CAGL0H05533g


highly similar to uniprot|P32333 Saccharomyces cerevisiae YPL082c MOT1

Genomic environment map

Element type: CDS
Element length: 5715 nucleotides,
on sense strand of
Cagl0H: 538045..543759.
Other names:
CAGL-CDS0041.1
CAGL-IPF4423
Coding sequence: 1905 codons.
Database cross references:
EMBL: CR380954
GeneID: 2888821
GenomeReviews: CR380954_GR
HOGENOM: HBG356018

Computed results  

None available yet


Homologs and Orthologs

Homologs in protein family: GL3C1614
Orthologs: strict determination not possible; homologs must be refined manually

Protein CAGL0H05533p  


highly similar to uniprot|P32333 Saccharomyces cerevisiae YPL082c MOT1; SubName: Full=Similar to uniprot|P32333 Saccharomyces cerevisiae YPL082c MOT1;

Protein domain map

Protein length: 1904 amino acids
Protein family: GL3C1614
Database cross references:
Gene3D: G3DSA:1.25.10.10
InterPro: IPR000330
InterPro: IPR000357
InterPro: IPR001650
InterPro: IPR011989
InterPro: IPR014001
InterPro: IPR014021
InterPro: IPR016024
InterPro: IPR022707
KEGG: cgr:CAGL0H05533g
PROSITE: PS51192
PROSITE: PS51194
Pfam: PF00176
Pfam: PF00271
Pfam: PF12054
RefSeq: XP_447036.1
SMART: SM00487
SMART: SM00490
UniProtKB/TrEMBL: Q6FRV8
UniProtKB: Q6FRV8_CANGA

