SACE0P06182g


Catalytic subunit of the Hat1p-Hat2p histone acetyltransferase complex that uses the cofactor acetyl coenzyme A, to acetylate free nuclear and cytoplasmic histone H4; involved in telomeric silencing and DNA double-strand break repair

Genomic environment map

Element type: CDS
Element length: 1125 nucleotides,
on sense strand of
Sace0P: 554602..555726.
Other names:
HAT1
YPL001W
Coding sequence: 375 codons.
Database cross references:
ArrayExpress: Q12341
CYGD: YPL001w
EMBL: AAB68104.1
EMBL: AAS56368.1
EMBL: AY558042
EMBL: CAA88385.1
EMBL: CAA95040.1
EMBL: U33335
EMBL: Z48483
EMBL: Z71255
Ensembl: YPL001W
GeneID: 856106
GenomeReviews: U00094_GR
HOGENOM: Q12341
NMPDR: fig|4932.3.peg.6458

Computed results  

None available yet

Homologs and Orthologs

Homologs in protein families: GL3R2212 GL3R2212.N1
Orthologs: strict determination not possible; homologs must be refined manually

Protein SACE0P06182p  


Protein domain map

Protein length: 374 amino acids
Protein family: GL3R2212
Database cross references:
DIP: DIP:2362N
Gene3D: G3DSA:1.10.10.390
Gene3D: G3DSA:3.40.630.30
GermOnline: YPL001W
IntAct: Q12341
InterPro: IPR000182
InterPro: IPR013523
InterPro: IPR016181
InterPro: IPR017380
KEGG: sce:YPL001W
LinkHub: Q12341
PDB: 1BOB
PDBsum: 1BOB
PIR: A57583
PIRSF: PIRSF038084
PROSITE: PS51186
PeptideAtlas: Q12341
RefSeq: NP_015324.1
SGD: S000005922
UniProtKB/Swiss-Prot: Q12341
UniprotKB: HAT1_YEAST

Computed results for SACE0P06182p  

Blastp Genolevures
Blastp Uniprot

Gene Ontology terms  

GO:0016573 histone acetylation
GO:0006348 chromatin silencing at telomere
GO:0005737 cytoplasm
GO:0005515 protein binding
GO:0004406 H3/H4 histone acetyltransferase activity
GO:0000123 histone acetyltransferase complex

Sequence data  


Nucleotide sequence    

>SACE0P06182g.nt
ATTCCTGTTCAAGTCAACTATCTCACAGTTGCCTCGTAATCCAAGAGGGATCCCAATACA
ACGCCTCTGCACCACCTTGATAATCAATCCACAATAAACCGTTAGCGACCATTTCATCAA
GAGCAGATTTACTCCTAACAGCCTCCCATCCCAAGTTTGCCTTTAATAAAGAGATACTTG
AGTAGCCCAGAATTGAGCATATTTCCAAAATCTTTGTTTGATCTGATGTCAACTCATTTG
GAACACTTCGTAAAAACTTTTTGCCGCGAATTTGAAATATCTCAAAACACTCTAGGCTCT
TTAGCATGTCGATAGATTTTTCCAAATCATCGAGTCCAACATTCAGCTTACGAAAATGCA
CCTTCTCCAACTCTTGAAAAGAAATGACGCCTCCATTCATATCTTTAGTTTGCCGACAAA
TTTCTATAACTTTAAGACATACTTCATAATAAAAATCATTCACTGTAAATAAGTGCTTAT
CTCGATCAAATAAAGATAGGGGATCAATCCCAATAGATGAGCACATATGCATGAATTTTG
AGCGGAATTCAGGTGAAGCTTGAAGCTCGCTATTGTGTTTCTTGGCAAATTCTACCAGTC
GTTCTTGGAATACCATTAATTGGTCCCTTAGTTCGACAGATTGCTTTTCAAGTATGGTTT
TGTTTACGTCATTGTACTTTCCATCCTTCAACTCGTCAAAGGCTGCCAGTCCAAACTGTT
TCATGTTAGTGAGTTTCGAAGTTGGCTGTTACGCCAAGCATTTTCAAGTCGTGGTAAAGT
CTTTGGTCTACTGCATCGCCTCAAAAGGTTATAATATATCCCAGAATTGATGGATTAAGT
TCTTGAAATAGCACACCGTTATAAGTGATAAATATATTGTCTTCGAATAACGAATTTATT
AGATTTCTATGTATTTCTACTTGAAGTTAGGAATAGATCTTTCTGGAATTGTTTTCAGCA
AAATTATGCTTAAGCTATAACTATAGTGAGAATCAAGAATATGTCTGCCAATGATTTCAA
GCCTGAAACGTGGACTTCAAGCGCCAACGAAGCCTTAAGAGTTTCTATAGTTGGAGAAAA
CGCTGTTCAGTTTTCACCATTATTCACGTATCCAATTTACGGTGACTCCGAAAAGATCTA
CGGCTATAAGGATCTCATCATCCACCTAGCATTTGATTCAGTAACATTCAAGCCGTATGT
TAACGTCAAGTATTCAGCAAAATTAGGAGACGACAATATTGTAGACGTGGAAAAAAAATT
ACTCTCATTTCTACCAAAGGATGATGTAATTGTTAGGGATGAAGCTAAATGGGTAGATTG
CTTTGCAGAAGAACGAAAAACACATAATTTATCTGATGTTTTTGAAAAAGTATCAGAGTA
TTCGTTGAATGGGGAAGAATTTGTTGTATATAAATCGAGTTTGGTTGACGATTTTGCCAG
GAGAATGCATCGTCGTGTTCAAATCTTTTCATTACTTTTTATCGAAGCCGCTAACTATAT
AGATGAGACTGACCCGAGTTGGCAAATCTATTGGTTGTTGAACAAGAAAACAAAAGAATT
GATTGGTTTCGTCACTACTTACAAGTATTGGCACTACCTTGGAGCAAAATCTTTCGATGA
GGATATAGATAAAAAATTCAGAGCCAAAATATCTCAATTTCTGATCTTTCCACCTTATCA
AAATAAAGGCCACGGATCCTGTCTTTATGAGGCTATAATCCAATCTTGGCTAGAAGACAA
AAGTATTACTGAAATTACTGTAGAGGATCCAAACGAAGCATTTGACGATCTTCGCGACAG
GAATGATATTCAAAGACTGCGAAAACTTGGTTATGATGCTGTCTTTCAGAAGCACTCCGA
CCTTTCTGATGAGTTTTTGGAGTCAAGCCGAAAATCTTTAAAACTGGAAGAAAGACAGTT
TAATCGTCTTGTGGAAATGCTTCTTCTTTTAAACAATTCTCCATCATTTGAATTAAAGGT
AAAGAATAGGTTGTACATTAAAAATTATGATGCCCTAGATCAAACTGATCCAGAAAAGGC
AAGAGAAGCTTTACAAAATTCATTTATTTTAGTCAAAGATGATTATAGGCGTATTATAGA
GTCGATAAATAAATCTCAAGGTTAACTGTTTATTAAATATATAATAACATATTTATTTGT
TTAACAAGCCTGAAATAAGAAATTCTTTTATAAATACATCATCGAGATGATCATCAAAGT
GTCTCTATAGTTAATATAAGCTTATGCAAAGGTTGAAGCCGTTATGTTGTCGTAATTCTA
AATTACAGGTTATATTAAAGAGATTATCTTGACTGATATAAAATTTCTTATCATGGTAGT
GATCACAAATAGATCACATGATATATTTTTTATTTTTAATTTTTTTTAATTATAAAAATA
ATTTTTTTCTTTAAATTAAACAAAA

