KLLA0A05819g


similar to uniprot|P14680 Saccharomyces cerevisiae YJL141C YAK1 Serine-threonine protein kinase that is part of a glucose-sensing system involved in growth control in response to glucose availability translocates from the cytoplasm to the nucleus and phosphorylates Pop2p in response to a glucose signal

Genomic environment map

Element type: CDS
Element length: 2115 nucleotides,
on sense strand of
Klla0A: 541545..543659.
Other names:
KLLA-ORF10543
Coding sequence: 705 codons.
Database cross references:
EMBL: CR382121
GeneID: 2896588
GenomeReviews: CR382121_GR
HOGENOM: HBG396244

Computed results  

None available yet


Homologs and Orthologs

Homologs in protein family: GL3C0591
Orthologs: strict determination not possible; homologs must be refined manually

Protein KLLA0A05819p  


similar to uniprot|P14680 Saccharomyces cerevisiae YJL141C YAK1 Serine-threonine protein kinase that is part of a glucose-sensing system involved in growth control in response to glucose availability translocates from the cytoplasm to the nucleus and phosphorylates Pop2p in response to a glucose signal; SubName: Full=KLLA0A05819p;

Protein domain map

Protein length: 704 amino acids
Protein family: GL3C0591
Database cross references:
InterPro: IPR000719
InterPro: IPR002290
InterPro: IPR008271
InterPro: IPR011009
InterPro: IPR017441
InterPro: IPR017442
KEGG: kla:KLLA0A05819g
PROSITE: PS00107
PROSITE: PS00108
PROSITE: PS50011
Pfam: PF00069
RefSeq: XP_451259.1
SMART: SM00220
UniProtKB/TrEMBL: Q6CXT0
UniProtKB: Q6CXT0_KLULA

Phylogeny  

PhylomeDB:KLLA0A05819g

Computed results for KLLA0A05819p  

None available yet

Gene Ontology terms  


Sequence data  


Nucleotide sequence    

>KLLA0A05819g.nt
ATGGGGGATAAGAATAGCCTTTGGAACCCTGCGTTCATGGCTTCTCAGCAGGGAGCGTCG
AGTTCGAATCAGAACCAGAACTTTTCTCAGACGCAGGCAAATACCCAGAATCAGGGCCCA
GAGATTGCGCCTGATGGGCCAGCTGGGAGTAGCTCCAATGCAGGCGGGAATATATATGCA
GGGCAGCAACAAGGCGGAAATGCGGCTGGTGGTTTCCAAATGCAGTCGCCACGTCAATCG
