Identification |
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Name | Probable phospholipid-transporting ATPase DNF2 |
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Synonyms | Not Available |
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Gene Name | DNF2 |
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Enzyme Class | |
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Biological Properties |
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General Function | Involved in nucleotide binding |
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Specific Function | This magnesium-dependent enzyme catalyzes the hydrolysis of ATP coupled with the transport of phospholipids. Required for protein transport from Golgi to vacuoles |
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Cellular Location | Cell membrane; Multi-pass membrane protein |
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SMPDB Pathways | Lysolipid incorporation into ER PC(16:1(9Z)/16:1(9Z)) | PW002785 | | Lysolipid incorporation into ER PC(18:0/18:0) | PW002787 | | Lysolipid incorporation into ER PC(18:1(9Z)/18:1(9Z)) | PW002788 | | Lysolipid incorporation into ER PC(18:2(9Z,11Z)/18:2(9Z,11Z)) | PW002789 | | Lysolipid incorporation into ER PC(20:4(5Z,8Z,11Z,14Z)/20:4(5Z,8Z,11Z,14Z)) | PW002790 | |
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KEGG Pathways | Not Available |
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SMPDB Reactions |
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KEGG Reactions | Not Available |
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Metabolites | YMDB ID | Name | View |
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YMDB00109 | Adenosine triphosphate | Show | YMDB00890 | water | Show | YMDB00907 | phosphate | Show | YMDB00914 | ADP | Show | YMDB01175 | PC(14:0/0:0) | Show | YMDB01194 | PE(14:0/0:0) | Show | YMDB13347 | Lyso-PI(0:0/14:0) | Show | YMDB13365 | Lyso-PS(0:0/14:0) | Show |
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GO Classification | Component |
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cell part | membrane | membrane part | intrinsic to membrane | integral to membrane | Function |