Phylogeny  

PhylomeDB:CAGL0H05533g

Computed results for CAGL0H05533p  

Blastp Genolevures
Blastp Uniprot

Gene Ontology terms  


Sequence data  


Nucleotide sequence    

>CAGL0H05533g.nt
ATGACATCAAAAGTATCTAGACTGGATAGGCAAGTCATATTGCTGGAGACAGGATCTACA
CAAACAATCAGAAATGTGGCTGCAGATCAACTAGGAGAACTAGCAAAGCAACATCCTGAA
GATATCCTGTCTCTCTTAAGCCGGGTATACCCTTTTCTAAGTTCTAAGAAATGGGAAACC
AGAGTTACAGCAGCTAGAGCTATGGGCGGTATCTTGAGCAATGCCTCCGTGTGGGATCCT
AATGAAGGGGAGGTGAAGGAAGAAGAAGAATCACATATGAACTCTGAGATAAAGAAGGAA
AATCAGAATAATGATCATGCGGAAATGGAAAACACAGTTATTAAAGAGGAACCAGACCAA
GATAACGGAGTATCAGTACCGAACCACACTAATAATGACAATAATATTGAAACTGTGAAT
GCCAAAGTGAAATTAGAGCAAGACATACAACTAAAATTAGAAGAACTGATAAAAGAAGAT
AGTAGTTTATTGGATGATAATAAGAATGCTGATAACTGTTTAACATTATCAAACTGGCAT
TTAAATGAATTATTCAAATCTGGAAAAGTTTTCCTTGCATCGAGTATAAATGATTATGAT
GATAAAAAAGTAGCATCTAATTCACCGTCTACACTAAGTTCGGATATCGAAGATGCATCT
ATGAAGAAGGAAAATGATGCTGAAAATCATTGTAGTAAATCTTCAAATATTGAAGGAGGC
AATAGTAGTAAAAAATCAGCAAGAATGCTTGCAATGGCAAAGAGGAAAAAGAAGATGCAA
AAATCCAAGACTACTACCACTATGGAGGTCAATTTGTCAGAAAGCTCATTATCGAAGAAA
TTGATGGATGATCCTTCTGCAGTAAAATCGGATGCGGTTAAAATGGAAAACCCAAAACTA
GCTATTACTGACCAAGCAGATCCCAACGCCATAATGGTGGAAGCGGTTGTACCTAAAATT
CTAGAGAAGCATGAAAAGGTCGCAGGACTTGTGTGGCAATTTCAAGGAGTATTTGAATTG
TTGTTACAAAATTTGATGCATGACAACTGGGAAGTAAGACATGGTGCCACTTTAGGCTTA
AGAGAACTTATGAAAAAGCATGCTTATGGTATTAATAGGATAAAAGGGAAGACTCGGAAG
GAAAATAATGATAGAAACTATCAGGGCCTCGAGGATCTAGCTACCAGACTGTTGACCATC
TTTGCTCTTGATAGATTTGGTGATTACATATATGATACAGTAGTTGCACCGGTTAGAGAA
TCTGCTGCCCAGATATTGGCTGCCCTATTGATCAACTTACCTGATGATCTAGCGCTGAAA
GTATATATGAAGTTGGAAGACCTTGTTTTTCAGAACCCCGAAGTTACAGGACTTCCGAAT
AAAATATGGGAAGCTACTCATGGTGGACTGTTAGGTATAAGATATTTTGTTAGCATTAAA
CAAGAATTTCTGATAGAGCAAAATCTTCTAGACAAAGTTGTTCAAACCGTGCTCTATGGT
CTGAATCAAAATGATGATGACGTCAAATCAGTTGCAGCTTCGATACTGACACCTATTACA
GCTGAATTTGTCAAGTTAGATACAGATACTCTCGATATTGTGCTGACAACAATCTGGAAT
TCTTTAATTCATTTAGATGACGATTTGGCCTCCAGTGTGGGTTCTGTTATGGATTTACTA
GCAAACTTATGTCAATATAAAGAGGTTCTAGATGTTTTGAAACATAAAGCCACTGAACAG
CCGTTAGAATGGTCATTCAAGTCTCTAGTGCCCAAATTATATCCCTTTTTGAGGCATTCG