ATATTCAAAAACCCATGGCAAGAGATTCCCCAGATACCTGAGTCTCAGAGGTCTACTATG
AGGAAGCAATCCAACTTCCCCTTGCCCACTACTTACGAAGAAGATAACGCTGTAGATGAA
TCCTCACAACAGTTCAGAAGGAGAAACTCATCTTTAGTAATACCACCTGCGCGTGCGGCA
GGGCCTGATCCGTTCCTTTATGAGAAGCAACCGTTTCCCAACTATAATGATGCACAAAGA
AGGCAGTCGGTTGCTGTCACTGGTGGCAGTCAACTTTCGCCACAGCAGGTAACGAAACCA
TCTCAGCTTAGGAAACCTGGAATTAATACTGCGGGATATATGGCTGGCTCCATAAATTCT
TCTGTGTATCCCGCTACTGCAGGTGCATACATGAGCACGCGTGGCGGCTCAAGTTCACTT
CCGTCGTCAAGGCCACCTTCTCCAATAATTATTGTCCCTAAATTCAACAAGATATTTACG
AGACAGGACTTGAATCCCGTTATACATTCCACACCGAAATATAGACGTGCTTCATTAAGC
AGCAAGACGGTCTCGCCGTTGATGGCTCTAACTAAGTCGTTAACTACCACTTATTCATTG
TGTAATGACGATTTTGCATATCAGACATCAAAGAACCCGAAAAGAGTGCTAACAAAACCA
AATGAGGGGAAATATAACAATGGACATGATAATGTCAACAGTGACTACATCCTTTACGTT
AATGATGTGTTGGGGGTTGAACACAACAGAAAATATTTGGTCTTGGACCTTTTGGGTCAA
GGAACTTTTGGTCAAGTTGTGAAATGTCAAAACTTAATAACAAAAGAGATTCTAGCAGTG
AAAGTTGTGAAATCTAAATCAGAATATTTGAATCAGTCAGTCACTGAGGCTAAAGTTTTG
GAATTATTGAACAGACAAATTGATCCTAATAATGAACATCACTTCTTAAGGTTGCATGAC
ACGTTTGTGCATAAGCATCATTTGTGTCTTGTTTTCGAATTGTTGAGTAACAATTTATAT
GAATTGTTGAAGTTGAATGAATTCCATGGGTTGAGCATGACACTTATTAAAACATTTTCA
AAGCAATTATTGGATTCACTATGTGTCTTGAAGGACAGTAAGTTGATCCATTGTGATTTG
AAACCGGAGAATATATTGTTGGTAAGCAACGATCGACCTGATTTAAAAGTCATTGATTTT
GGATCTGCATGTGAGGAAACACGTACCATTTACACATACATTCAATCAAGATTCTATAGA
GCTCCAGAAGTTCTTTTGGGGATTCCTTATTCTACCGGGATAGATATGTGGTCCTTTGGT
TGTATCGTTGCAGAATTGTTTCTTGGTATACCTATCTTTCCCGGTAATTCTGAGTTTGAT
CAAGTTACAAGAATCGTGGAATCTTTGGGGATGCCACCTGCATGGATGTGTGATATGGGT
AAAAACTCTAAGAAATATTTCCATAAGATGAATACCACTGTTGAGAAAAAATTTAGAATG
AAAACCATTGATGAGTTTAACTTGGAGTTTGCTGCTAACGAAGAGTCAGTGAAGAGATAC
GTGAAACATATATTGTTCGATGATATAATTCGTAACGCAAGAATTTCGAAAAGGATTTCT
GGGAATCCAGCACTTGTTGAAAGAGAAATAAAGAACAGGGACTGCTTGTTACATTTTTTG
AGAGGAGTGTTGAACCTCAATCCACTCGAACGTTGGACCCCACAACAGGCCATTTTGCAT
CCCTTCATCACAGAAGAACCTTTCACAGGGGAGTGGTACCCACCGGGTACCATTCCAAAG
AAATCACAAACAGCTCGTAATCCTTCATTACAATTCGACTCTGTAGCGTTGGACAAGTTA
CAACTTGGCGACTAA