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transporter activity | lipid transporter activity | transmembrane transporter activity | phospholipid transporter activity | phospholipid-translocating ATPase activity | hydrolase activity | substrate-specific transmembrane transporter activity | ion transmembrane transporter activity | binding | magnesium ion binding | nucleoside binding | ATPase activity, coupled to transmembrane movement of ions | catalytic activity | purine nucleoside binding | ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism | adenyl nucleotide binding | hydrolase activity, acting on acid anhydrides | adenyl ribonucleotide binding | hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances | ATP binding | ion binding | cation binding | metal ion binding | substrate-specific transporter activity | Process |
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cellular nitrogen compound metabolic process | nucleobase, nucleoside, nucleotide and nucleic acid metabolic process | establishment of localization | nucleobase, nucleoside and nucleotide metabolic process | transport | lipid transport | nucleoside phosphate metabolic process | phospholipid transport | nucleotide metabolic process | purine nucleotide metabolic process | purine nucleotide biosynthetic process | metabolic process | purine nucleoside triphosphate biosynthetic process | purine ribonucleoside triphosphate biosynthetic process | ATP biosynthetic process | nitrogen compound metabolic process |
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Gene Properties |
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Chromosome Location | chromosome 4 |
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Locus | YDR093W |
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Gene Sequence | >4839 bp
ATGTCAAGTCCCTCCAAACCCACTTCTCCCTTCGTGGATGATATTGAGCATGAATCGGGA
TCAGCATCTAATGGTCTGTCGTCCATGTCACCATTTGACGATAGTTTTCAATTTGAAAAA
CCCAGTAGTGCGCATGGAAATATTGAAGTAGCGAAAACCGGCGGTTCTGTTTTGAAGCGA
CAATCTAAGCCAATGAAAGATATTAGCACACCCGATCTCTCAAAAGTTACTTTTGATGGA
ATCGATGATTATAGTAACGATAATGATATTAATGATGATGATGAACTCAATGGTAAAAAA
ACCGAGATACATGAACACGAAAATGAGGTGGATGATGACCTCCATTCGTTCCAGGCAACA
CCTATGCCTAATACTGGAGGCTTTGAGGATGTTGAGTTGGATAACAATGAAGGTAGCAAC
AATGATTCCCAGGCAGATCATAAGTTGAAAAGAGTACGTTTTGGTACAAGAAGAAATAAG
TCAGGTAGGATAGATATAAATAGGTCAAAAACATTGAAATGGGCCAAGAAGAACTTCCAC
AATGCTATTGATGAATTCAGTACAAAAGAAGACAGTCTCGAAAATTCAGCCTTGCAAAAT
AGGTCTGATGAGTTGAGAACAGTTTACTATAATTTACCCTTGCCGGAGGACATGCTTGAC
GAGGACGGCTTACCGTTGGCAGTTTACCCGCGTAATAAAATCAGGACTACGAAGTATACT
CCATTAACATTTTTTCCCAAGAACATTCTTTTCCAATTTCATAATTTTGCCAATATTTAC
TTTTTAATACTGTTGATTCTAGGTGCTTTTCAAATATTTGGTGTGACAAATCCAGGTTTT
GCATCCGTTCCCCTAATTGTCATCGTAATTATCACTGCTATTAAGGATGGTATCGAAGAT
TCCAGAAGGACTGTATTGGATTTAGAAGTTAATAATACAAGAACACATATCTTAAGCGGG
GTGAAGAATGAAAATGTTGCTGTTGATAACGTTTCCTTATGGAGGCGTTTCAAGAAAGCG