ATTTCTTCTGTGAGAAAATCTGTTCTCAATCTGTTACAGTCATTTTTGAGTATCAAAGAC
GAATCGACAAAACATTGGTTGAATGGAAAGGTATTTAGATTAGTTTTCCAGAATATTCTA
TTTGAACAGAATCCAGATATCTTAAACCTGTCTTATGAAGTCTATACTTCTTTGCTCACT
CATTATCAATTAAAACACACTGAAAAGACATTAGACCATGCATTTTGCAAACATCTGCAA
CCATTACTTCATCTGTTGAATACACCAATTGGTGAAAAGGGTAAGAATTATAGTATGGAA
TCTCATTACATTTTAAAGCCTTCACCACGTTATCAACTTCACCCTGAGAAAAAAAGAAGT
ATATCGGAAGCCAACAATGCTTCGGATATTCCTAACCCAAGACCAAATGAAAACATCAAC
ATTGATATTCCTATGATTAATGGTGACGTGACATTATTAGGTGAACAGAAGATAATGAAT
ACTAGAGTTCTTGCAGCAAAAGCTTTCGGTTTTACTCTCGCAATGTTCCAGGAAGCAACA
GTGCAATCATTCTTCGCCAACGTGCTTGTGCGTTGTTTAGACTTACCTTATGCAACACCA
AGAATGCTAACTGCTATTATCGTTAACCGGTTCTGTAAGTTTTGGGTTGATCGTCATGAT
GACGTACCAGAGGTTCCAAAATTTGTATCAGAGATTTTTGGCGCCACTATGAATGAGCAG
TTGAATAATCCATCAAAGCTACCTGTATTCAGGGAACTAATTCCAAGTTTGAAGGCTCTA
CGTACTAGTTGTCAAAATCTATTTGCAACATTTGTGGATGTGGGTATGCTCCCACAACAT
AAGTTACCTAGTGTTGCTATAGTGGTCCAGGGTGAATCCGAAGCAGGACCTGAGGCTTTT
GGTCTCGAAACTGCTGAAAAGGTATATCATGACTACTATGACAAAATGTATAAAAACCTT
GGTAATTCGTACAAGTTGTTAGCCAAGAAGCCATTGGAAGATGCAAAGCATAGGGTCAAG
CAATCCATTGAATCTGCAAAGGAATCAAAACAAAAAAGAATATGCTCAATATTGTCAAAC
TATGCATCATCTGTGCTTATGTTCTCTGAACTACCTCCAAAATTAAACCCTATAATCAGA
TCCTTAATGGACTCAGTCAAAGAGGAACCTAACGAGGCCCTTCAGAAGATGTCTTGTGAA
TCTGTTATTTATTTAATTCATGAACTACTTAAATGTAATAAGGCACCAGTGGCAAATAAG
ATTGTGAAGAATCTATGTGGTTTCTTGTGTGTGGATACTTCAGAAGTTCCTGACTTCCAA
CAAAATCTAAGCTACCAAGATAGGCTGTACACTTTTATCAAAGAGCCAGATGCATTTGTT
ATTAATGAGAATGTTGAATTAATGAAGGTAGCAGAGGAGGCAAGACTGAAACGTAAAGGT
GGTATATACGCAATGGGTACATTGCTGGAAATCTGTGGTTCTTCTGCATTAGATGATATC
CCACAGTTAAAGAAAGTGTTTTTGGAGCCATTAGAAAATATAAGTGATGTTTCTTCAATT
GATGTTATCAAAGGTCAAGCAGTCACTGATTATTTCGGTATAGTTAGAGTATTATTTCCT
TATATGGATCAGTCTTTGCAGGAGTCTGTTGTTATTGCTAAATTTCCGAGAATGTTGGAC
TTTTTAAAGTGCCCATACTCTGTCATAAGGTATTCAGTAGCCCGTACTTTTGCCGACTTA
GCAAAGTATAAACCAATAAAGGTCATGCCATTTCTAATAAAAAATGTACTACCTATGATA
AATGATGCCGGTTCATTGTTCAATAGGCAAGGTGCTACAGAATTAATATTTCATTTATCT
GTGTCTATGGAAGCAGATATTCTACCATATGTTATCTTCTTGATCGTGCCGCTACTGGGT
