CAGL0K07788g


highly similar to uniprot|P07702 Saccharomyces cerevisiae YBR115c LYS2 Alpha aminoadipate reductase, catalyzes the reduction of alpha-aminoadipate to alpha-aminoadipate 6-semialdehyde, which is the fifth step in biosynthesis of lysine

Genomic environment map

Element type: CDS
Element length: 4125 nucleotides,
on anti-sense strand of
Cagl0K: complement(774352..778476).
Other names:
CAGL-CDS0150.1
CAGL-IPF3152
Coding sequence: 1375 codons.
Database cross references:
EMBL: CR380957
GeneID: 2890361
HOGENOM: Q6FMI5

Computed results  

None available yet

Homologs and Orthologs

Homologs in protein families: GL3R2044 GL3R2044.N1
Orthologs: strict determination not possible; homologs must be refined manually

Protein CAGL0K07788p  


highly similar to uniprot|P07702 Saccharomyces cerevisiae YBR115c LYS2 Aminoadipate-semialdehyde dehydrogenase

Protein domain map

Protein length: 1374 amino acids
Protein family: GL3R2044
Database cross references:
Gene3D: G3DSA:1.10.1200.10
Gene3D: G3DSA:3.40.50.720
InterPro: IPR000873
InterPro: IPR006162
InterPro: IPR006163
InterPro: IPR009081
InterPro: IPR010071
InterPro: IPR010080
InterPro: IPR013120
InterPro: IPR014397
InterPro: IPR016040
KEGG: cgr:CAGL0K07788g
PIRSF: PIRSF001617
PRINTS: PR00154
PROSITE: PS00012
PROSITE: PS00455
PROSITE: PS50075
Pfam: PF00501
Pfam: PF00550
Pfam: PF07993
RefSeq: XP_448559.1
TIGRFAMs: TIGR01733
TIGRFAMs: TIGR01746
TIGRFAMs: TIGR03443
UniProtKB/Swiss-Prot: Q6FMI5
UniprotKB: LYS2_CANGA

