAAAGAAAGCCAATCAGAAACGACAG
TTAGATGATGTAATAATCCAGAAAGGTGAATTCACAACAGATTACTTTAGCAAGCTTTCG
GTGAAAGATCTTTTCGGATCTGATGTTGTTGGTGACCTGCCTGTTATTGATACCAAGCCT
CTTCTCGGATCTGATTCAGAAGCAATTAAAGATCCGAAGAAGCTAGAGAAACTGCTTGCA
CAAGCAGAGGATGAAGATGATGTCAAAGCCGCAAATTCAGCACTACGTGAAGTCAATGTT
GATGATGAGGATTTTGATGAGTCATCAACCAATAAAACTGGTGGTAATATACTAAATGGT
GACGACATTGATGAAGATGTTGATGAATATGAGGGTACAAATCATGTCGAAGAATATATG
CTCCGTTTTATTGCTAACGGTTTTTATTTCTGA

Predicted translation product    

>CAGL0M01188g.aa
MSKNNKLNGKDNRQSKIEKLSELKLRHDQLTNELYHLHEYISLVEYDPFYIPNSENYERL
LEEKDVTWGSIFQEKKQLHNESSGKKVRRSVRHLRDSGSSTINELDTMSENDINLLKEVD
ILAKQKLQDLKLQFSNSHIKKKGNTKRAKIVKQVPNHQDKSESPQISERDVKTVVKDLKP
NHRGSEIKPEIMESSDVKNEIENCDFNEKQLKLYKDDDIASESDFYFTTSSEDELPNKRR
GTIKRRKRINLYVNPPKAVITNPDNIANSHYPTLHEYLDSFKILEDDMTNEEYNTFIKEQ
QRFAKMIKKGIETGALKYDPVTETVQPSARKVPNMFSHAKVDPIQYMYKEQNLHIHQEHL
INQGLFSSKLVQNRKKQRIAGAKKIAQMIEQHFKHIAGAEDRRLKENEKQRKAIARNIIQ
SVKKRWNLAEKAYRILKKDEEEQLKRIQGKEHLSKMLEKSSKLLGAQLKQHPNEDDIENS
TSDDFSSTGDSDNLSSSSDEESDDEINDLSEDQKNNINELKTSSTSAFSSPEISSPSKNP
DLGLNSLLTNDFENESNSSDTNEEFIMGDSDTSHSDDENLTDDSEDSNDGEHDTTSDNEK
SDLFPADTTNDPLAVQDVPTPSLLRGTLRTYQKQGLNWLASLYNNNTNGILADEMGLGKT
IQTISLLSYLACEKHNWGPHLIVVPTSVLLNWEMEFKRFAPGFKVLTYYGNPQQRKEKRK
GWNKPDAFHVCIVSYQLIVQDQHSFKRKKWQYMVLDEAHNIKNFRSTRWQALLNFNTQRR
ILLTGTPLQNNIAELWSLLYFLMPQTVIDGQKVSGFADLDAFQQWFGRPVDKLIETGGTY
EQDNETKRTVEKLHQVLRPYLLRRLKADVEKQIPGKYEHIVYCKLSKRQRFLYDDFMSRA
QTKATLASGNFMSIVNCLMQLRKVCNHPDLFEVRPIKTSFLFGESVIARYSERANSITRR
IHFHDKDTLVDLQNINLQFTNNDLEKTSYHTNTINKLACINEFVEEVQKLRKQNAEEERQ
KSRHLKINTQNISNFYEEFMQQKLDEQENKINFIGYLNSQRCSRKTVYGMNLIRLLEMPH
VSNNCIDDPNYDDLIKPLQTRLLDGRTTIEKFAVLTPGAVTSNIGELTLGMDEFVTPNSK
SGIIPYEELVQLDNPFHQVQTKLTIAFPDKSLLQYDCGKLQKLAILLQQLKDGGHRALIF
TQMTKVLDILEQFLNYHGYLYMRLDGATKIEDRQILTERFNSDPKITVFILSSRSGGLGI
NLTGADTVIFYDSDWNPAMDKQCQDRCHRIGQTRDVHIYRFVSEHTIESNILKKANQKRQ
LDDVIIQKGEFTTDYFSKLSVKDLFGSDVVGDLPVIDTKPLLGSDSEAIKDPKKLEKLLA
QAEDEDDVKAANSALREVNVDDEDFDESSTNKTGGNILNGDDIDEDVDEYEGTNHVEEYM
LRFIANGFYF*



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