AGAATGAGTGACCCTAATGAAGATATAAGAAATCTGGCAACAACTACATTTGCATCCATT
ATTAAGATTGTTCCATTAGAAGAAGGTATTAAAGACCCTGAAGGGATGCCGGAAGAGTTA
ATGAAGGGGCGTGAAAGAGAAAGAGATTTTATAAAACAAATGATGGACCCATCCAAGGCA
AAACCTTTCAAGTTGCCAGTTGCGATAAAGGCAACCTTAAGAAAATATCAACAAGACGGT
ATTAATTGGTTAGCATTTCTCAATAAGTATCATTTACATGGTATCCTTTGCGATGATATG
GGTTTGGGTAAAACTCTTCAGACTATTTGCATTATTGCCTCAGATCAGTATCTAAGACAA
GAAGAATATAAGTTAAGTGGAAACATCGAGTGTCGACCTCTGCCTTCGCTTATTGTCTGC
CCACCATCGTTAACGGGTCATTGGGAGAATGAATTTGAACAGTATTCACCATTTTTGAAA
ATTGTGGTGTATGCCGGTGGACCGTCGGTTAGGCAACCTTTAAGGAAGCAACTAAGTTCT
GCAGATATTATTATAACTTCCTATGATGTGGCTAGAAATGACCTGGACACTATTTCTTCT
TATGATTACAATTATTGTGTTTTGGATGAAGGCCATTTAATCAAAAATGCTCAATCCAAG
CTGGCCAAAGCTGTGAAACTAATAAAGGCCAACCATAGACTAATACTAACAGGTACCCCT
ATCCAGAATAATGTTGTAGAGCTTTGGTCGTTATTCGATTTCTTGATGCCAGGATTTTTA
GGTACCGAAAAATCTTTCCAAGAGCGTTTTGCGAAGCCTATCGCAGCATCAAGAAATAGT
AAGACGTCATCAAAAGAGCAAGAAGCAGGAGCTTTGGCTTTGGAAGCGTTGCACAAACAA
GTCTTGCCATTTATGTTGAGACGTCTTAAGGAGGATGTTTTGTCTGATTTACCACCAAAG
ATTATACAAGATTACTACTGTGAATTGAGTGATCTACAAAAGCAGCTTTACGAAGATTTT
GCTAAGAAACAGAAAAATGTTGTAGAAAAGGACATCCAAAATACTGCAGATGTAGATAGC
AAACAACACATATTTCAGGCCTTACAGTATATGAGAAAGCTGTGTAATCATCCTGCACTT
GTCTTATCTAATGATCATCCTCAATTAAAGCAAATACAAAACTATCTGAAACAAACGGGG
TGCGATTTGCATGATATAAGAAATGCGCCGAAACTAACTGCTCTCAGAACGTTGTTATTC
GAATGTGGTATTGGTGAAGCTGATATGGACAAAAAGGTAACTGGCGAGCAACTATTGACG
GGAAGTGTTATATCTCAGCATAGAGCTTTGATTTTCTGTCAACTGAAGGACATGTTAGAT
ATGATTGAAAATGATCTTTTTAAGAGATATATGCCCTCTGTGTCTTATATGAGGTTAGAT
GGTAGTGTCGATCCTAGGGACAGGCAAAAGGTTGTTAGGAAATTCAATGAAGACCCTTCC
ATTGACTGCCTATTATTGACGACTAAAGTAGGTGGGTTGGGTTTGAACCTAACTGGTGCC
GATACTGTTATATTTGTTGAGCATGATTGGAATCCAATGAATGACTTACAAGCTATGGAT
AGAGCTCATAGACTTGGTCAAAAGAAAGTTGTGAATGTGTATCGTATTGTGACGAAAGGT
ACATTAGAAGAGAAGATAATGGGTCTTCAGAAGTTTAAGATGAATATTGCATCTACCGTT
GTTAATCAGCAAAATAGCGGTCTGGCATCAATGGATACACATCAATTATTAGATTTATTT
GACACAGATAACGTACCATCGAATAATGCTGGTGAAGTAGCAGAATCCGGTGATAAATTG
CCAGATGATGTTGCTAATGAAACAGGTTTAAGTGGGAAAGCTAAGGAAGCCTTGGGTGAT
CTTAAGGAACTTTGGGATCCATCTCAGTATGAAGATGAATACAATTTGGATAATTTCATT
AAGACATTAAAATAA