Computed results for CAGL0K07788p  

Blastp Genolevures
Blastp Uniprot

Gene Ontology terms  

None available yet

Sequence data  

Nucleotide sequence

>CAGL0K07788g.nt
AATGGAACAAATCAGATTCCTGACAAGATTATTGGATTTCTATACTTCATGCTTAAACAT
CACACAGGTGGTATGTATGGGTGTATAGTCCTGGTGTATGGGTCTATAGTTATAGCAGTC
ACATTCTAATGCCCAAGGGGGATAAGTCGCAAGCGCAGACTCCAGTCAAGCCATGAGAAG
GTATAAGTGCTACATTTAAAAATGTGGGAACCCAAGTACATGGATGTGGCACATATATAT
AACGCTACATATTATATCTTTAGTTACAATGTACTACAAATGCTGTGATACATAACATAG
CCTCAAAATATATATTTATTTACCTCGTAAAGACTCTAAATAATGTCTCAATACTTATCC
AACTTTAGTTAACATTAACTCCAACACAAACCACCTTACTCATACTCCCATAAATAACGA
AAAACTCCTAAAATGACACACACACTTTCCATCACCAAAACATTAAATTAAAAAAAAAGA
GAGAATCCAATAATATCACTTTTAACGTATATTAACTTCCCTTCATCTCAAGAAACAAAT
TCCGTCGGAATTCTGTTTCTGTCGTTCACTTGCTTCCCATGAGGAAATTCCGTCTCTATA
ATTGTTACTGGTTCGCATTGAAATTCCAATGCCATCGCATTAATCGCATTACTTCGATGA
GTTTATTACTAACAATGGCCCTTATAGAAGACTATTGACTAGAAAAATGACTACTAGTGG
AAAAAAAATTATGGTACCAACGGAATTTTGTTAACTGTGAGAGAGCAACACTGAATGATC
ACGTTCTGCAAAGGCCCTTTCTTCGAGATGACTCTTAATTGCGAAGACGGTACAGCTTCT
ATAGCTACAAACCTGTTCTTCCCGAACTATATAAATCGACCAATTGTATAATCTTTAGCA
TTGATTATCCTTACTTTTTCACTACAACTAGTCCCAAAGACACATAGGTAAATACACTTT
CAATTGATTCGTCAAGATCAAGTCAAGAAAACAAACTACAATGTCCTGGAAAGAGAGACT
AGATAATCCAACACTTTCAGTGTGGCCACATGATTACTTGAGGCCACACGCCGAGCCATT
CGTCGAACAAGGAACGTACTCCATCAGTATTCCACAACTAAGTGGTGACTATGCCACACT
TCTGGCTGCCTGGACTGCTCTACTTTATAGAGTCACCGGCGATGACGATATAGTGCTATA
TGTGCGCGACAACAAAGTTCTGAGATTTACCATTACTCCAGAATTAACTTTCACTCAATT
GCAAAACAAAATCAATGAACAGCTTGCTGAGCTTGCTAATGTGGAAGGTACCAACTTCGA
CGCTTTGAGCGAGTCATTACAGAAAGAATCGGGACTCGAAAGACCACCACAACTATTCAG
AATAGCGTGCGTCACAGAGGATTTACAACTTGACCGTTACACTCACAGCCCGCTTGATAT
CGGCTTGCAATTGCACGAGTCTAGCTCTGATGTATCTATAGTTTTCAACAAACTGCTCTT
CTCACAAGACCGTATCACTATCTTAGCTGATCAACTGACTTTGTTCCTGACAAGTGTTCT
CCAAAATGCTAAACAAGTATTCACCAAAGTTTCCTTGATCACGGACTCCTCTACAAGCAT
TCTACCTGACCCTAAAGCTAATTTGGACTGGTGCGGCTTTGTTGGCTGTATCCATGACAT
ATTCCAGGATAATGCTGAAAAGTTCCCAGAGAGGACTTGTGTCGTGGAAACTCCCCCAAT
CAACAGTACCAAGACTCGTACTTTCACCTACAAAGACATCAACGAGGCCTCCAATATTGT
GGCACATTATTTAATTAATACTGGCATCAAGAGAGGTGATGTGGTAATGATTTATTCCTC
CCGTGGTGTTGATCTAATGGTATGTGTGATGGGTGTCTTGAAGGCTGGCGCTACGTTTTC
CGTTATTGATCCCGCATACCCACCAGCTAGACAAACAATCTACTTGGGTGTAGCCAAACC
TAAGGGGCTGATTGTCATCAGAGCCGCCGGTCAACTTGATCAATTGGTCGAAGATTACAT
AACCAAGGAGCTGGACTTAGTATCCCGTATCCCATCGATTGCTATCCAAGATAATGGAAC
TGTAGAAGGTGGCTCACTACCATCCGAATCCGGTGATGTATTAGCCTCTTACACTGAATT
GAAATCTACTCGTACAGGTGTTGTAGTTGGCCCAGATTCCAACCCAACACTTTCCTTCAC
TTCTGGTTCAGAAGGTATTCCAAAAGGTGTCCTAGGTAGACATTTCTCTCTGGCATACTA
CTTTAGCTGGATGGCAAAACAGTTTAACTTGTCAGAAAATGATAAATTTACAATGTTGAG
TGGTATTGCACATGATCCTATTCAAAGAGATATGTTCACACCTCTATTCTTGGGCGCCCA
ACTCTACGTCCCAACTCAAGATGACATTGGTACTCCAGGAAGGCTTGCTGAATGGATGGG
CAAATATGGCTGTACTGTTACACATTTAACGCCGGCCATGGGTCAATTATTGACAGCTCA
GGCCGTTACTCCATTCCCAAAATTACATCATGCATTCTTTGTCGGTGACATCTTGACTAA
GAGAGACTGCTTAAGACTGCAAACTCTAGCTGAAAACTGTTGTATTGTGAATATGTATGG
