Gene: YKL182W


Descriptive name:

FAS1

Model:

iND750

Position:

Left: 100671 – Right: 106826

Strand:

Plus

Chromosome:

NC_001143.9

DNA Sequence

ATGGACGCTTACTCCACAAGACCATTAACCCTATCTCACGGTTCTTTAGAGCACGTGCTTCTGGTACCAACCGCTTCATTTTTCATTGCTTCGCAATTACAAGAACAATTTAATAAAATTTTGCCCGAACCCACTGAAGGGTTTGCTGCAGATGACGAGCCTACCACACCTGCTGAACTAGTGGGGAAATTCCTTGGCTACGTATCTTCTCTAGTCGAACCTTCCAAGGTCGGTCAATTCGATCAGGTCTTGAACCTTTGCTTAACAGAATTTGAAAACTGTTATTTAGAAGGCAATGACATTCACGCCTTGGCTGCTAAACTATTACAGGAAAACGACACAACTTTAGTGAAGACTAAAGAACTAATTAAAAATTATATTACCGCCAGAATAATGGCTAAGAGACCATTTGACAAAAAATCCAACTCTGCTCTTTTTAGGGCCGTCGGCGAGGGTAACGCACAATTGGTAGCCATTTTCGGTGGTCAAGGTAACACCGACGACTACTTTGAAGAATTGCGTGATCTATATCAAACTTATCATGTCTTAGTGGGAGATTTAATCAAGTTCTCCGCTGAAACTTTAAGTGAACTGATTAGAACTACTTTAGATGCTGAAAAAGTCTTTACTCAAGGTTTAAACATATTGGAATGGTTGGAGAACCCTTCAAATACCCCAGACAAGGACTATTTACTTTCCATTCCAATTTCATGCCCCTTAATTGGTGTCATTCAATTGGCTCACTACGTAGTTACTGCCAAGCTTTTGGGTTTCACTCCAGGTGAGTTAAGATCTTACTTAAAAGGTGCTACAGGTCACTCTCAAGGTTTGGTTACTGCTGTCGCCATAGCTGAGACGGATTCCTGGGAATCCTTCTTCGTCTCCGTAAGAAAAGCAATTACTGTATTATTCTTCATCGGTGTTCGTTGTTACGAAGCATACCCAAACACTTCCCTACCACCATCCATCTTGGAAGATTCCTTGGAAAACAATGAAGGTGTTCCATCTCCAATGTTGTCCATTTCCAATCTAACTCAAGAACAAGTTCAAGACTATGTAAATAAGACTAACTCTCATTTGCCAGCTGGTAAACAAGTTGAAATTTCTCTAGTCAATGGTGCGAAGAATCTAGTCGTATCGGGCCCACCACAATCATTATATGGTTTAAACTTGACTTTAAGAAAGGCCAAGGCCCCATCTGGACTGGATCAATCAAGAATCCCATTCAGCGAAAGAAAATTGAAGTTCTCCAATAGGTTCTTACCTGTTGCATCACCATTCCATTCCCATCTATTGGTTCCAGCTTCAGATTTGATTAACAAAGACTTAGTCAAAAACAATGTCAGCTTTAACGCTAAAGATATTCAAATCCCCGTTTACGACACTTTTGATGGTTCAGATCTAAGAGTCCTTTCAGGTTCCATTTCCGAGAGAATCGTCGACTGCATCATTAGATTACCTGTCAAATGGGAAACTACTACACAATTCAAAGCCACCCACATATTAGACTTTGGTCCAGGTGGAGCTTCCGGTTTAGGTGTTTTAACCCATCGTAATAAAGATGGTACTGGTGTTCGTGTTATCGTTGCCGGTACTCTCGACATTAACCCAGATGATGATTACGGATTCAAGCAAGAAATCTTTGATGTTACTAGTAATGGTTTGAAGAAAAATCCAAACTGGTTGGAAGAATACCATCCAAAATTAATTAAGAACAAATCAGGCAAAATTTTTGTCGAAACAAAATTTTCTAAATTAATCGGTAGACCACCTTTATTGGTTCCTGGTATGACACCATGTACTGTTTCTCCAGATTTCGTAGCTGCTACCACAAATGCTGGTTATACCATTGAGTTGGCCGGTGGTGGTTACTTTTCCGCAGCAGGTATGACCGCCGCTATTGATTCTGTGGTTTCTCAGATAGAAAAGGGTAGTACCTTCGGTATCAACTTGATCTACGTCAATCCATTTATGTTACAATGGGGTATTCCATTAATCAAGGAACTAAGAAGCAAAGGTTATCCAATTCAATTCTTGACCATTGGTGCTGGTGTCCCATCATTGGAAGTTGCTAGTGAATACATAGAGACATTAGGTTTGAAGTACTTGGGTTTGAAACCAGGTTCCATTGATGCTATTTCGCAAGTTATAAACATTGCTAAAGCACATCCAAACTTCCCAATAGCTTTACAATGGACCGGTGGTAGAGGTGGTGGTCATCATTCTTTCGAAGATGCCCACACTCCAATGTTACAAATGTACTCCAAGATTAGAAGACATCCAAACATTATGTTGATATTCGGTTCTGGTTTCGGTTCTGCTGATGACACTTACCCATACTTAACCGGTGAATGGTCCACAAAATTCGATTATCCACCAATGCCATTCGATGGTTTCCTATTTGGTTCGAGGGTCATGATTGCTAAGGAAGTTAAAACTTCTCCTGATGCTAAGAAGTGTATTGCTGCTTGTACTGGTGTTCCTGATGATAAATGGGAACAAACCTACAAGAAGCCAACTGGTGGTATTGTCACTGTTCGCTCTGAAATGGGTGAACCAATTCACAAAATTGCCACTCGTGGTGTTATGCTATGGAAGGAATTCGACGAAACCATCTTCAACTTACCAAAGAATAAGTTGGTACCAACTTTGGAAGCAAAGAGAGATTACATTATCTCAAGATTGAACGCCGATTTCCAAAAACCATGGTTTGCTACCGTCAACGGTCAAGCCCGTGACCTAGCCACAATGACATACGAAGAAGTTGCAAAGAGATTGGTGGAATTAATGTTCATCAGATCTACCAACTCTTGGTTTGATGTCACATGGAGAACCTTTACTGGTGATTTCCTACGTCGTGTCGAAGAACGTTTCACTAAAAGTAAGACATTGTCTTTAATCCAATCCTATTCTCTACTAGACAAGCCTGATGAAGCTATTGAAAAAGTATTTAATGCTTATCCTGCCGCTAGGGAACAGTTCTTGAATGCGCAAGATATTGATCACTTTTTGAGCATGTGTCAAAATCCAATGCAAAAACCAGTGCCTTTTGTTCCAGTTTTGGATCGTAGATTCGAGATTTTTTTCAAAAAAGATTCGTTATGGCAATCTGAGCACTTGGAAGCCGTCGTCGACCAAGACGTTCAAAGAACATGTATCCTACATGGACCTGTTGCAGCACAATTCACTAAAGTCATCGATGAACCAATTAAGAGCATTATGGATGGTATTCACGATGGTCACATCAAAAAGTTACTACATCAATATTACGGTGACGATGAGTCAAAGATTCCAGCAGTTGAGTACTTTGGTGGTGAAAGCCCTGTAGACGTACAAAGTCAAGTTGATTCTTCCTCTGTATCTGAAGACTCAGCTGTTTTTAAGGCAACATCCTCTACTGATGAAGAAAGCTGGTTTAAGGCTTTGGCGGGATCCGAAATTAACTGGAGACATGCAAGTTTCTTATGTTCCTTTATCACTCAAGATAAAATGTTTGTTTCTAACCCAATTAGAAAAGTTTTCAAGCCAAGCCAAGGAATGGTTGTTGAGATTTCCAACGGCAATACTTCTTCAAAGACTGTTGTCACTCTTTCAGAACCTGTTCAAGGTGAATTGAAACCAACTGTTATTTTGAAGTTGTTGAAGGAGAACATAATCCAAATGGAAATGATTGAGAACAGAACTATGGATGGTAAGCCCGTCAGCTTGCCATTGTTGTACAACTTCAACCCAGATAATGGTTTTGCTCCAATCTCTGAAGTTATGGAGGACAGAAACCAAAGAATTAAGGAAATGTACTGGAAATTATGGATTGATGAGCCTTTCAATTTGGACTTTGACCCAAGAGATGTCATTAAGGGCAAAGATTTCGAGATCACCGCTAAAGAAGTTTATGACTTTACACACGCTGTTGGAAACAATTGTGAAGACTTCGTTTCTAGACCTGATAGAACGATGTTGGCCCCAATGGACTTTGCTATTGTTGTCGGATGGAGAGCCATCATCAAGGCCATTTTCCCTAATACGGTCGATGGTGACTTATTGAAGTTGGTTCATTTGTCTAACGGCTACAAGATGATTCCTGGCGCTAAGCCACTGCAAGTTGGTGATGTTGTTTCAACTACTGCTGTTATTGAATCTGTCGTCAACCAACCTACAGGAAAGATTGTCGATGTGGTAGGTACATTATCGAGAAATGGCAAGCCTGTCATGGAAGTCACCTCCTCATTCTTCTACAGAGGCAACTATACTGACTTTGAAAACACTTTCCAAAAGACTGTTGAACCTGTTTATCAAATGCACATCAAAACTTCTAAAGATATAGCTGTCTTGCGCTCTAAGGAGTGGTTCCAATTGGACGATGAAGACTTCGATCTGTTAAACAAAACTTTGACTTTCGAAACTGAAACTGAAGTTACTTTCAAGAATGCTAACATCTTCTCTTCAGTGAAATGTTTTGGCCCAATTAAAGTTGAATTGCCAACCAAAGAAACCGTGGAGATCGGTATTGTCGATTACGAAGCCGGTGCCTCTCACGGTAACCCTGTTGTTGATTTCTTGAAGAGAAACGGTTCCACATTGGAACAAAAGGTCAATCTAGAAAATCCTATTCCAATTGCAGTACTTGATTCGTACACTCCAAGTACCAACGAACCATACGCTAGAGTTTCTGGTGATTTGAATCCAATTCACGTTTCACGTCATTTTGCCTCTTACGCAAACTTGCCAGGTACTATCACGCACGGTATGTTTTCTTCTGCTTCCGTCCGTGCTTTGATTGAAAACTGGGCTGCTGACAGTGTTTCATCCAGGGTACGTGGCTACACTTGTCAATTTGTTGACATGGTTTTGCCTAACACTGCTTTGAAAACATCGATTCAACATGTTGGTATGATCAATGGTAGAAAATTGATAAAGTTTGAAACTAGAAATGAAGATGACGTTGTAGTTTTGACTGGTGAAGCCGAAATTGAACAACCTGTTACTACCTTCGTTTTCACTGGTCAAGGTTCACAAGAACAAGGTATGGGTATGGACTTATACAAAACTTCTAAAGCTGCTCAAGATGTTTGGAATAGAGCTGACAACCATTTCAAGGACACTTATGGTTTCTCTATCTTAGACATTGTCATTAACAACCCAGTTAACTTAACAATTCACTTCGGTGGTGAAAAGGGTAAGAGGATCAGAGAAAACTATTCTGCTATGATCTTTGAGACTATCGTGGATGGAAAATTGAAGACTGAAAAAATTTTCAAGGAAATTAATGAGCACAGTACTTCTTACACATTTAGATCTGAAAAAGGTTTATTGTCTGCTACTCAATTTACACAACCAGCTTTAACTTTGATGGAAAAAGCTGCTTTCGAAGACTTGAAATCTAAAGGTTTGATCCCAGCCGATGCTACTTTTGCTGGTCACTCTTTAGGTGAGTATGCTGCTTTGGCCTCTTTGGCTGATGTTATGTCTATCGAATCTTTAGTTGAAGTTGTGTTCTACAGAGGTATGACTATGCAAGTTGCTGTTCCAAGAGATGAGTTGGGCAGATCCAACTATGGTATGATTGCCATTAACCCAGGTAGAGTCGCTGCATCATTCTCTCAAGAAGCTTTGCAATATGTTGTTGAGAGAGTTGGTAAGAGAACCGGCTGGTTGGTTGAAATCGTCAACTACAACGTTGAAAACCAACAATATGTTGCAGCTGGTGATCTAAGAGCTTTAGACACCGTTACCAATGTTCTAAACTTCATCAAATTACAAAAAATTGATATTATTGAACTACAAAAGTCCTTATCTTTGGAAGAAGTTGAAGGTCATTTGTTTGAGATCATTGACGAAGCTTCCAAGAAATCTGCTGTCAAGCCTCGCCCACTTAAATTGGAGAGAGGTTTTGCTTGTATCCCATTAGTTGGTATTTCTGTTCCTTTCCATTCCACCTACTTGATGAATGGTGTTAAACCATTCAAGAGTTTCTTGAAGAAGAATATCATAAAAGAAAATGTGAAGGTTGCTAGATTGGCCGGAAAGTACATTCCAAACTTGACTGCAAAACCATTCCAGGTTACTAAGGAATATTTCCAGGACGTTTATGATTTGACTGGCTCCGAACCTATCAAGGAAATCATCGACAACTGGGAAAAGTATGAACAATCCTAA

