ATP-dependent bile acid permease (P32386) - Yeast Metabolome Database

Identification

Name

ATP-dependent bile acid permease

Synonyms

Not Available

Gene Name

YBT1

Enzyme Class

Not Available

Biological Properties

General Function

Involved in ATP binding

Specific Function

Exhibits ATP-dependent bile acid transport

Cellular Location

Membrane; Multi-pass membrane protein (Potential)

SMPDB Pathways

Not Available

KEGG Pathways

Not Available

SMPDB Reactions

Not Available

KEGG Reactions

taurocholic acid + Adenosine triphosphate + water → taurocholic acid + phosphate + hydron + ADP

Metabolites

YMDB ID	Name	View
YMDB00109	Adenosine triphosphate	Show
YMDB00770	taurocholic acid	Show
YMDB00862	hydron	Show
YMDB00890	water	Show
YMDB00914	ADP	Show

GO Classification

Component
cell part
membrane part
intrinsic to membrane
integral to membrane
Function
hydrolase activity
hydrolase activity, acting on acid anhydrides
hydrolase activity, acting on acid anhydrides, in phosphorus-containing anhydrides
binding
primary active transmembrane transporter activity
nucleoside binding
P-P-bond-hydrolysis-driven transmembrane transporter activity
purine nucleoside binding
ATPase activity, coupled to transmembrane movement of substances
adenyl nucleotide binding
pyrophosphatase activity
adenyl ribonucleotide binding
nucleoside-triphosphatase activity
ATP binding
ATPase activity
nucleotide binding
transporter activity
transmembrane transporter activity
active transmembrane transporter activity
catalytic activity
Process
transport
transmembrane transport
establishment of localization