TACCACAGAAACACAGAGGGCTGTTTCTTACTTTGAAGTTACATCAAGATCCCAAGATCC
TCATTTCCTGAAGAAACTGAAGGATGTCATGCCTGCCGGAAGAGGTATGAAGAATGTTCA
ATTGTTAGTTGTAAATAGAAATGACAGAACGCAAGTCTGTGGTGTTGGTGAAATCGGTGA
AATCTACGTGCGTGCTGGTGGTTTGGCTGAAGGATATAGAGGTTTACCTGATTTAAATAA
GGAAAAGTTCGTTAATAACTGGTTTGTTGAAGAAGGCCATTGGAATTACTTAGATAAAGA
CTTAGAGGCACCATGGAAAGAATTCTGGCAAGGCCCAAGAGACAGACTTTATAGAACAGG
TGACCTTGGCCGTTATTTACCAAATGGTGACTGTGAATGCTGTGGTAGAGCTGATGATCA
AGTTAAGATCCGTGGTTTCAGAATCGAACTTGGTGAAATTGACACCAACATATCCCAACA
TCCACTGGTTAGAGAAAATATCACTTTGGTTAGAAACAATCTAGAAGGTGAAAAATGTCT
TGTAACTTACATGGTTCCTAGATTTGATAAACCAGAACTAGAAAACTTCAAAATTGAAGT
ACCTTCCAATATTTCAGATGATCCTGTTGTTTGTGGTTTAATCGGGTACAGTCCTTTCAC
CAAGGATTTAAAAGCATTCTTGAAGAAACGTCTGGCTAGTTATGCTATTCCATCATTGAT
TATAGTACTACCAAAACTACCTTTGAACCCAAACGGTAAAGTGGATAAGCCTAAACTACA
ATTCCCAACTGTTAAACAACTTGAACTTGTTGCTAAAAATTCCAGTATTGATATCAATGA
TTCGGAGTTCAACCAACAAGAACGTGAAATCCGTGATCTTTGGTTGGAATGCTTACCAAC
TAAGCCTACATCAATTAGCCCAGAGGACTCATTCTTTGATTTAGGTGGCCACTCCATTTT
GGCCACGAAAATGATCTTCACAGTGAAGAAGCAGCTAAATGTCGAATTACCCCTTGGCAC
GATCTTTAAATACCCAACAATTAAAGCTTTTGCTGCCGAAGTCTCTAGATTGAAGTCAAC
AGATAAAATTGAGGAGGAAACTACAGCTTTGACAGCTGACTATGCTAGTGACGCTGCATC
TCTTATCGACACACTTCCTAAATCGTATCCAGCAGCAAGAGCGTTAGGATCTCCCTCTGA
GATGGCTGGACCAACCACCGTTAACATATTTGTAACTGGTGTAACTGGTTTCCTCGGCTC
CTTCATTCTTTCTGATATCCTAAATCGTACAGTTACAGGTGTCAACTTCAAGATATTTGC
ACATGTCCGGGCAGCGGATGAAACATCTGGGTTGGATAGAATCAGAAAAGCTGGTACTGT
ATATGGGACTTGGAAAGAAGAGTATGCGAACTCACTACAAGTAGTGATAGGTGATTTATC
GAAGAAAAACTTTGGATTGACTGATGACAAGTGGAGCCACTTGTCAGAAACCATTGATAT
CATCATTCACAATGGTGCATTGGTTCACTGGGTTTACCCCTACTCAAAACTGAGAAACGC
CAACGTAGTTTCCACTATCAATATCATGAACTTGGCTAGTGAGGGCAAACCAAAATTGTT
TAACTTCGTATCATCAACTTCTGTTCTAGATACTAACCATTACTTCGAATTATCTGATAA
GCTACAGCAATCTGGTAAGGAAGGTATTCCTGAAAGTGATGACTTAATGGGTTCCTCATT
AGGTCTAACAAGCGGTTATGGACAATCTAAATGGGCTGCTGAGCACATTATTAGAGCTGC
AGGTAAAAGAGGTTTAAGAGGTTCCATTATTAGGCCTGGCTATGTTACCGGTGCCTCTTA
TAATGGTTCTAGTAATACTGATGACTTCTTGCTGAGATTTTTGAAAAGTGCTGTTCAATT
GGGAAAAATACCAGATATCAACAACACTGTTAATATGGTTCCTGTCGATCAAGTTGCAAG
AGTAGTTGTAGCAGCATCAATAAACCCTCCCTGCGGTGACGATCTCTGTGTAGTACACGT
TAATGCTCATCCAAGGATAATATTTAAGGATTATTTGTATGAATTAAAGAACTATGGTTA
TGACGTTGAGATTGAAAATTACGAGCAATGGAAAAAGACACTTGAGGAAGCTGTCATTGA
ACGGAGCGAAGATAATGCCCTCTTCCCATTACTACATATGGTCTTGGGTGACTTAGAGGA
CTCAACAAAGGCTCCAGAGCTTGATGATAAAAATGCTATTACGTCACTTAGAGCTGATAT
TGAGTGGACCAACGAAGATAGAACGAAAGGAATGGGTGCTACTCCAGAACAAATTGGTAT
TTATATCTCATTCCTAGAATCTGTCGGCTTTTTGCCACATCCTAAGCATTTCGGTGACAA
GGCACTACCAAACATCAAAATATCTGAGCAACAAAAAGAATTAGTTGCTTCAGGTGCTGG
CGCTCGTTCAAGTTCCGCTGCTTAGTAAATTTTAATTATAATAAGTTTGTACTTTAATAA
TATTATCATTAATGTCTATAGATATTAATTAGTCACAAGATGAATATCCTATAAGGAGTT
TTAATTATTAAACAAAAACTGAAGATCAGCCGGTGTTAATCTATTAATAGCTGCCTCGTC
CTGATTGATAGTCGCATGAATCATATTTGCTTTCTTTTCTTGCAGCTCAATGATTCTAGC
TTCAATACTATCTTCTATACAAAATCTAGTTATCTTCACAGGCCTATACTGTCCGATTCT
ATGCACTCTATCTCCACTTTGCCAT

