SACE0B02178g


Acetyl-coA hydrolase, primarily localized to mitochondria; phosphorylated; required for acetate utilization and for diploid pseudohyphal growth

Genomic environment map

Element type: CDS
Element length: 1581 nucleotides,
on sense strand of
Sace0B: 194125..195705.
Other names:
ACH1
YBL015W
Coding sequence: 527 codons.
Database cross references:
ArrayExpress: P32316
CYGD: YBL015w
EMBL: AAA34388.1
EMBL: CAA48570.1
EMBL: CAA84834.1
EMBL: M31036
EMBL: X68577
EMBL: Z35776
Ensembl: YBL015W
GeneID: 852266
GenomeReviews: Y13134_GR
HOGENOM: P32316
NMPDR: fig|4932.3.peg.231

Computed results  

None available yet

Homologs and Orthologs

Homologs in protein families: GL3R1841 GL3R1841.N1
Orthologs: strict determination not possible; homologs must be refined manually

Protein SACE0B02178p  


Protein domain map

Protein length: 526 amino acids
Protein family: GL3R1841
Database cross references:
DIP: DIP:6548N
GermOnline: YBL015W
IntAct: P32316
InterPro: IPR003702
KEGG: sce:YBL015W
LinkHub: P32316
PANTHER: PTHR21432
PIR: S28549
PeptideAtlas: P32316
Pfam: PF02550
RefSeq: NP_009538.1
SGD: S000000111
UniProtKB/Swiss-Prot: P32316
UniprotKB: ACH1_YEAST

Computed results for SACE0B02178p  

Blastp Genolevures
Blastp Uniprot

Gene Ontology terms  

GO:0006083 acetate metabolic process
GO:0005829 cytosol
GO:0005739 mitochondrion
GO:0003986 acetyl-CoA hydrolase activity