Coding sequence    

>CAGL0H05533g.cds
ATGACATCAAAAGTATCTAGACTGGATAGGCAAGTCATATTGCTGGAGACAGGATCTACA
CAAACAATCAGAAATGTGGCTGCAGATCAACTAGGAGAACTAGCAAAGCAACATCCTGAA
GATATCCTGTCTCTCTTAAGCCGGGTATACCCTTTTCTAAGTTCTAAGAAATGGGAAACC
AGAGTTACAGCAGCTAGAGCTATGGGCGGTATCTTGAGCAATGCCTCCGTGTGGGATCCT
AATGAAGGGGAGGTGAAGGAAGAAGAAGAATCACATATGAACTCTGAGATAAAGAAGGAA
AATCAGAATAATGATCATGCGGAAATGGAAAACACAGTTATTAAAGAGGAACCAGACCAA
GATAACGGAGTATCAGTACCGAACCACACTAATAATGACAATAATATTGAAACTGTGAAT
GCCAAAGTGAAATTAGAGCAAGACATACAACTAAAATTAGAAGAACTGATAAAAGAAGAT
AGTAGTTTATTGGATGATAATAAGAATGCTGATAACTGTTTAACATTATCAAACTGGCAT
TTAAATGAATTATTCAAATCTGGAAAAGTTTTCCTTGCATCGAGTATAAATGATTATGAT
GATAAAAAAGTAGCATCTAATTCACCGTCTACACTAAGTTCGGATATCGAAGATGCATCT
ATGAAGAAGGAAAATGATGCTGAAAATCATTGTAGTAAATCTTCAAATATTGAAGGAGGC
AATAGTAGTAAAAAATCAGCAAGAATGCTTGCAATGGCAAAGAGGAAAAAGAAGATGCAA
AAATCCAAGACTACTACCACTATGGAGGTCAATTTGTCAGAAAGCTCATTATCGAAGAAA
TTGATGGATGATCCTTCTGCAGTAAAATCGGATGCGGTTAAAATGGAAAACCCAAAACTA
GCTATTACTGACCAAGCAGATCCCAACGCCATAATGGTGGAAGCGGTTGTACCTAAAATT
CTAGAGAAGCATGAAAAGGTCGCAGGACTTGTGTGGCAATTTCAAGGAGTATTTGAATTG
TTGTTACAAAATTTGATGCATGACAACTGGGAAGTAAGACATGGTGCCACTTTAGGCTTA
AGAGAACTTATGAAAAAGCATGCTTATGGTATTAATAGGATAAAAGGGAAGACTCGGAAG
GAAAATAATGATAGAAACTATCAGGGCCTCGAGGATCTAGCTACCAGACTGTTGACCATC
TTTGCTCTTGATAGATTTGGTGATTACATATATGATACAGTAGTTGCACCGGTTAGAGAA
TCTGCTGCCCAGATATTGGCTGCCCTATTGATCAACTTACCTGATGATCTAGCGCTGAAA
GTATATATGAAGTTGGAAGACCTTGTTTTTCAGAACCCCGAAGTTACAGGACTTCCGAAT
AAAATATGGGAAGCTACTCATGGTGGACTGTTAGGTATAAGATATTTTGTTAGCATTAAA
CAAGAATTTCTGATAGAGCAAAATCTTCTAGACAAAGTTGTTCAAACCGTGCTCTATGGT
CTGAATCAAAATGATGATGACGTCAAATCAGTTGCAGCTTCGATACTGACACCTATTACA
GCTGAATTTGTCAAGTTAGATACAGATACTCTCGATATTGTGCTGACAACAATCTGGAAT
TCTTTAATTCATTTAGATGACGATTTGGCCTCCAGTGTGGGTTCTGTTATGGATTTACTA
GCAAACTTATGTCAATATAAAGAGGTTCTAGATGTTTTGAAACATAAAGCCACTGAACAG
CCGTTAGAATGGTCATTCAAGTCTCTAGTGCCCAAATTATATCCCTTTTTGAGGCATTCG
ATTTCTTCTGTGAGAAAATCTGTTCTCAATCTGTTACAGTCATTTTTGAGTATCAAAGAC