AATACAAGGGCATTGATTAAAATTTTTGAGTATTTTTCAGAAAACCTCACTGCTGCTGGT
AGAGAAAAGAAGTTACAGAAAAAAAGGGAAGAATTACGAAGGAAGAGGAACTCGAGAAGC
TTTGGGCCACGTGGGTCTCTGGATTCAATTGGTAGTTACAGAATGTCTGCCGACTTTGGT
CGTCCCTCTTTGGATTATGAGAACCTGAATCAAACAATGTCACAGGCTAACAGGTATAAC
GATGGTGAAAATTTAGTTGATCGAACGCTACAGCCAAACCCTGAATGTAGGTTTGCCAAG
GATTACTGGAAAAATGTTAAAGTTGGTGATATTGTTCGTGTTCACAATAACGATGAAATT
CCTGCTGATATGATCTTATTATCGACATCAGATGTTGATGGCGCTTGTTATGTGGAAACC
AAAAATTTGGATGGTGAAACAAATCTAAAGGTCCGTCAATCATTAAAATGTAGCAAGATT
ATTAAGAGTTCAAGGGATATTACCAGGACGAAGTTTTGGGTTGAAAGTGAAGGCCCACAT
GCCAACTTGTATTCTTATCAAGGTAATTTCAAATGGCAAGATACACAAAATGGAAACATC
AGAAATGAGCCTGTAAATATCAATAACTTATTATTGAGAGGTTGTACCTTGAGAAACACT
AAGTGGGCCATGGGTATGGTTATTTTTACTGGTGACGATACCAAGATTATGATAAACGCT
GGTGTCACTCCAACCAAAAAATCCAGAATTTCAAGAGAGTTGAATTTTTCTGTGATTTTG
AATTTTGTACTATTGTTTATCCTATGTTTCACTGCTGGTATTGTTAACGGTGTTTATTAT
AAACAGAAACCTCGATCGAGAGATTATTTTGAATTTGGTACCATTGGAGGTTCTGCCTCA
ACTAACGGTTTTGTTTCTTTTTGGGTGGCGGTTATTCTTTATCAGTCATTGGTTCCGATC
TCTTTATATATTTCTGTGGAAATTATTAAGACAGCACAGGCTATTTTCATTTACACTGAT
GTTTTGTTGTATAATGCCAAGCTAGACTATCCATGTACACCAAAGTCGTGGAACATCTCC
GATGATTTGGGTCAAATTGAGTATATTTTTTCAGATAAAACAGGCACCTTGACACAAAAT
GTGATGGAATTCAAAAAATGTACTATTAACGGTGTGTCTTATGGACGTGCCTATACGGAG
GCACTAGCAGGCCTGAGGAAGAGACAAGGTGTTGATGTCGAATCGGAAGGTCGTCGCGAA
AAGGAAGAGATAGCAAAAGATAGGGAAACAATGATCGACGAATTAAGATCAATGAGTGAT
AATACACAGTTTTGTCCGGAGGATTTAACTTTTGTATCTAAGGAAATTGTGGAAGACTTG
AAAGGATCCAGTGGCGACCATCAACAAAAGTGCTGTGAACACTTTTTGCTGGCGCTCGCA
TTATGTCATTCTGTCCTTGTGGAGCCAAATAAAGATGATCCTAAAAAACTGGACATCAAG
GCTCAATCACCTGATGAGTCTGCCTTAGTTTCCACCGCCAGACAATTAGGGTACAGTTTC
GTTGGTAGTTCAAAAAGTGGATTGATAGTAGAGATCCAGGGTGTTCAAAAGGAGTTCCAA
GTTCTGAACGTACTTGAATTCAATTCGTCGAGAAAAAGGATGAGTTGCATTATCAAGATC
CCTGGCTCTACACCAAAGGATGAACCTAAAGCACTGTTAATATGTAAAGGTGCGGATTCC
GTTATCTATTCAAGATTAGATCGCACTCAAAACGACGCTACTTTGTTGGAAAAGACGGCC
CTCCATTTGGAAGAATATGCCACAGAAGGTTTAAGAACATTATGTTTGGCTCAAAGAGAG
CTCACGTGGTCCGAGTATGAACGTTGGGTTAAGACTTATGATGTGGCCGCTGCATCCGTT
ACTAATAGGGAGGAAGAGTTGGACAAAGTTACTGACGTTATTGAACGTGAGCTTATTTTG
CTTGGTGGTACGGCCATTGAGGATCGTTTACAAGATGGTGTTCCTGATTCGATTGCCCTC
TTGGCCGAGGCCGGTATTAAGTTATGGGTCCTAACGGGTGATAAAGTGGAAACTGCCATT
AACATTGGTTTTTCCTGCAATGTTTTGAACAATGATATGGAATTATTGGTTGTGAAGGCT
TCCGGCGAAGATGTAGAAGAATTTGGTAGTGACCCTATTCAAGTGGTTAACAATTTGGTG
ACAAAATACTTAAGGGAAAAATTTGGCATGAGTGGATCCGAGGAGGAGTTAAAAGAAGCT
AAAAGAGAGCATGGTTTGCCACAGGGAAATTTTGCTGTCATTATCGATGGCGATGCGCTA
AAAGTTGCTTTGAATGGTGAAGAAATGAGACGCAAGTTCTTGCTACTGTGTAAGAATTGT
AAAGCTGTTTTGTGTTGCAGAGTTTCTCCAGCACAAAAGGCTGCAGTGGTCAAGTTGGTA
AAAAAGACCTTAGACGTTATGACCTTGGCCATTGGTGATGGTTCGAATGATGTAGCCATG