Sequence data  


Nucleotide sequence    

>SACE0B02178g.nt
TGGCAGAGATTATCGCCATCAACTACTACTGATATTCGGTATCATCGGTACACCTCACTC
AGATAATGATTTGCGGTGTATAGAGTCACCCAGGGCTAGAGAGTACATAAAGTCGCTTCC
CATGTACCCTGCCGCGCCACTGGAGAAGATGTTCCCTCGAGTCAACCCGAAAGGCATAGA
TCTTTTACAGCGTATGCTTGTTTTTGACCCTGCGAAGAGGATTACTGCTAAGGAGGCACT
GGAGCATCCGTATTTGCAAACATACCACGATCCAAACGACGAACCTGAAGGCGAACCCAT
CCCACCCAGCTTCTTCGAGTTTGATCACTACAAGGAGGCACTAACGACGAAAGACCTCAA
GAAACTCATTTGGAACGAAATATTTAGTTAGCCATCATTATCATTAAAATATCAACCCGA
AGAACAATGTATACATATACATATACGTACACATATACATATGTACATATGACATACGTA
TTAGCCGCTGAGGACGCGGACGTATAAAAGGACAATACTTATATGGAGCTAAGGGGAGCA
GTTACGCAACTCCGTGATCGCGCGCCACGGGCCGTCGGCGGCTGTTAATTGAAGAAAAAA
AAAATGAAGAACCACAAGGGGTGATCCATATAGGTGACTAGCATCATCCCCTGCGACGCG
CGGCCCGCCGGGCCAAAGGCGGGCAATGCGCGCTGCTGATTGGCCTCGAGGACAACGCCC
TCAACCACATCCGCAACAGCCAATCCCATCGGAGCGTCAAACTACCAAAGTAGTGATTGT
ATGGATGACCACTGTATTGTGGACGGTAAGCGCTTGCTGGAGCAAATGTGTAATCAAGTT
GCTGTGTATATATAGACGTTAGATGTGTTCTACCCCTTCTTTTGTCTTGTGCCCACCGGG
CTTACATTAGCACACAAAGCAGCAAGAGACCGTCTTACTAGACAATAGCGGCAAAACAAA
CAACACATTTCTTTTTTTCTTTTTCACATATTGCACTAAAATGACAATTTCTAATTTGTT
AAAGCAGAGAGTTAGGTATGCTCCCTATCTGAAAAAAGTTAAGGAAGCTCACGAGCTTAT
TCCATTGTTCAAGAATGGTCAGTACCTTGGGTGGTCCGGTTTTACAGGAGTGGGTACTCC
CAAGGCAGTGCCGGAGGCACTGATAGATCACGTGGAGAAGAACAATTTACAAGGGAAGTT
GAGATTCAACCTTTTTGTTGGAGCTTCTGCTGGTCCAGAGGAAAACCGTTGGGCTGAACA
CGACATGATCATTAAGAGAGCCCCTCATCAAGTAGGGAAACCCATTGCAAAGGCAATTAA
CCAGGGTAGAATTGAGTTCTTTGATAAACATCTGTCCATGTTCCCTCAGGATCTGACATA
CGGGTTCTACACCAGGGAAAGAAAAGACAACAAAATCCTTGATTATACTATAATCGAGGC
AACGGCCATTAAAGAGGACGGGTCTATCGTCCCAGGTCCCTCTGTCGGTGGTTCTCCAGA
ATTCATTACAGTCAGTGATAAAGTGATTATTGAGGTTAACACGGCTACGCCTTCGTTCGA
GGGTATTCACGATATAGACATGCCCGTGAACCCACCTTTCAGGAAACCATACCCATATCT
GAAAGTGGACGACAAGTGTGGTGTTGACTCCATCCCGGTTGATCCTGAAAAGGTTGTTGC
GATTGTGGAGTCCACCATGAGGGACCAGGTCCCACCAAATACGCCCTCTGACGACATGTC
CAGGGCTATTGCAGGTCATTTGGTCGAGTTTTTCAGAAACGAGGTAAAACATGGTAGGCT
ACCTGAAAACCTGCTGCCTTTACAAAGTGGTATAGGTAACATTGCTAACGCTGTCATTGA
AGGGCTTGCTGGCGCCCAATTCAAGCACTTGACTGTATGGACGGAAGTGCTGCAGGACTC
GTTCTTGGATCTTTTCGAGAACGGATCTTTGGACTACGCCACTGCTACTTCCGTGAGATT
GACTGAAAAGGGTTTCGACAGAGCCTTTGCAAACTGGGAAAATTTCAAACACAGATTGTG
TTTGAGATCTCAAGTTGTCTCGAACAATCCGGAAATGATCCGTAGATTGGGTGTCATCGC
CATGAATACCCCAGTAGAAGTTGACATTTACGCGCACGCCAATTCTACAAATGTGAATGG
TTCCCGTATGTTGAACGGGTTGGGTGGATCTGCTGATTTCTTGAGAAATGCAAAGTTGTC
CATCATGCATGCCCCCTCTGCAAGACCAACTAAAGTAGACCCTACCGGTATCTCTACCAT
TGTTCCTATGGCCTCTCATGTAGATCAAACTGAGCATGACCTGGACATCTTGGTCACTGA
CCAAGGTTTGGCGGATCTAAGAGGTCTATCGCCTAAGGAAAGAGCCCGTGAAATCATCAA
CAAGTGTGCTCATCCCGATTATCAAGCTTTGTTGACCGATTACTTGGACAGAGCAGAGCA
TTACGCTAAAAAGCACAATTGCTTGCATGAACCACACATGCTAAAGAATGCTTTCAAGTT
CCACACCAACTTAGCTGAAAAGGGTACAATGAAGGTCGACAGCTGGGAACCAGTTGACTA
GTGTTTGTGCGCAAACCGAGAGATGAGTATTTAACAAAAAAAAGAAAGGAAATGATATGA
TTATGATTTTATGTTTATAAAGCTTTTATCCAATGCGTTGTTTTTTCTTGCATATTTATA
CTTTTTGCGCTCATGGAGGGAGTTAATCAATACGCATGACGTCTAGTTAATTCACAGGTA
GTACTGTATATTTATATGTTTACACAATAATTATGTATTAAGTAGTGATTAGTAAAAAAA
ACTAAGAGGTTGAAAGTCATCAACCCTTATATTAATTTCAACGAATTTCGCTGATGACGT
C