Gene Properties

Chromosome Location

chromosome 12

Locus

YLL048C

Gene Sequence

>4986 bp ATGCATCACGTACTCAATTCAACGAGACCTGACCATCGGTTTTGGTTTTACGATGACGTA ACTCAGTACGGCAGAACAAAGTACCTTAATTATTATACTCCCTTAGTGCTTTTAATATTC ACGGTGTTGTTCATAACTTATAACATATGGAAACATTATTACTACTATGACGTTCTACAC TTGAAGCAAAAAAATCCAATTGATGAACTTTTATACTCATCTACCGACGAAGACGAACAG AGTCCGTTGATAAATAATAACACCATCACAACTAATTACGTGGACAATAATTGTACAAAA GACGCACTAAAAAATAGACACTTTTCTCTGGAAAAGCTGAAATCAGTTAAGGTAAATGGA GAACCTCATGGTACACCTGAAATAGTTAGAAGAGGCTTCATTGAAAAATCAAGAATTATC CTTGAATTTTTTTTGGTACTTTCTCAAGTTATAATACATTCTTTTATACTATTACACTAT GTCAATAAAAACCCAGAGTTCACCCAACAAGGTACGATTACTGGTTTGGTAGAATGGTGT GCATTGTTTATCATTGTCTCTTTACGTTTAGCAAATGTCAACCAAAATTTCAAATTCATA AACAAATATCCCGGAAATCTATGGTCGGTATCGTTCATAAACTATTTGGCCTTGTTTATC TCTATGATTTTACCCTTTCGTTCCATTTTCATTCACCATATAAACAGTCCTATTTCGAGA AAGTATTACATTTCACAAATATCGATTAACCTTGCCCTTTTCTTGCTACTCTTTTTTGCG AGGATAAGAAATAATTTTGCCATCATCTATAAAACTGACAGCTGGATTACTCCATCTCCA GAACCAGTCACTTCTATTGCTGGATTCATATGCTGGGCTTGGTTAGACAGTTTTGTTTGG AAAGCACACAAAGTTAGTATCAAAGTTAAGGATATTTGGGGATTGATGATGCAAGATTAT TCTTTCTTTGTAGTGAAAAAATTCAGATATTTTGTTGACCATAAGGTTAAAAGGAAGCGT ATTTTTTCACTAAACCTTTTCTTTTTCTTTTCGAATTATTTGGTACTACAATGCTTTTGG GCATTTTTAGGCAGCGTCCTTTCTTTTATTCCAACAGTTTTACTAAAAAGGATCCTGGAA TATGTTGAAGATCAGTCATCTGCTCCCTCAAATTTAGCTTGGTTTTACGTCACTGTCATG TTTGTAGGTAGGATATTAGTGGCTATTTGTCAAGCACAGGCACTATTCTTTGGAAGGAGA GTTTGTATCAGAATGAAAAGTATTATAATCTCTGAGATTTATACTAAAGCTTTGAGAAGA AAGATTTCCACCAACAAGACTAAACCTTCTAATGAGGATCCACAGGAAATTAATGATCAA AAAAGTATCAACGGCGATGAGGAGTCCACTTCTTCTGCCAACCTTGGAGCGATTATTAAT CTCATGGCTATTGACGCTTTCAAGGTTTCTGAAATTTGTGGTTACCTTCATTCATTTTTG GAGGCTTTTGTTATGACTGTTGTCGCACTGGCGCTGTTATACCGTCTGCTGGGTTTTGCT GCGATTGTGGGTGTCTTAATCATTGTCGCAATGCTTCCACTGAATTATAAGCTTGCCAAG TACATCGGCGATTTGCAAAAGAAAAACTTGGCTGTCACAGATAATCGTATTCAAAAGTTG AATGAAGCTTTTCAAGCTATCAGAATCATCAAATACTTTTCATGGGAGGAGAATTTTGAA AAAGATATCAATACTATTAGAGAAAATGAATTATCTCTACTGCTAATGAGATCCATTGTT TGGTCTATCAGTTCCTTTCTTTGGTTTGTTACCCCAACTATTGTAACAGCCGCCTCATTT GCTTACTACATTTACGTTCAAGGCGAGGTATTAACCACTCCGGTTGCCTTTACTGCACTT TCTTTATTCACGTTATTAAGAGATCCTTTGGATCGTTTGTCTGATATGTTAAGTTTTGTC GTTCAATCAAAGGTCTCGTTAGATAGAGTTCAGGATTTCTTAAATGAAAATGATACAAAG AAATACGATCAACTGACCATAGATCCAAATGGAAACAGATTTGCCTTTGAGAATTCCACC ATCTCTTGGGATAAGGACAATCAAGATTTCAAATTGAAAGACTTGAACATTGAATTCAAA ACTGGTAAACTAAATGTCGTTATTGGCCCCACTGGTTCTGGTAAGACATCCCTACTAATG GCATTATTAGGTGAAATGTATCTACTCAATGGTAAGGTTGTCGTCCCAGCTCTAGAACCA AGGCAGGAACTAATAGTAGATGCGAATGGAACCACTAACTCTATCGCTTATTGTTCTCAG GCCGCTTGGCTTCTAAATGATACTGTAAAAAACAACATTTTATTCAATAGTCCATTCAAT GAGGCAAGATATAAAGCTGTTGTCGAAGCATGCGGATTGAAACGTGATTTTGAGATCTTG