ATTCAATCGGCGGACGTTGGTGTTGGTATCGCGGGTGAAGAAGGCAGACAAGCTGTCATG
TGTTCTGATTATGCCATCGGGCAGTTCAGATATGTGACAAGACTGGTATTGGTGCATGGT
AAATGGTGTTATAAGAGACTGGCAGAGATGATCCCACAGTTTTTCTACAAGAACGTTATT
TTTACGCTATCCCTGTTCTGGTATGGTATTTACAATAATTTCGATGGGTCGTATTTGTTT
GAGTATACGTACTTGACATTCTACAATCTTGCATTCACATCCGTACCTGTTATTTTACTA
GCAGTACTCGACCAAGATGTTTCCGACACCGTTTCGATGCTGGTGCCACAGTTGTACCGT
GTGGGTATCCTAAGAAAAGAATGGAACCAAACCAAATTTCTTTGGTACATGTTGGATGGT
GTATACCAATCTGTGATATGCTTCTTTTTCCCCTATTTGGCGTACCATAAAAACATGGTT
GTAACTGAAAATGGCCTTGGACTAGACCACCGTTACTTTGTCGGTGTCTTCGTTACAGCA
ATTGCAGTCACTTCATGTAACTTTTACGTCTTCATGGAACAGTATAGATGGGACTGGTTC
TGTGGCCTATTCATATGTCTATCACTGGCCGTGTTTTACGGCTGGACGGGTATATGGACA
AGCTCGTCGTCAAGTAACGAATTTTACAAGGGTGCGGCGCGTGTATTCGCACAACCTGCC
TATTGGGCAGTACTTTTCGTTGGCGTGCTGTTCTGCCTACTGCCAAGATTCACCATTGAC
TGTATCAGAAAGATATTCTATCCGAAAGATATAGAGATCGTTAGAGAAATGTGGTTACGC
GGTGATTTTGACCTCTACCCACAAGGCTACGACCCTACGGACCCTAGCAGGCCCAGAATA
AACGAAATACGTCCCCTTACAGATTTCAAAGAGCCCATTTCACTGGACACTCATTTTGAT
GGTGTCAGCCACTCACAAGAGACCATAGTCACAGAGGAAATACCAATGAGTATACTCAAT
GGTGAGCAAGGCTCGCGCAAGGGGTACCGTGTCTCTACCACTCTGGAACGCCGTGACCAG
CTCAGCCCCGTTACAACAACGAACAACTTGCCTAGAAGATCAATGGCCAGTGCCCGCGGA
AATAAGCTCAGAACTTCGCTGGATCGCACAAGAGAAGAGATGCTTGCCAACCACCAACTG
GACACAAGATACTCCGTGGAAAGAGCACGTGCCTCGCTGGATCTGCCGGGTATCAATCAT
GCAGAGACGCTGCTCAGCCAGCGCAGCAGGGACCGTTAA |
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Protein Properties |
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Pfam Domain Function | |
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Protein Residues | 1612 |
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Protein Molecular Weight | 182617.0 |
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Protein Theoretical pI | 6.04 |
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Signalling Regions | |
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Transmembrane Regions | - 253-273
- 278-298
- 599-619
- 640-660
- 1232-1252
- 1263-1283
- 1314-1334
- 1351-1371
- 1378-1398
- 1419-1439
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Protein Sequence | >Probable phospholipid-transporting ATPase DNF2
MSSPSKPTSPFVDDIEHESGSASNGLSSMSPFDDSFQFEKPSSAHGNIEVAKTGGSVLKR
QSKPMKDISTPDLSKVTFDGIDDYSNDNDINDDDELNGKKTEIHEHENEVDDDLHSFQAT
PMPNTGGFEDVELDNNEGSNNDSQADHKLKRVRFGTRRNKSGRIDINRSKTLKWAKKNFH
NAIDEFSTKEDSLENSALQNRSDELRTVYYNLPLPEDMLDEDGLPLAVYPRNKIRTTKYT
PLTFFPKNILFQFHNFANIYFLILLILGAFQIFGVTNPGFASVPLIVIVIITAIKDGIED
SRRTVLDLEVNNTRTHILSGVKNENVAVDNVSLWRRFKKANTRALIKIFEYFSENLTAAG
REKKLQKKREELRRKRNSRSFGPRGSLDSIGSYRMSADFGRPSLDYENLNQTMSQANRYN