GAATCGACAAAACATTGGTTGAATGGAAAGGTATTTAGATTAGTTTTCCAGAATATTCTA
TTTGAACAGAATCCAGATATCTTAAACCTGTCTTATGAAGTCTATACTTCTTTGCTCACT
CATTATCAATTAAAACACACTGAAAAGACATTAGACCATGCATTTTGCAAACATCTGCAA
CCATTACTTCATCTGTTGAATACACCAATTGGTGAAAAGGGTAAGAATTATAGTATGGAA
TCTCATTACATTTTAAAGCCTTCACCACGTTATCAACTTCACCCTGAGAAAAAAAGAAGT
ATATCGGAAGCCAACAATGCTTCGGATATTCCTAACCCAAGACCAAATGAAAACATCAAC
ATTGATATTCCTATGATTAATGGTGACGTGACATTATTAGGTGAACAGAAGATAATGAAT
ACTAGAGTTCTTGCAGCAAAAGCTTTCGGTTTTACTCTCGCAATGTTCCAGGAAGCAACA
GTGCAATCATTCTTCGCCAACGTGCTTGTGCGTTGTTTAGACTTACCTTATGCAACACCA
AGAATGCTAACTGCTATTATCGTTAACCGGTTCTGTAAGTTTTGGGTTGATCGTCATGAT
GACGTACCAGAGGTTCCAAAATTTGTATCAGAGATTTTTGGCGCCACTATGAATGAGCAG
TTGAATAATCCATCAAAGCTACCTGTATTCAGGGAACTAATTCCAAGTTTGAAGGCTCTA
CGTACTAGTTGTCAAAATCTATTTGCAACATTTGTGGATGTGGGTATGCTCCCACAACAT
AAGTTACCTAGTGTTGCTATAGTGGTCCAGGGTGAATCCGAAGCAGGACCTGAGGCTTTT
GGTCTCGAAACTGCTGAAAAGGTATATCATGACTACTATGACAAAATGTATAAAAACCTT
GGTAATTCGTACAAGTTGTTAGCCAAGAAGCCATTGGAAGATGCAAAGCATAGGGTCAAG
CAATCCATTGAATCTGCAAAGGAATCAAAACAAAAAAGAATATGCTCAATATTGTCAAAC
TATGCATCATCTGTGCTTATGTTCTCTGAACTACCTCCAAAATTAAACCCTATAATCAGA
TCCTTAATGGACTCAGTCAAAGAGGAACCTAACGAGGCCCTTCAGAAGATGTCTTGTGAA
TCTGTTATTTATTTAATTCATGAACTACTTAAATGTAATAAGGCACCAGTGGCAAATAAG
ATTGTGAAGAATCTATGTGGTTTCTTGTGTGTGGATACTTCAGAAGTTCCTGACTTCCAA
CAAAATCTAAGCTACCAAGATAGGCTGTACACTTTTATCAAAGAGCCAGATGCATTTGTT
ATTAATGAGAATGTTGAATTAATGAAGGTAGCAGAGGAGGCAAGACTGAAACGTAAAGGT
GGTATATACGCAATGGGTACATTGCTGGAAATCTGTGGTTCTTCTGCATTAGATGATATC
CCACAGTTAAAGAAAGTGTTTTTGGAGCCATTAGAAAATATAAGTGATGTTTCTTCAATT
GATGTTATCAAAGGTCAAGCAGTCACTGATTATTTCGGTATAGTTAGAGTATTATTTCCT
TATATGGATCAGTCTTTGCAGGAGTCTGTTGTTATTGCTAAATTTCCGAGAATGTTGGAC
TTTTTAAAGTGCCCATACTCTGTCATAAGGTATTCAGTAGCCCGTACTTTTGCCGACTTA
GCAAAGTATAAACCAATAAAGGTCATGCCATTTCTAATAAAAAATGTACTACCTATGATA
AATGATGCCGGTTCATTGTTCAATAGGCAAGGTGCTACAGAATTAATATTTCATTTATCT
GTGTCTATGGAAGCAGATATTCTACCATATGTTATCTTCTTGATCGTGCCGCTACTGGGT
AGAATGAGTGACCCTAATGAAGATATAAGAAATCTGGCAACAACTACATTTGCATCCATT