Coding sequence    

>SACE0B02178g.cds
ATGACAATTTCTAATTTGTTAAAGCAGAGAGTTAGGTATGCTCCCTATCTGAAAAAAGTT
AAGGAAGCTCACGAGCTTATTCCATTGTTCAAGAATGGTCAGTACCTTGGGTGGTCCGGT
TTTACAGGAGTGGGTACTCCCAAGGCAGTGCCGGAGGCACTGATAGATCACGTGGAGAAG
AACAATTTACAAGGGAAGTTGAGATTCAACCTTTTTGTTGGAGCTTCTGCTGGTCCAGAG
GAAAACCGTTGGGCTGAACACGACATGATCATTAAGAGAGCCCCTCATCAAGTAGGGAAA
CCCATTGCAAAGGCAATTAACCAGGGTAGAATTGAGTTCTTTGATAAACATCTGTCCATG
TTCCCTCAGGATCTGACATACGGGTTCTACACCAGGGAAAGAAAAGACAACAAAATCCTT
GATTATACTATAATCGAGGCAACGGCCATTAAAGAGGACGGGTCTATCGTCCCAGGTCCC
TCTGTCGGTGGTTCTCCAGAATTCATTACAGTCAGTGATAAAGTGATTATTGAGGTTAAC
ACGGCTACGCCTTCGTTCGAGGGTATTCACGATATAGACATGCCCGTGAACCCACCTTTC
AGGAAACCATACCCATATCTGAAAGTGGACGACAAGTGTGGTGTTGACTCCATCCCGGTT
GATCCTGAAAAGGTTGTTGCGATTGTGGAGTCCACCATGAGGGACCAGGTCCCACCAAAT
ACGCCCTCTGACGACATGTCCAGGGCTATTGCAGGTCATTTGGTCGAGTTTTTCAGAAAC
GAGGTAAAACATGGTAGGCTACCTGAAAACCTGCTGCCTTTACAAAGTGGTATAGGTAAC
ATTGCTAACGCTGTCATTGAAGGGCTTGCTGGCGCCCAATTCAAGCACTTGACTGTATGG
ACGGAAGTGCTGCAGGACTCGTTCTTGGATCTTTTCGAGAACGGATCTTTGGACTACGCC
ACTGCTACTTCCGTGAGATTGACTGAAAAGGGTTTCGACAGAGCCTTTGCAAACTGGGAA
AATTTCAAACACAGATTGTGTTTGAGATCTCAAGTTGTCTCGAACAATCCGGAAATGATC
CGTAGATTGGGTGTCATCGCCATGAATACCCCAGTAGAAGTTGACATTTACGCGCACGCC
AATTCTACAAATGTGAATGGTTCCCGTATGTTGAACGGGTTGGGTGGATCTGCTGATTTC
TTGAGAAATGCAAAGTTGTCCATCATGCATGCCCCCTCTGCAAGACCAACTAAAGTAGAC
CCTACCGGTATCTCTACCATTGTTCCTATGGCCTCTCATGTAGATCAAACTGAGCATGAC
CTGGACATCTTGGTCACTGACCAAGGTTTGGCGGATCTAAGAGGTCTATCGCCTAAGGAA
AGAGCCCGTGAAATCATCAACAAGTGTGCTCATCCCGATTATCAAGCTTTGTTGACCGAT
TACTTGGACAGAGCAGAGCATTACGCTAAAAAGCACAATTGCTTGCATGAACCACACATG
CTAAAGAATGCTTTCAAGTTCCACACCAACTTAGCTGAAAAGGGTACAATGAAGGTCGAC
AGCTGGGAACCAGTTGACTAG

Predicted translation product    

>SACE0B02178g.aa
MTISNLLKQRVRYAPYLKKVKEAHELIPLFKNGQYLGWSGFTGVGTPKAVPEALIDHVEK
NNLQGKLRFNLFVGASAGPEENRWAEHDMIIKRAPHQVGKPIAKAINQGRIEFFDKHLSM
FPQDLTYGFYTRERKDNKILDYTIIEATAIKEDGSIVPGPSVGGSPEFITVSDKVIIEVN
TATPSFEGIHDIDMPVNPPFRKPYPYLKVDDKCGVDSIPVDPEKVVAIVESTMRDQVPPN
TPSDDMSRAIAGHLVEFFRNEVKHGRLPENLLPLQSGIGNIANAVIEGLAGAQFKHLTVW
TEVLQDSFLDLFENGSLDYATATSVRLTEKGFDRAFANWENFKHRLCLRSQVVSNNPEMI
RRLGVIAMNTPVEVDIYAHANSTNVNGSRMLNGLGGSADFLRNAKLSIMHAPSARPTKVD
PTGISTIVPMASHVDQTEHDLDILVTDQGLADLRGLSPKERAREIINKCAHPDYQALLTD
YLDRAEHYAKKHNCLHEPHMLKNAFKFHTNLAEKGTMKVDSWEPVD*



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