SACE0O09174g


Histone acetyltransferase catalytic subunit of the native multisubunit complex (NuA4) that acetylates four conserved internal lysines of histone H4 N-terminal tail; required for cell cycle progression

Genomic environment map

Element type: CDS
Element length: 1338 nucleotides,
on sense strand of
Sace0O: 792532..793869.
Other names:
ESA1
TAS1
YOR244W
Coding sequence: 446 codons.
Database cross references:
ArrayExpress: Q08649
CYGD: YOR244w
EMBL: CAA99465.1
EMBL: Z75152
Ensembl: YOR244W
GeneID: 854418
GenomeReviews: Y13140_GR
HOGENOM: Q08649
NMPDR: fig|4932.3.peg.5999

Computed results  

None available yet

Homologs and Orthologs

Homologs in protein families: GL3C0136 GL3C0136.N2
Orthologs: strict determination not possible; homologs must be refined manually

Protein SACE0O09174p  


Protein domain map

Protein length: 445 amino acids
Protein family: GL3C0136
Database cross references:
DIP: DIP:4115N
Gene3D: G3DSA:1.10.10.10
Gene3D: G3DSA:3.40.630.30
GermOnline: YOR244W
IntAct: Q08649
InterPro: IPR000953
InterPro: IPR002717
InterPro: IPR011991
InterPro: IPR016181
KEGG: sce:YOR244W
LinkHub: Q08649
PDB: 1FY7
PDB: 1MJ9
PDB: 1MJA
PDB: 1MJB
PDB: 2RNZ
PDB: 2RO0
PDBsum: 1FY7
PDBsum: 1MJ9
PDBsum: 1MJA
PDBsum: 1MJB
PDBsum: 2RNZ
PDBsum: 2RO0
PIR: S67137
PROSITE: PS00598
PROSITE: PS50013
PeptideAtlas: Q08649
Pfam: PF01853
RefSeq: NP_014887.1
SGD: S000005770
SMART: SM00298
UniProtKB/Swiss-Prot: Q08649
UniprotKB: ESA1_YEAST

Computed results for SACE0O09174p  

Blastp Genolevures
Blastp Uniprot

Gene Ontology terms  

GO:0051726 regulation of cell cycle
GO:0043166 H4/H2A histone acetyltransferase activity
GO:0035267 NuA4 histone acetyltransferase complex
GO:0032777 Piccolo NuA4 histone acetyltransferase complex
GO:0016573 histone acetylation
GO:0006357 regulation of transcription from RNA polymerase II promoter
GO:0006354 RNA elongation
GO:0006281 DNA repair
GO:0005515 protein binding