Protein Sequence

MDAYSTRPLTLSHGSLEHVLLVPTASFFIASQLQEQFNKILPEPTEGFAADDEPTTPAELVGKFLGYVSSLVEPSKVGQFDQVLNLCLTEFENCYLEGNDIHALAAKLLQENDTTLVKTKELIKNYITARIMAKRPFDKKSNSALFRAVGEGNAQLVAIFGGQGNTDDYFEELRDLYQTYHVLVGDLIKFSAETLSELIRTTLDAEKVFTQGLNILEWLENPSNTPDKDYLLSIPISCPLIGVIQLAHYVVTAKLLGFTPGELRSYLKGATGHSQGLVTAVAIAETDSWESFFVSVRKAITVLFFIGVRCYEAYPNTSLPPSILEDSLENNEGVPSPMLSISNLTQEQVQDYVNKTNSHLPAGKQVEISLVNGAKNLVVSGPPQSLYGLNLTLRKAKAPSGLDQSRIPFSERKLKFSNRFLPVASPFHSHLLVPASDLINKDLVKNNVSFNAKDIQIPVYDTFDGSDLRVLSGSISERIVDCIIRLPVKWETTTQFKATHILDFGPGGASGLGVLTHRNKDGTGVRVIVAGTLDINPDDDYGFKQEIFDVTSNGLKKNPNWLEEYHPKLIKNKSGKIFVETKFSKLIGRPPLLVPGMTPCTVSPDFVAATTNAGYTIELAGGGYFSAAGMTAAIDSVVSQIEKGSTFGINLIYVNPFMLQWGIPLIKELRSKGYPIQFLTIGAGVPSLEVASEYIETLGLKYLGLKPGSIDAISQVINIAKAHPNFPIALQWTGGRGGGHHSFEDAHTPMLQMYSKIRRHPNIMLIFGSGFGSADDTYPYLTGEWSTKFDYPPMPFDGFLFGSRVMIAKEVKTSPDAKKCIAACTGVPDDKWEQTYKKPTGGIVTVRSEMGEPIHKIATRGVMLWKEFDETIFNLPKNKLVPTLEAKRDYIISRLNADFQKPWFATVNGQARDLATMTYEEVAKRLVELMFIRSTNSWFDVTWRTFTGDFLRRVEERFTKSKTLSLIQSYSLLDKPDEAIEKVFNAYPAAREQFLNAQDIDHFLSMCQNPMQKPVPFVPVLDRRFEIFFKKDSLWQSEHLEAVVDQDVQRTCILHGPVAAQFTKVIDEPIKSIMDGIHDGHIKKLLHQYYGDDESKIPAVEYFGGESPVDVQSQVDSSSVSEDSAVFKATSSTDEESWFKALAGSEINWRHASFLCSFITQDKMFVSNPIRKVFKPSQGMVVEISNGNTSSKTVVTLSEPVQGELKPTVILKLLKENIIQMEMIENRTMDGKPVSLPLLYNFNPDNGFAPISEVMEDRNQRIKEMYWKLWIDEPFNLDFDPRDVIKGKDFEITAKEVYDFTHAVGNNCEDFVSRPDRTMLAPMDFAIVVGWRAIIKAIFPNTVDGDLLKLVHLSNGYKMIPGAKPLQVGDVVSTTAVIESVVNQPTGKIVDVVGTLSRNGKPVMEVTSSFFYRGNYTDFENTFQKTVEPVYQMHIKTSKDIAVLRSKEWFQLDDEDFDLLNKTLTFETETEVTFKNANIFSSVKCFGPIKVELPTKETVEIGIVDYEAGASHGNPVVDFLKRNGSTLEQKVNLENPIPIAVLDSYTPSTNEPYARVSGDLNPIHVSRHFASYANLPGTITHGMFSSASVRALIENWAADSVSSRVRGYTCQFVDMVLPNTALKTSIQHVGMINGRKLIKFETRNEDDVVVLTGEAEIEQPVTTFVFTGQGSQEQGMGMDLYKTSKAAQDVWNRADNHFKDTYGFSILDIVINNPVNLTIHFGGEKGKRIRENYSAMIFETIVDGKLKTEKIFKEINEHSTSYTFRSEKGLLSATQFTQPALTLMEKAAFEDLKSKGLIPADATFAGHSLGEYAALASLADVMSIESLVEVVFYRGMTMQVAVPRDELGRSNYGMIAINPGRVAASFSQEALQYVVERVGKRTGWLVEIVNYNVENQQYVAAGDLRALDTVTNVLNFIKLQKIDIIELQKSLSLEEVEGHLFEIIDEASKKSAVKPRPLKLERGFACIPLVGISVPFHSTYLMNGVKPFKSFLKKNIIKENVKVARLAGKYIPNLTAKPFQVTKEYFQDVYDLTGSEPIKEIIDNWEKYEQS