AAAGCCGGTGACCTAACAGAAATCGGTGAGAAGGGTATTACTTTATCCGGTGGTCAAAAG CAGAGAGTCTCCCTTGCTAGAGCCTTGTATTCCAATGCTAGGCATGTCCTTTTGGATGAT TGTTTAAGTGCAGTTGATTCACATACTGCATCTTGGATTTACGATAATTGTATTACTGGA CCATTAATGGAAGATAGGACATGTATTTTGGTTTCACACAACATCGCCTTGACCTTGAGA AATGCTGAATTGGTAGTCTTACTAGAAGATGGTAGGGTTAAAGACCAAGGTGATCCAATA GACATGTTACAGAAGGGTTTGTTTGGTGAAGACGAGTTAGTGAAAAGTAGTATCTTATCG CGTGCAAACTCTTCTGCTAACTTAGCCGCAAAAAGTAGCACAAGCTTAAGTAACCTACCC GCTGTCAAAGAACAACAAGTTAGCGTGAACAACAACTCCTCCCACTTTGAAGCCAAGAAA CTTCAAAAATCATTGAGGACAGAAGCTGAACGCACTGAAGATGGTAAATTAATAAAAGAG GAAACAAAAGAAGAAGGTGTGGTTGGTCTGGATGTCTATAAATGGTATTTGAAAATTTTT GGTGGTTGGAAGATTGTTTCATTTTTAGCTTCCTTGTTCTTGATAGCCCAACTTTTGTAT ATCGGACAATCATGGTGGGTTCGTGCCTGGGCGTCACACAATGTCATTGCTAAAATTATT CCCAGAGCACAACGCGCTATTGCATTTATCTCCAAGAAGGCTAGTCATCTAATTGATTGG AGGGGCTCGTCCCAAATCAGTATGGCGTCAGCTGAAAACCAACCTTCCAGTGGACACTCT ACAATGTATTATCTGGTTTTGTACCTAATCATTGGTTTTGCTCAGGCTTTATTGGGAGCT GGTAAAACTATTTTAAATTTCGTTGCTGGTATCAACGCGTCAAGAAAGATATTTAATATG ATTCTAAACAAGGTTTTACACTCCAAGATAAGATTTTTTGATGCTACTCCAACAGGTAGA ATTATGAACAGGTTTTCCAAGGATATCGAAGCTATTGATCAGGAACTGACACCTTATATA CAAGGCGCCTTCTATTCGCTTATTGAATGTTTATCCACCGTCATACTGATTACATTTATT ACTCCACAGTTCTTATCTGTTGCTATAGTTGTTTCAATATTGTATTATTTTGTTGGGTAT TTCTACATGGCAGGTTCTCGTGAATTGAAAAGATTTGAATCTATTTCTAGATCACCGATC TATCAACATTTTTCCGAGACTCTTGTCGGTGTTACCACCATTCGTGCGTTTGGTGATGAA GGGAGGTTTATGCAAGAGAATTTACACAAAATTGATGAAAATAATAAACCATTCTTCTAC TTGTGGGTTGCTAATCGTTGGTTGGCCTTTAGGATAGATATGATTGGATCCTTGGTCATT TTTGGAGCTGGTTTGTTCATTCTATTCAATATTAATAATCTGGATTCGGGTATGGCTGGT ATATCTTTGACGTATGCTATTTCCTTCACTGAAGGGGCATTGTGGTTGGTAAGATTGTAC TCTGAAGTGGAGATGAATATGAATTCTGTTGAAAGAGTCAAAGAATATATGGAAATTGAG CAAGAGCCATACAACGAACACAAAGAAATACCGCCACCACAATGGCCACAAGACGGTAAA ATCGAGGTTAATGATTTATCATTACGGTATGCTCCAAATCTACCTAGAGTAATTAAAAAT GTTTCATTTTCTGTCGACGCTCAGTCTAAGATCGGTATTGTTGGTAGAACCGGTGCCGGT AAATCAACTATTATTACCGCCTTGTTCAGATTTTTGGAACCTGAGACAGGCCATATCAAA ATTGATAATATCGATATTTCCGGTGTTGATTTACAAAGACTGCGTCGTTCTATAACTATT ATTCCACAAGATCCAACACTATTCTCAGGGACGATTAAAACAAACCTAGACCCATATGAT GAATTTAGTGACAGACAGATCTTTGAAGCTTTGAAACGTGTAAATCTAATTAGTGAAGAA CAATTACAACAAGGCGCCACAAGAGAAACAAGCAATGAGGCTTCGTCGACTAACTCCGAA AATGTTAATAAATTCTTGGATTTAAGTAGTGAAATTAGCGAAGGTGGATCCAATTTGTCT CAAGGACAGCGCCAATTGATGTGCCTTGCTAGATCTTTACTGAGGAGTCCAAAGATCATA TTGCTGGACGAAGCTACAGCGTCCATCGACTACAGTTCCGATGCGAAGATCCAAGAAACC ATAAGAAAAGAGTTCCAAGGTAGTACAATTTTGACAATTGCACATAGGTTGAGATCTGTT ATCGATTATGATAAAATTTTGGTGATGGATGCAGGTGAGGTAAAAGAGTATGATCACCCA TATTCTTTGTTACTTAACAAACAAAGTGCCTTTTATAGCATGTGTGAGCATAGTGGAGAA TTGGATATCCTAATTGAATTGGCTAAAAAAGCCTTTGTGGAAAAATTGAACTCTAAAAAG GACTAG