Coding sequence

>CAGL0K07788g.cds
ATGTCCTGGAAAGAGAGACTAGATAATCCAACACTTTCAGTGTGGCCACATGATTACTTG
AGGCCACACGCCGAGCCATTCGTCGAACAAGGAACGTACTCCATCAGTATTCCACAACTA
AGTGGTGACTATGCCACACTTCTGGCTGCCTGGACTGCTCTACTTTATAGAGTCACCGGC
GATGACGATATAGTGCTATATGTGCGCGACAACAAAGTTCTGAGATTTACCATTACTCCA
GAATTAACTTTCACTCAATTGCAAAACAAAATCAATGAACAGCTTGCTGAGCTTGCTAAT
GTGGAAGGTACCAACTTCGACGCTTTGAGCGAGTCATTACAGAAAGAATCGGGACTCGAA
AGACCACCACAACTATTCAGAATAGCGTGCGTCACAGAGGATTTACAACTTGACCGTTAC
ACTCACAGCCCGCTTGATATCGGCTTGCAATTGCACGAGTCTAGCTCTGATGTATCTATA
GTTTTCAACAAACTGCTCTTCTCACAAGACCGTATCACTATCTTAGCTGATCAACTGACT
TTGTTCCTGACAAGTGTTCTCCAAAATGCTAAACAAGTATTCACCAAAGTTTCCTTGATC
ACGGACTCCTCTACAAGCATTCTACCTGACCCTAAAGCTAATTTGGACTGGTGCGGCTTT
GTTGGCTGTATCCATGACATATTCCAGGATAATGCTGAAAAGTTCCCAGAGAGGACTTGT
GTCGTGGAAACTCCCCCAATCAACAGTACCAAGACTCGTACTTTCACCTACAAAGACATC
AACGAGGCCTCCAATATTGTGGCACATTATTTAATTAATACTGGCATCAAGAGAGGTGAT
GTGGTAATGATTTATTCCTCCCGTGGTGTTGATCTAATGGTATGTGTGATGGGTGTCTTG
AAGGCTGGCGCTACGTTTTCCGTTATTGATCCCGCATACCCACCAGCTAGACAAACAATC
TACTTGGGTGTAGCCAAACCTAAGGGGCTGATTGTCATCAGAGCCGCCGGTCAACTTGAT
CAATTGGTCGAAGATTACATAACCAAGGAGCTGGACTTAGTATCCCGTATCCCATCGATT
GCTATCCAAGATAATGGAACTGTAGAAGGTGGCTCACTACCATCCGAATCCGGTGATGTA
TTAGCCTCTTACACTGAATTGAAATCTACTCGTACAGGTGTTGTAGTTGGCCCAGATTCC
AACCCAACACTTTCCTTCACTTCTGGTTCAGAAGGTATTCCAAAAGGTGTCCTAGGTAGA
CATTTCTCTCTGGCATACTACTTTAGCTGGATGGCAAAACAGTTTAACTTGTCAGAAAAT
GATAAATTTACAATGTTGAGTGGTATTGCACATGATCCTATTCAAAGAGATATGTTCACA
CCTCTATTCTTGGGCGCCCAACTCTACGTCCCAACTCAAGATGACATTGGTACTCCAGGA
AGGCTTGCTGAATGGATGGGCAAATATGGCTGTACTGTTACACATTTAACGCCGGCCATG
GGTCAATTATTGACAGCTCAGGCCGTTACTCCATTCCCAAAATTACATCATGCATTCTTT
GTCGGTGACATCTTGACTAAGAGAGACTGCTTAAGACTGCAAACTCTAGCTGAAAACTGT
TGTATTGTGAATATGTATGGTACCACAGAAACACAGAGGGCTGTTTCTTACTTTGAAGTT
ACATCAAGATCCCAAGATCCTCATTTCCTGAAGAAACTGAAGGATGTCATGCCTGCCGGA
AGAGGTATGAAGAATGTTCAATTGTTAGTTGTAAATAGAAATGACAGAACGCAAGTCTGT
GGTGTTGGTGAAATCGGTGAAATCTACGTGCGTGCTGGTGGTTTGGCTGAAGGATATAGA
GGTTTACCTGATTTAAATAAGGAAAAGTTCGTTAATAACTGGTTTGTTGAAGAAGGCCAT
TGGAATTACTTAGATAAAGACTTAGAGGCACCATGGAAAGAATTCTGGCAAGGCCCAAGA
GACAGACTTTATAGAACAGGTGACCTTGGCCGTTATTTACCAAATGGTGACTGTGAATGC