Associated reactions:

BiGG ID
Name
Gene reaction rule
FA120ACPHi
Fatty-acyl-ACP hydrolase
YKL182W and YPL231W
FA140ACPHi
Fatty-acyl-ACP hydrolase
YKL182W and YPL231W
FA141ACPHi
Fatty-acyl-ACP hydrolase
YKL182W and YPL231W
FA160ACPHi
Fatty-acyl-ACP hydrolase
YKL182W and YPL231W
FA161ACPHi
Fatty-acyl-ACP hydrolase
YKL182W and YPL231W
FA180ACPH
Fatty acyl ACP hydrolase
YKL182W and YPL231W
FA181ACPH
Fatty acyl ACP hydrolase
YKL182W and YPL231W
FA182ACPH
Fatty acyl ACP hydrolase
YKL182W and YPL231W
ACOATA
Acetyl-CoA ACP transacylase
YKL182W and YPL231W
FAS100
Fatty acid synthase n C100
YGR037C and YNR016C and (YKL182W and YPL231W)
FAS100COA
Fatty acyl CoA synthase n C100CoA
YGR037C and (YKL182W and YPL231W) and YNR016C
FAS120
Fatty acid synthase n C120
YGR037C and YNR016C and (YKL182W and YPL231W)
FAS120COA
Fatty acyl CoA synthase n C120CoA
YGR037C and YNR016C and (YKL182W and YPL231W)
FAS140
Fatty acid synthase n C140
YGR037C and (YKL182W and YPL231W) and YNR016C
FAS140COA
Fatty acyl CoA synthase n C140CoA
YGR037C and YNR016C and (YKL182W and YPL231W)
FAS160
Fatty acid synthase n C160
YGR037C and (YKL182W and YPL231W) and YNR016C
FAS160COA
Fatty acyl CoA synthase n C160CoA
YGR037C and (YKL182W and YPL231W) and YNR016C
FAS180
Fatty acid synthase n C180
YGR037C and YNR016C and (YKL182W and YPL231W)
FAS180COA
Fatty acyl CoA synthase n C180CoA
YGR037C and YNR016C and (YKL182W and YPL231W)
FAS80COA_L
Fatty acyl CoA synthase n C80CoA lumped reaction
YGR037C and (YKL182W and YPL231W) and YNR016C
FAS80_L
Fatty acid synthase n C80 lumped reaction
YGR037C and YNR016C and (YKL182W and YPL231W)
MCOATA
Malonyl-CoA-ACP transacylase
YKL182W and YPL231W

Report an error on this page ?

External database links

Provided by MetaNetX (CC BY 4.0)

Old identifiers

    YKL182W

Latest BiGG Models publication:

King ZA, Lu JS, Dräger A, Miller PC, Federowicz S, Lerman JA, Ebrahim A, Palsson BO, and Lewis NE. BiGG Models: A platform for integrating, standardizing, and sharing genome-scale models (2016) Nucleic Acids Research 44(D1):D515-D522. doi:10.1093/nar/gkv1049


Copyright © 2019 The Regents of the University of California.