ATTAAGATTGTTCCATTAGAAGAAGGTATTAAAGACCCTGAAGGGATGCCGGAAGAGTTA
ATGAAGGGGCGTGAAAGAGAAAGAGATTTTATAAAACAAATGATGGACCCATCCAAGGCA
AAACCTTTCAAGTTGCCAGTTGCGATAAAGGCAACCTTAAGAAAATATCAACAAGACGGT
ATTAATTGGTTAGCATTTCTCAATAAGTATCATTTACATGGTATCCTTTGCGATGATATG
GGTTTGGGTAAAACTCTTCAGACTATTTGCATTATTGCCTCAGATCAGTATCTAAGACAA
GAAGAATATAAGTTAAGTGGAAACATCGAGTGTCGACCTCTGCCTTCGCTTATTGTCTGC
CCACCATCGTTAACGGGTCATTGGGAGAATGAATTTGAACAGTATTCACCATTTTTGAAA
ATTGTGGTGTATGCCGGTGGACCGTCGGTTAGGCAACCTTTAAGGAAGCAACTAAGTTCT
GCAGATATTATTATAACTTCCTATGATGTGGCTAGAAATGACCTGGACACTATTTCTTCT
TATGATTACAATTATTGTGTTTTGGATGAAGGCCATTTAATCAAAAATGCTCAATCCAAG
CTGGCCAAAGCTGTGAAACTAATAAAGGCCAACCATAGACTAATACTAACAGGTACCCCT
ATCCAGAATAATGTTGTAGAGCTTTGGTCGTTATTCGATTTCTTGATGCCAGGATTTTTA
GGTACCGAAAAATCTTTCCAAGAGCGTTTTGCGAAGCCTATCGCAGCATCAAGAAATAGT
AAGACGTCATCAAAAGAGCAAGAAGCAGGAGCTTTGGCTTTGGAAGCGTTGCACAAACAA
GTCTTGCCATTTATGTTGAGACGTCTTAAGGAGGATGTTTTGTCTGATTTACCACCAAAG
ATTATACAAGATTACTACTGTGAATTGAGTGATCTACAAAAGCAGCTTTACGAAGATTTT
GCTAAGAAACAGAAAAATGTTGTAGAAAAGGACATCCAAAATACTGCAGATGTAGATAGC
AAACAACACATATTTCAGGCCTTACAGTATATGAGAAAGCTGTGTAATCATCCTGCACTT
GTCTTATCTAATGATCATCCTCAATTAAAGCAAATACAAAACTATCTGAAACAAACGGGG
TGCGATTTGCATGATATAAGAAATGCGCCGAAACTAACTGCTCTCAGAACGTTGTTATTC
GAATGTGGTATTGGTGAAGCTGATATGGACAAAAAGGTAACTGGCGAGCAACTATTGACG
GGAAGTGTTATATCTCAGCATAGAGCTTTGATTTTCTGTCAACTGAAGGACATGTTAGAT
ATGATTGAAAATGATCTTTTTAAGAGATATATGCCCTCTGTGTCTTATATGAGGTTAGAT
GGTAGTGTCGATCCTAGGGACAGGCAAAAGGTTGTTAGGAAATTCAATGAAGACCCTTCC
ATTGACTGCCTATTATTGACGACTAAAGTAGGTGGGTTGGGTTTGAACCTAACTGGTGCC
GATACTGTTATATTTGTTGAGCATGATTGGAATCCAATGAATGACTTACAAGCTATGGAT
AGAGCTCATAGACTTGGTCAAAAGAAAGTTGTGAATGTGTATCGTATTGTGACGAAAGGT
ACATTAGAAGAGAAGATAATGGGTCTTCAGAAGTTTAAGATGAATATTGCATCTACCGTT
GTTAATCAGCAAAATAGCGGTCTGGCATCAATGGATACACATCAATTATTAGATTTATTT
GACACAGATAACGTACCATCGAATAATGCTGGTGAAGTAGCAGAATCCGGTGATAAATTG
CCAGATGATGTTGCTAATGAAACAGGTTTAAGTGGGAAAGCTAAGGAAGCCTTGGGTGAT
CTTAAGGAACTTTGGGATCCATCTCAGTATGAAGATGAATACAATTTGGATAATTTCATT
AAGACATTAAAATAA