TGTGGTAGAGCTGATGATCAAGTTAAGATCCGTGGTTTCAGAATCGAACTTGGTGAAATT
GACACCAACATATCCCAACATCCACTGGTTAGAGAAAATATCACTTTGGTTAGAAACAAT
CTAGAAGGTGAAAAATGTCTTGTAACTTACATGGTTCCTAGATTTGATAAACCAGAACTA
GAAAACTTCAAAATTGAAGTACCTTCCAATATTTCAGATGATCCTGTTGTTTGTGGTTTA
ATCGGGTACAGTCCTTTCACCAAGGATTTAAAAGCATTCTTGAAGAAACGTCTGGCTAGT
TATGCTATTCCATCATTGATTATAGTACTACCAAAACTACCTTTGAACCCAAACGGTAAA
GTGGATAAGCCTAAACTACAATTCCCAACTGTTAAACAACTTGAACTTGTTGCTAAAAAT
TCCAGTATTGATATCAATGATTCGGAGTTCAACCAACAAGAACGTGAAATCCGTGATCTT
TGGTTGGAATGCTTACCAACTAAGCCTACATCAATTAGCCCAGAGGACTCATTCTTTGAT
TTAGGTGGCCACTCCATTTTGGCCACGAAAATGATCTTCACAGTGAAGAAGCAGCTAAAT
GTCGAATTACCCCTTGGCACGATCTTTAAATACCCAACAATTAAAGCTTTTGCTGCCGAA
GTCTCTAGATTGAAGTCAACAGATAAAATTGAGGAGGAAACTACAGCTTTGACAGCTGAC
TATGCTAGTGACGCTGCATCTCTTATCGACACACTTCCTAAATCGTATCCAGCAGCAAGA
GCGTTAGGATCTCCCTCTGAGATGGCTGGACCAACCACCGTTAACATATTTGTAACTGGT
GTAACTGGTTTCCTCGGCTCCTTCATTCTTTCTGATATCCTAAATCGTACAGTTACAGGT
GTCAACTTCAAGATATTTGCACATGTCCGGGCAGCGGATGAAACATCTGGGTTGGATAGA
ATCAGAAAAGCTGGTACTGTATATGGGACTTGGAAAGAAGAGTATGCGAACTCACTACAA
GTAGTGATAGGTGATTTATCGAAGAAAAACTTTGGATTGACTGATGACAAGTGGAGCCAC
TTGTCAGAAACCATTGATATCATCATTCACAATGGTGCATTGGTTCACTGGGTTTACCCC
TACTCAAAACTGAGAAACGCCAACGTAGTTTCCACTATCAATATCATGAACTTGGCTAGT
GAGGGCAAACCAAAATTGTTTAACTTCGTATCATCAACTTCTGTTCTAGATACTAACCAT
TACTTCGAATTATCTGATAAGCTACAGCAATCTGGTAAGGAAGGTATTCCTGAAAGTGAT
GACTTAATGGGTTCCTCATTAGGTCTAACAAGCGGTTATGGACAATCTAAATGGGCTGCT
GAGCACATTATTAGAGCTGCAGGTAAAAGAGGTTTAAGAGGTTCCATTATTAGGCCTGGC
TATGTTACCGGTGCCTCTTATAATGGTTCTAGTAATACTGATGACTTCTTGCTGAGATTT
TTGAAAAGTGCTGTTCAATTGGGAAAAATACCAGATATCAACAACACTGTTAATATGGTT
CCTGTCGATCAAGTTGCAAGAGTAGTTGTAGCAGCATCAATAAACCCTCCCTGCGGTGAC
GATCTCTGTGTAGTACACGTTAATGCTCATCCAAGGATAATATTTAAGGATTATTTGTAT
GAATTAAAGAACTATGGTTATGACGTTGAGATTGAAAATTACGAGCAATGGAAAAAGACA
CTTGAGGAAGCTGTCATTGAACGGAGCGAAGATAATGCCCTCTTCCCATTACTACATATG
GTCTTGGGTGACTTAGAGGACTCAACAAAGGCTCCAGAGCTTGATGATAAAAATGCTATT
ACGTCACTTAGAGCTGATATTGAGTGGACCAACGAAGATAGAACGAAAGGAATGGGTGCT
ACTCCAGAACAAATTGGTATTTATATCTCATTCCTAGAATCTGTCGGCTTTTTGCCACAT
CCTAAGCATTTCGGTGACAAGGCACTACCAAACATCAAAATATCTGAGCAACAAAAAGAA
TTAGTTGCTTCAGGTGCTGGCGCTCGTTCAAGTTCCGCTGCTTAG