Sequence data  

Nucleotide sequence

>SACE0O09174g.nt
AACATTGACAGCTTCCATAGTATCCTTATTTTCTTTATGTAGAGTGAAGTGAATAAAATC
TTTACTGGGACCATATCCCCAATTTTCTACACCGTTAGCGTCCCTGGTTTGGTTAATTTT
CTCTTGTTTATTGGTTCTTGAATTTCTATTTGATCTTGCAATCTTAAAAGTGTTAGTATC
AGTAGTCACAGATTCTAATTCATTTTTAAATGCCTCACGTAACAGTTGGTGAATTTTAGT
TCTAACAGATTTATCTTCGAAATTTTTTGCCGTTTCCATTTTATTAGCCGTGCGATAAAC
GGATTCTATTTTCAATACATCTTCCTCACCAAATATCTCCACCAATTGATTTCTTAATTC
GGGGTCGACGTTGAATTCTTGTCTTCTAGCTGCTTCAGACTCCTTTTCTGCATTGACCTC
TTCTTTAGAGCGTTGTGGTTTCTTTGGCATTTTAAATCCTTTATCAGTTAAGTGAATGAC
CTTACCTTCTTGATCTATTTCGTTGACCAAAAAGTCAGTATAACGCTGCTTAATTTGGCC
TCTAAATCCTGGCAATTCTGGAGATAAGAACAAAGTAATACCGACATCTGCTTCGTGAAT
ACCATCTGCCTGAGTACGTTGCTCAATTTTCAACTTCTTTGCAGCATTTTCGGAAGGTCC
TACGTGAGCATCAAGGGGTCTCTTTACAGTGGCTTCTGAGGAGTCAGACATGGCATGCAA
CAGATATTGCTTTTTTCCTTGGGAAGGAACAACGTGATTATAATTAATCGATGAGCTGTA
CCTATTGACTATTTCATCATTATTATAATGATGGAAAATTTTCCAAATTACTACCCGCCC
GTTGAAAAGATGAAAACGGCTTCCGGCGGAGCAAATGCAAAACGAATATTGCTAAAAGGT
GTATATTATTATAGTAATCAAAGGAGAATAGAAAAGAGCTTTACCATTCTTTAGACGCTT
CCTGTGCTACCATTCTCGGAAATACTGCAAGAAATCATCGATGTCCCATGACGGAAAAGA
AGAACCTGGTATTGCCAAAAAGATAAACTCAGTAGATGATATTATTATCAAATGTCAATG
CTGGGTCCAAAAAAATGATGAAGAACGATTAGCTGAAATTTTATCCATAAACACAAGAAA
AGCACCACCAAAATTCTATGTTCACTATGTTAATTACAACAAGCGTTTAGATGAGTGGAT
TACCACTGACAGAATAAACCTGGATAAAGAAGTACTATATCCGAAACTAAAGGCTACTGA
TGAAGATAATAAGAAACAAAAAAAGAAGAAGGCAACAAATACTAGTGAAACGCCACAAGA
CTCTCTGCAAGATGGTGTAGATGGTTTCTCAAGAGAAAATACGGATGTTATGGACTTAGA
TAATCTAAATGTACAGGGAATAAAAGATGAGAACATATCACACGAGGATGAGATAAAAAA
GCTTAGAACCTCCGGCTCTATGACACAAAATCCACATGAGGTGGCTCGAGTTAGAAATCT
CAATCGAATCATTATGGGGAAATATGAAATAGAACCATGGTACTTTTCTCCATATCCTAT
TGAATTAACTGATGAAGATTTTATATATATCGACGATTTCACGTTGCAGTATTTTGGATC
TAAGAAACAATACGAACGCTACAGGAAGAAATGTACATTAAGACATCCGCCAGGAAATGA
AATCTACAGAGACGATTATGTTTCATTCTTTGAAATCGATGGTAGAAAGCAAAGGACTTG
GTGTCGAAACTTGTGTTTACTTTCCAAACTTTTCCTAGATCACAAAACATTATACTATGA
CGTTGATCCGTTTTTGTTTTATTGCATGACGAGACGAGATGAGTTGGGTCACCATCTGGT
GGGATATTTTTCCAAGGAAAAAGAATCCGCGGATGGTTACAATGTTGCATGTATCTTAAC
ACTACCACAATACCAAAGGATGGGATATGGTAAGTTATTGATTGAATTTTCGTATGAATT
GTCGAAAAAGGAAAACAAAGTTGGTTCTCCCGAGAAACCTTTGTCTGATTTGGGTCTCTT
ATCCTATAGAGCCTATTGGTCGGACACTCTCATAACGCTATTAGTGGAACACCAGAAGGA
AATTACTATAGACGAAATAAGCTCCATGACTTCGATGACCACTACAGATATATTACACAC
AGCAAAGACACTGAATATCCTGCGATATTACAAGGGTCAGCATATTATTTTCCTGAATGA
AGATATTTTAGATAGGTACAATCGACTTAAAGCCAAAAAGAGAAGGACAATAGACCCTAA
TAGACTCATATGGAAACCACCGGTATTTACTGCCTCTCAGTTACGCTTTGCCTGGTAAGC
TATGTAGTGCTTTCCTAAACTTACATTCAAACAACTTCTAATGTAAAAGCTTTAAATAAA
TGAAATTTACGTAAAACAATCACTAATATTCAACGAGAACTCCAGTATTCCTGTAAGTTA
ATACTCTTACTTAAGATATACAGCCCAAACACTAAAAAATCCTTATTTATTCTAACATAT
TTTGTGTTTTCCAATGAATTCATTATTACCCAACTATCTTCAATTCTGCATCCGGTACCC
CATATTTTTCTCTATTTTCGTAATATAGTCTTTTCAACTCCGCAATATACAAATCATG

Coding sequence

>SACE0O09174g.cds
ATGTCCCATGACGGAAAAGAAGAACCTGGTATTGCCAAAAAGATAAACTCAGTAGATGAT
ATTATTATCAAATGTCAATGCTGGGTCCAAAAAAATGATGAAGAACGATTAGCTGAAATT
TTATCCATAAACACAAGAAAAGCACCACCAAAATTCTATGTTCACTATGTTAATTACAAC
AAGCGTTTAGATGAGTGGATTACCACTGACAGAATAAACCTGGATAAAGAAGTACTATAT
CCGAAACTAAAGGCTACTGATGAAGATAATAAGAAACAAAAAAAGAAGAAGGCAACAAAT
ACTAGTGAAACGCCACAAGACTCTCTGCAAGATGGTGTAGATGGTTTCTCAAGAGAAAAT
ACGGATGTTATGGACTTAGATAATCTAAATGTACAGGGAATAAAAGATGAGAACATATCA
CACGAGGATGAGATAAAAAAGCTTAGAACCTCCGGCTCTATGACACAAAATCCACATGAG
GTGGCTCGAGTTAGAAATCTCAATCGAATCATTATGGGGAAATATGAAATAGAACCATGG
TACTTTTCTCCATATCCTATTGAATTAACTGATGAAGATTTTATATATATCGACGATTTC
ACGTTGCAGTATTTTGGATCTAAGAAACAATACGAACGCTACAGGAAGAAATGTACATTA
AGACATCCGCCAGGAAATGAAATCTACAGAGACGATTATGTTTCATTCTTTGAAATCGAT
GGTAGAAAGCAAAGGACTTGGTGTCGAAACTTGTGTTTACTTTCCAAACTTTTCCTAGAT
CACAAAACATTATACTATGACGTTGATCCGTTTTTGTTTTATTGCATGACGAGACGAGAT
GAGTTGGGTCACCATCTGGTGGGATATTTTTCCAAGGAAAAAGAATCCGCGGATGGTTAC
AATGTTGCATGTATCTTAACACTACCACAATACCAAAGGATGGGATATGGTAAGTTATTG
ATTGAATTTTCGTATGAATTGTCGAAAAAGGAAAACAAAGTTGGTTCTCCCGAGAAACCT
TTGTCTGATTTGGGTCTCTTATCCTATAGAGCCTATTGGTCGGACACTCTCATAACGCTA
TTAGTGGAACACCAGAAGGAAATTACTATAGACGAAATAAGCTCCATGACTTCGATGACC
ACTACAGATATATTACACACAGCAAAGACACTGAATATCCTGCGATATTACAAGGGTCAG
CATATTATTTTCCTGAATGAAGATATTTTAGATAGGTACAATCGACTTAAAGCCAAAAAG
AGAAGGACAATAGACCCTAATAGACTCATATGGAAACCACCGGTATTTACTGCCTCTCAG
TTACGCTTTGCCTGGTAA

Predicted translation product

>SACE0O09174g.aa
MSHDGKEEPGIAKKINSVDDIIIKCQCWVQKNDEERLAEILSINTRKAPPKFYVHYVNYN
KRLDEWITTDRINLDKEVLYPKLKATDEDNKKQKKKKATNTSETPQDSLQDGVDGFSREN
TDVMDLDNLNVQGIKDENISHEDEIKKLRTSGSMTQNPHEVARVRNLNRIIMGKYEIEPW
YFSPYPIELTDEDFIYIDDFTLQYFGSKKQYERYRKKCTLRHPPGNEIYRDDYVSFFEID
GRKQRTWCRNLCLLSKLFLDHKTLYYDVDPFLFYCMTRRDELGHHLVGYFSKEKESADGY
NVACILTLPQYQRMGYGKLLIEFSYELSKKENKVGSPEKPLSDLGLLSYRAYWSDTLITL
LVEHQKEITIDEISSMTSMTTTDILHTAKTLNILRYYKGQHIIFLNEDILDRYNRLKAKK
RRTIDPNRLIWKPPVFTASQLRFAW*



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