Predicted translation product    

>CAGL0H05533g.aa
MTSKVSRLDRQVILLETGSTQTIRNVAADQLGELAKQHPEDILSLLSRVYPFLSSKKWET
RVTAARAMGGILSNASVWDPNEGEVKEEEESHMNSEIKKENQNNDHAEMENTVIKEEPDQ
DNGVSVPNHTNNDNNIETVNAKVKLEQDIQLKLEELIKEDSSLLDDNKNADNCLTLSNWH
LNELFKSGKVFLASSINDYDDKKVASNSPSTLSSDIEDASMKKENDAENHCSKSSNIEGG
NSSKKSARMLAMAKRKKKMQKSKTTTTMEVNLSESSLSKKLMDDPSAVKSDAVKMENPKL
AITDQADPNAIMVEAVVPKILEKHEKVAGLVWQFQGVFELLLQNLMHDNWEVRHGATLGL
RELMKKHAYGINRIKGKTRKENNDRNYQGLEDLATRLLTIFALDRFGDYIYDTVVAPVRE
SAAQILAALLINLPDDLALKVYMKLEDLVFQNPEVTGLPNKIWEATHGGLLGIRYFVSIK
QEFLIEQNLLDKVVQTVLYGLNQNDDDVKSVAASILTPITAEFVKLDTDTLDIVLTTIWN
SLIHLDDDLASSVGSVMDLLANLCQYKEVLDVLKHKATEQPLEWSFKSLVPKLYPFLRHS
ISSVRKSVLNLLQSFLSIKDESTKHWLNGKVFRLVFQNILFEQNPDILNLSYEVYTSLLT
HYQLKHTEKTLDHAFCKHLQPLLHLLNTPIGEKGKNYSMESHYILKPSPRYQLHPEKKRS
ISEANNASDIPNPRPNENINIDIPMINGDVTLLGEQKIMNTRVLAAKAFGFTLAMFQEAT
VQSFFANVLVRCLDLPYATPRMLTAIIVNRFCKFWVDRHDDVPEVPKFVSEIFGATMNEQ
LNNPSKLPVFRELIPSLKALRTSCQNLFATFVDVGMLPQHKLPSVAIVVQGESEAGPEAF
GLETAEKVYHDYYDKMYKNLGNSYKLLAKKPLEDAKHRVKQSIESAKESKQKRICSILSN
YASSVLMFSELPPKLNPIIRSLMDSVKEEPNEALQKMSCESVIYLIHELLKCNKAPVANK
IVKNLCGFLCVDTSEVPDFQQNLSYQDRLYTFIKEPDAFVINENVELMKVAEEARLKRKG
GIYAMGTLLEICGSSALDDIPQLKKVFLEPLENISDVSSIDVIKGQAVTDYFGIVRVLFP
YMDQSLQESVVIAKFPRMLDFLKCPYSVIRYSVARTFADLAKYKPIKVMPFLIKNVLPMI
NDAGSLFNRQGATELIFHLSVSMEADILPYVIFLIVPLLGRMSDPNEDIRNLATTTFASI
IKIVPLEEGIKDPEGMPEELMKGRERERDFIKQMMDPSKAKPFKLPVAIKATLRKYQQDG
INWLAFLNKYHLHGILCDDMGLGKTLQTICIIASDQYLRQEEYKLSGNIECRPLPSLIVC
PPSLTGHWENEFEQYSPFLKIVVYAGGPSVRQPLRKQLSSADIIITSYDVARNDLDTISS
YDYNYCVLDEGHLIKNAQSKLAKAVKLIKANHRLILTGTPIQNNVVELWSLFDFLMPGFL
GTEKSFQERFAKPIAASRNSKTSSKEQEAGALALEALHKQVLPFMLRRLKEDVLSDLPPK
IIQDYYCELSDLQKQLYEDFAKKQKNVVEKDIQNTADVDSKQHIFQALQYMRKLCNHPAL
VLSNDHPQLKQIQNYLKQTGCDLHDIRNAPKLTALRTLLFECGIGEADMDKKVTGEQLLT
GSVISQHRALIFCQLKDMLDMIENDLFKRYMPSVSYMRLDGSVDPRDRQKVVRKFNEDPS
IDCLLLTTKVGGLGLNLTGADTVIFVEHDWNPMNDLQAMDRAHRLGQKKVVNVYRIVTKG
TLEEKIMGLQKFKMNIASTVVNQQNSGLASMDTHQLLDLFDTDNVPSNNAGEVAESGDKL
PDDVANETGLSGKAKEALGDLKELWDPSQYEDEYNLDNFIKTLK*



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