Protein Properties

Pfam Domain Function

ABC_membrane (PF00664 )
ABC_tran (PF00005 )

Protein Residues

1661

Protein Molecular Weight

189160.0

Protein Theoretical pI

8.22

Signalling Regions

None

Transmembrane Regions

34-54
75-95
134-154
167-187
206-226
346-366
394-414
496-516
520-540
603-623
645-665
1054-1074
1115-1135
1179-1199
1201-1221
1293-1313
1316-1336

Protein Sequence

>ATP-dependent bile acid permease MHHVLNSTRPDHRFWFYDDVTQYGRTKYLNYYTPLVLLIFTVLFITYNIWKHYYYYDVLH LKQKNPIDELLYSSTDEDEQSPLINNNTITTNYVDNNCTKDALKNRHFSLEKLKSVKVNG EPHGTPEIVRRGFIEKSRIILEFFLVLSQVIIHSFILLHYVNKNPEFTQQGTITGLVEWC ALFIIVSLRLANVNQNFKFINKYPGNLWSVSFINYLALFISMILPFRSIFIHHINSPISR KYYISQISINLALFLLLFFARIRNNFAIIYKTDSWITPSPEPVTSIAGFICWAWLDSFVW KAHKVSIKVKDIWGLMMQDYSFFVVKKFRYFVDHKVKRKRIFSLNLFFFFSNYLVLQCFW AFLGSVLSFIPTVLLKRILEYVEDQSSAPSNLAWFYVTVMFVGRILVAICQAQALFFGRR VCIRMKSIIISEIYTKALRRKISTNKTKPSNEDPQEINDQKSINGDEESTSSANLGAIIN LMAIDAFKVSEICGYLHSFLEAFVMTVVALALLYRLLGFAAIVGVLIIVAMLPLNYKLAK YIGDLQKKNLAVTDNRIQKLNEAFQAIRIIKYFSWEENFEKDINTIRENELSLLLMRSIV WSISSFLWFVTPTIVTAASFAYYIYVQGEVLTTPVAFTALSLFTLLRDPLDRLSDMLSFV VQSKVSLDRVQDFLNENDTKKYDQLTIDPNGNRFAFENSTISWDKDNQDFKLKDLNIEFK TGKLNVVIGPTGSGKTSLLMALLGEMYLLNGKVVVPALEPRQELIVDANGTTNSIAYCSQ AAWLLNDTVKNNILFNSPFNEARYKAVVEACGLKRDFEILKAGDLTEIGEKGITLSGGQK QRVSLARALYSNARHVLLDDCLSAVDSHTASWIYDNCITGPLMEDRTCILVSHNIALTLR NAELVVLLEDGRVKDQGDPIDMLQKGLFGEDELVKSSILSRANSSANLAAKSSTSLSNLP AVKEQQVSVNNNSSHFEAKKLQKSLRTEAERTEDGKLIKEETKEEGVVGLDVYKWYLKIF GGWKIVSFLASLFLIAQLLYIGQSWWVRAWASHNVIAKIIPRAQRAIAFISKKASHLIDW RGSSQISMASAENQPSSGHSTMYYLVLYLIIGFAQALLGAGKTILNFVAGINASRKIFNM ILNKVLHSKIRFFDATPTGRIMNRFSKDIEAIDQELTPYIQGAFYSLIECLSTVILITFI TPQFLSVAIVVSILYYFVGYFYMAGSRELKRFESISRSPIYQHFSETLVGVTTIRAFGDE GRFMQENLHKIDENNKPFFYLWVANRWLAFRIDMIGSLVIFGAGLFILFNINNLDSGMAG ISLTYAISFTEGALWLVRLYSEVEMNMNSVERVKEYMEIEQEPYNEHKEIPPPQWPQDGK IEVNDLSLRYAPNLPRVIKNVSFSVDAQSKIGIVGRTGAGKSTIITALFRFLEPETGHIK IDNIDISGVDLQRLRRSITIIPQDPTLFSGTIKTNLDPYDEFSDRQIFEALKRVNLISEE QLQQGATRETSNEASSTNSENVNKFLDLSSEISEGGSNLSQGQRQLMCLARSLLRSPKII LLDEATASIDYSSDAKIQETIRKEFQGSTILTIAHRLRSVIDYDKILVMDAGEVKEYDHP YSLLLNKQSAFYSMCEHSGELDILIELAKKAFVEKLNSKKD