Coding sequence    

>SACE0P06182g.cds
ATGTCTGCCAATGATTTCAAGCCTGAAACGTGGACTTCAAGCGCCAACGAAGCCTTAAGA
GTTTCTATAGTTGGAGAAAACGCTGTTCAGTTTTCACCATTATTCACGTATCCAATTTAC
GGTGACTCCGAAAAGATCTACGGCTATAAGGATCTCATCATCCACCTAGCATTTGATTCA
GTAACATTCAAGCCGTATGTTAACGTCAAGTATTCAGCAAAATTAGGAGACGACAATATT
GTAGACGTGGAAAAAAAATTACTCTCATTTCTACCAAAGGATGATGTAATTGTTAGGGAT
GAAGCTAAATGGGTAGATTGCTTTGCAGAAGAACGAAAAACACATAATTTATCTGATGTT
TTTGAAAAAGTATCAGAGTATTCGTTGAATGGGGAAGAATTTGTTGTATATAAATCGAGT
TTGGTTGACGATTTTGCCAGGAGAATGCATCGTCGTGTTCAAATCTTTTCATTACTTTTT
ATCGAAGCCGCTAACTATATAGATGAGACTGACCCGAGTTGGCAAATCTATTGGTTGTTG
AACAAGAAAACAAAAGAATTGATTGGTTTCGTCACTACTTACAAGTATTGGCACTACCTT
GGAGCAAAATCTTTCGATGAGGATATAGATAAAAAATTCAGAGCCAAAATATCTCAATTT
CTGATCTTTCCACCTTATCAAAATAAAGGCCACGGATCCTGTCTTTATGAGGCTATAATC
CAATCTTGGCTAGAAGACAAAAGTATTACTGAAATTACTGTAGAGGATCCAAACGAAGCA
TTTGACGATCTTCGCGACAGGAATGATATTCAAAGACTGCGAAAACTTGGTTATGATGCT
GTCTTTCAGAAGCACTCCGACCTTTCTGATGAGTTTTTGGAGTCAAGCCGAAAATCTTTA
AAACTGGAAGAAAGACAGTTTAATCGTCTTGTGGAAATGCTTCTTCTTTTAAACAATTCT
CCATCATTTGAATTAAAGGTAAAGAATAGGTTGTACATTAAAAATTATGATGCCCTAGAT
CAAACTGATCCAGAAAAGGCAAGAGAAGCTTTACAAAATTCATTTATTTTAGTCAAAGAT
GATTATAGGCGTATTATAGAGTCGATAAATAAATCTCAAGGTTAA

Predicted translation product    

>SACE0P06182g.aa
MSANDFKPETWTSSANEALRVSIVGENAVQFSPLFTYPIYGDSEKIYGYKDLIIHLAFDS
VTFKPYVNVKYSAKLGDDNIVDVEKKLLSFLPKDDVIVRDEAKWVDCFAEERKTHNLSDV
FEKVSEYSLNGEEFVVYKSSLVDDFARRMHRRVQIFSLLFIEAANYIDETDPSWQIYWLL
NKKTKELIGFVTTYKYWHYLGAKSFDEDIDKKFRAKISQFLIFPPYQNKGHGSCLYEAII
QSWLEDKSITEITVEDPNEAFDDLRDRNDIQRLRKLGYDAVFQKHSDLSDEFLESSRKSL
KLEERQFNRLVEMLLLLNNSPSFELKVKNRLYIKNYDALDQTDPEKAREALQNSFILVKD
DYRRIIESINKSQG*



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