Predicted translation product

>CAGL0K07788g.aa
MSWKERLDNPTLSVWPHDYLRPHAEPFVEQGTYSISIPQLSGDYATLLAAWTALLYRVTG
DDDIVLYVRDNKVLRFTITPELTFTQLQNKINEQLAELANVEGTNFDALSESLQKESGLE
RPPQLFRIACVTEDLQLDRYTHSPLDIGLQLHESSSDVSIVFNKLLFSQDRITILADQLT
LFLTSVLQNAKQVFTKVSLITDSSTSILPDPKANLDWCGFVGCIHDIFQDNAEKFPERTC
VVETPPINSTKTRTFTYKDINEASNIVAHYLINTGIKRGDVVMIYSSRGVDLMVCVMGVL
KAGATFSVIDPAYPPARQTIYLGVAKPKGLIVIRAAGQLDQLVEDYITKELDLVSRIPSI
AIQDNGTVEGGSLPSESGDVLASYTELKSTRTGVVVGPDSNPTLSFTSGSEGIPKGVLGR
HFSLAYYFSWMAKQFNLSENDKFTMLSGIAHDPIQRDMFTPLFLGAQLYVPTQDDIGTPG
RLAEWMGKYGCTVTHLTPAMGQLLTAQAVTPFPKLHHAFFVGDILTKRDCLRLQTLAENC
CIVNMYGTTETQRAVSYFEVTSRSQDPHFLKKLKDVMPAGRGMKNVQLLVVNRNDRTQVC
GVGEIGEIYVRAGGLAEGYRGLPDLNKEKFVNNWFVEEGHWNYLDKDLEAPWKEFWQGPR
DRLYRTGDLGRYLPNGDCECCGRADDQVKIRGFRIELGEIDTNISQHPLVRENITLVRNN
LEGEKCLVTYMVPRFDKPELENFKIEVPSNISDDPVVCGLIGYSPFTKDLKAFLKKRLAS
YAIPSLIIVLPKLPLNPNGKVDKPKLQFPTVKQLELVAKNSSIDINDSEFNQQEREIRDL
WLECLPTKPTSISPEDSFFDLGGHSILATKMIFTVKKQLNVELPLGTIFKYPTIKAFAAE
VSRLKSTDKIEEETTALTADYASDAASLIDTLPKSYPAARALGSPSEMAGPTTVNIFVTG
VTGFLGSFILSDILNRTVTGVNFKIFAHVRAADETSGLDRIRKAGTVYGTWKEEYANSLQ
VVIGDLSKKNFGLTDDKWSHLSETIDIIIHNGALVHWVYPYSKLRNANVVSTINIMNLAS
EGKPKLFNFVSSTSVLDTNHYFELSDKLQQSGKEGIPESDDLMGSSLGLTSGYGQSKWAA
EHIIRAAGKRGLRGSIIRPGYVTGASYNGSSNTDDFLLRFLKSAVQLGKIPDINNTVNMV
PVDQVARVVVAASINPPCGDDLCVVHVNAHPRIIFKDYLYELKNYGYDVEIENYEQWKKT
LEEAVIERSEDNALFPLLHMVLGDLEDSTKAPELDDKNAITSLRADIEWTNEDRTKGMGA
TPEQIGIYISFLESVGFLPHPKHFGDKALPNIKISEQQKELVASGAGARSSSAA*



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