References

External Links

Resource	Link
Saccharomyces Genome Database	YBT1
Uniprot ID	P32386
Uniprot Name	YBT1_YEAST
GenBank Gene ID	Z73153
Genebank Protein ID	1360247

General Reference

Johnston, M., Hillier, L., Riles, L., Albermann, K., Andre, B., Ansorge, W., Benes, V., Bruckner, M., Delius, H., Dubois, E., Dusterhoft, A., Entian, K. D., Floeth, M., Goffeau, A., Hebling, U., Heumann, K., Heuss-Neitzel, D., Hilbert, H., Hilger, F., Kleine, K., Kotter, P., Louis, E. J., Messenguy, F., Mewes, H. W., Hoheisel, J. D., et, a. l. .. (1997). "The nucleotide sequence of Saccharomyces cerevisiae chromosome XII." Nature 387:87-90.9169871
Cusick, M. E. (1994). "RNP1, a new ribonucleoprotein gene of the yeast Saccharomyces cerevisiae." Nucleic Acids Res 22:869-877.8139928
Ortiz, D. F., St Pierre, M. V., Abdulmessih, A., Arias, I. M. (1997). "A yeast ATP-binding cassette-type protein mediating ATP-dependent bile acid transport." J Biol Chem 272:15358-15365.9182565
Ficarro, S. B., McCleland, M. L., Stukenberg, P. T., Burke, D. J., Ross, M. M., Shabanowitz, J., Hunt, D. F., White, F. M. (2002). "Phosphoproteome analysis by mass spectrometry and its application to Saccharomyces cerevisiae." Nat Biotechnol 20:301-305.11875433
Ghaemmaghami, S., Huh, W. K., Bower, K., Howson, R. W., Belle, A., Dephoure, N., O'Shea, E. K., Weissman, J. S. (2003). "Global analysis of protein expression in yeast." Nature 425:737-741.14562106
Gruhler, A., Olsen, J. V., Mohammed, S., Mortensen, P., Faergeman, N. J., Mann, M., Jensen, O. N. (2005). "Quantitative phosphoproteomics applied to the yeast pheromone signaling pathway." Mol Cell Proteomics 4:310-327.15665377
Li, X., Gerber, S. A., Rudner, A. D., Beausoleil, S. A., Haas, W., Villen, J., Elias, J. E., Gygi, S. P. (2007). "Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae." J Proteome Res 6:1190-1197.17330950
Smolka, M. B., Albuquerque, C. P., Chen, S. H., Zhou, H. (2007). "Proteome-wide identification of in vivo targets of DNA damage checkpoint kinases." Proc Natl Acad Sci U S A 104:10364-10369.17563356
Albuquerque, C. P., Smolka, M. B., Payne, S. H., Bafna, V., Eng, J., Zhou, H. (2008). "A multidimensional chromatography technology for in-depth phosphoproteome analysis." Mol Cell Proteomics 7:1389-1396.18407956