Coding sequence    

>KLLA0A05819g.cds
ATGGGGGATAAGAATAGCCTTTGGAACCCTGCGTTCATGGCTTCTCAGCAGGGAGCGTCG
AGTTCGAATCAGAACCAGAACTTTTCTCAGACGCAGGCAAATACCCAGAATCAGGGCCCA
GAGATTGCGCCTGATGGGCCAGCTGGGAGTAGCTCCAATGCAGGCGGGAATATATATGCA
GGGCAGCAACAAGGCGGAAATGCGGCTGGTGGTTTCCAAATGCAGTCGCCACGTCAATCG
ATATTCAAAAACCCATGGCAAGAGATTCCCCAGATACCTGAGTCTCAGAGGTCTACTATG
AGGAAGCAATCCAACTTCCCCTTGCCCACTACTTACGAAGAAGATAACGCTGTAGATGAA
TCCTCACAACAGTTCAGAAGGAGAAACTCATCTTTAGTAATACCACCTGCGCGTGCGGCA
GGGCCTGATCCGTTCCTTTATGAGAAGCAACCGTTTCCCAACTATAATGATGCACAAAGA
AGGCAGTCGGTTGCTGTCACTGGTGGCAGTCAACTTTCGCCACAGCAGGTAACGAAACCA
TCTCAGCTTAGGAAACCTGGAATTAATACTGCGGGATATATGGCTGGCTCCATAAATTCT
TCTGTGTATCCCGCTACTGCAGGTGCATACATGAGCACGCGTGGCGGCTCAAGTTCACTT
CCGTCGTCAAGGCCACCTTCTCCAATAATTATTGTCCCTAAATTCAACAAGATATTTACG
AGACAGGACTTGAATCCCGTTATACATTCCACACCGAAATATAGACGTGCTTCATTAAGC
AGCAAGACGGTCTCGCCGTTGATGGCTCTAACTAAGTCGTTAACTACCACTTATTCATTG
TGTAATGACGATTTTGCATATCAGACATCAAAGAACCCGAAAAGAGTGCTAACAAAACCA
AATGAGGGGAAATATAACAATGGACATGATAATGTCAACAGTGACTACATCCTTTACGTT
AATGATGTGTTGGGGGTTGAACACAACAGAAAATATTTGGTCTTGGACCTTTTGGGTCAA
GGAACTTTTGGTCAAGTTGTGAAATGTCAAAACTTAATAACAAAAGAGATTCTAGCAGTG
AAAGTTGTGAAATCTAAATCAGAATATTTGAATCAGTCAGTCACTGAGGCTAAAGTTTTG
GAATTATTGAACAGACAAATTGATCCTAATAATGAACATCACTTCTTAAGGTTGCATGAC
ACGTTTGTGCATAAGCATCATTTGTGTCTTGTTTTCGAATTGTTGAGTAACAATTTATAT
GAATTGTTGAAGTTGAATGAATTCCATGGGTTGAGCATGACACTTATTAAAACATTTTCA
AAGCAATTATTGGATTCACTATGTGTCTTGAAGGACAGTAAGTTGATCCATTGTGATTTG
AAACCGGAGAATATATTGTTGGTAAGCAACGATCGACCTGATTTAAAAGTCATTGATTTT
GGATCTGCATGTGAGGAAACACGTACCATTTACACATACATTCAATCAAGATTCTATAGA
GCTCCAGAAGTTCTTTTGGGGATTCCTTATTCTACCGGGATAGATATGTGGTCCTTTGGT
TGTATCGTTGCAGAATTGTTTCTTGGTATACCTATCTTTCCCGGTAATTCTGAGTTTGAT
CAAGTTACAAGAATCGTGGAATCTTTGGGGATGCCACCTGCATGGATGTGTGATATGGGT
AAAAACTCTAAGAAATATTTCCATAAGATGAATACCACTGTTGAGAAAAAATTTAGAATG
AAAACCATTGATGAGTTTAACTTGGAGTTTGCTGCTAACGAAGAGTCAGTGAAGAGATAC
GTGAAACATATATTGTTCGATGATATAATTCGTAACGCAAGAATTTCGAAAAGGATTTCT
GGGAATCCAGCACTTGTTGAAAGAGAAATAAAGAACAGGGACTGCTTGTTACATTTTTTG
AGAGGAGTGTTGAACCTCAATCCACTCGAACGTTGGACCCCACAACAGGCCATTTTGCAT
CCCTTCATCACAGAAGAACCTTTCACAGGGGAGTGGTACCCACCGGGTACCATTCCAAAG
AAATCACAAACAGCTCGTAATCCTTCATTACAATTCGACTCTGTAGCGTTGGACAAGTTA
CAACTTGGCGACTAA

Predicted translation product    

>KLLA0A05819g.aa
MGDKNSLWNPAFMASQQGASSSNQNQNFSQTQANTQNQGPEIAPDGPAGSSSNAGGNIYA
GQQQGGNAAGGFQMQSPRQSIFKNPWQEIPQIPESQRSTMRKQSNFPLPTTYEEDNAVDE
SSQQFRRRNSSLVIPPARAAGPDPFLYEKQPFPNYNDAQRRQSVAVTGGSQLSPQQVTKP
SQLRKPGINTAGYMAGSINSSVYPATAGAYMSTRGGSSSLPSSRPPSPIIIVPKFNKIFT
RQDLNPVIHSTPKYRRASLSSKTVSPLMALTKSLTTTYSLCNDDFAYQTSKNPKRVLTKP
NEGKYNNGHDNVNSDYILYVNDVLGVEHNRKYLVLDLLGQGTFGQVVKCQNLITKEILAV
KVVKSKSEYLNQSVTEAKVLELLNRQIDPNNEHHFLRLHDTFVHKHHLCLVFELLSNNLY
ELLKLNEFHGLSMTLIKTFSKQLLDSLCVLKDSKLIHCDLKPENILLVSNDRPDLKVIDF
GSACEETRTIYTYIQSRFYRAPEVLLGIPYSTGIDMWSFGCIVAELFLGIPIFPGNSEFD
QVTRIVESLGMPPAWMCDMGKNSKKYFHKMNTTVEKKFRMKTIDEFNLEFAANEESVKRY
VKHILFDDIIRNARISKRISGNPALVEREIKNRDCLLHFLRGVLNLNPLERWTPQQAILH
PFITEEPFTGEWYPPGTIPKKSQTARNPSLQFDSVALDKLQLGD*



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