DGENLVDRTLQPNPECRFAKDYWKNVKVGDIVRVHNNDEIPADMILLSTSDVDGACYVET
KNLDGETNLKVRQSLKCSKIIKSSRDITRTKFWVESEGPHANLYSYQGNFKWQDTQNGNI
RNEPVNINNLLLRGCTLRNTKWAMGMVIFTGDDTKIMINAGVTPTKKSRISRELNFSVIL
NFVLLFILCFTAGIVNGVYYKQKPRSRDYFEFGTIGGSASTNGFVSFWVAVILYQSLVPI
SLYISVEIIKTAQAIFIYTDVLLYNAKLDYPCTPKSWNISDDLGQIEYIFSDKTGTLTQN
VMEFKKCTINGVSYGRAYTEALAGLRKRQGVDVESEGRREKEEIAKDRETMIDELRSMSD
NTQFCPEDLTFVSKEIVEDLKGSSGDHQQKCCEHFLLALALCHSVLVEPNKDDPKKLDIK
AQSPDESALVSTARQLGYSFVGSSKSGLIVEIQGVQKEFQVLNVLEFNSSRKRMSCIIKI
PGSTPKDEPKALLICKGADSVIYSRLDRTQNDATLLEKTALHLEEYATEGLRTLCLAQRE
LTWSEYERWVKTYDVAAASVTNREEELDKVTDVIERELILLGGTAIEDRLQDGVPDSIAL
LAEAGIKLWVLTGDKVETAINIGFSCNVLNNDMELLVVKASGEDVEEFGSDPIQVVNNLV
TKYLREKFGMSGSEEELKEAKREHGLPQGNFAVIIDGDALKVALNGEEMRRKFLLLCKNC
KAVLCCRVSPAQKAAVVKLVKKTLDVMTLAIGDGSNDVAMIQSADVGVGIAGEEGRQAVM
CSDYAIGQFRYVTRLVLVHGKWCYKRLAEMIPQFFYKNVIFTLSLFWYGIYNNFDGSYLF
EYTYLTFYNLAFTSVPVILLAVLDQDVSDTVSMLVPQLYRVGILRKEWNQTKFLWYMLDG
VYQSVICFFFPYLAYHKNMVVTENGLGLDHRYFVGVFVTAIAVTSCNFYVFMEQYRWDWF
CGLFICLSLAVFYGWTGIWTSSSSSNEFYKGAARVFAQPAYWAVLFVGVLFCLLPRFTID
CIRKIFYPKDIEIVREMWLRGDFDLYPQGYDPTDPSRPRINEIRPLTDFKEPISLDTHFD
GVSHSQETIVTEEIPMSILNGEQGSRKGYRVSTTLERRDQLSPVTTTNNLPRRSMASARG
NKLRTSLDRTREEMLANHQLDTRYSVERARASLDLPGINHAETLLSQRSRDR |
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References |
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External Links | |
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General Reference | - Jacq, C., Alt-Morbe, J., Andre, B., Arnold, W., Bahr, A., Ballesta, J. P., Bargues, M., Baron, L., Becker, A., Biteau, N., Blocker, H., Blugeon, C., Boskovic, J., Brandt, P., Bruckner, M., Buitrago, M. J., Coster, F., Delaveau, T., del Rey, F., Dujon, B., Eide, L. G., Garcia-Cantalejo, J. M., Goffeau, A., Gomez-Peris, A., Zaccaria, P., et, a. l. .. (1997). "The nucleotide sequence of Saccharomyces cerevisiae chromosome IV." Nature 387:75-78.9169867
- Hua, Z., Fatheddin, P., Graham, T. R. (2002). "An essential subfamily of Drs2p-related P-type ATPases is required for protein trafficking between Golgi complex and endosomal/vacuolar system." Mol Biol Cell 13:3162-3177.12221123
- 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
- Kim, H., Melen, K., Osterberg, M., von Heijne, G. (2006). "A global topology map of the Saccharomyces cerevisiae membrane proteome." Proc Natl Acad Sci U S A 103:11142-11147.16847258
- 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
- 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
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