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UniProtKB/Swiss-Prot entry Q9LNQ4

[Entry info] [Name and origin] [References] [Comments] [Cross-references] [Keywords] [Features] [Sequence] [Tools]

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Entry information
Entry name ALA4_ARATH
Primary accession number Q9LNQ4
Secondary accession numbers None
Integrated into Swiss-Prot on January 11, 2001
Sequence was last modified on January 11, 2001 (Sequence version 2)
Annotations were last modified on    November 25, 2008 (Entry version 63)
Name and origin of the protein
Protein name Putative phospholipid-transporting ATPase 4
Synonyms EC 3.6.3.1
Aminophospholipid flippase 4
Gene name
Name: ALA4
OrderedLocusNames: At1g17500
ORFNames: F1L3.21
From
Arabidopsis thaliana (Mouse-ear cress) [TaxID: 3702] 
Taxonomy Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta; Spermatophyta; Magnoliophyta; eudicotyledons; core eudicotyledons; rosids; eurosids II; Brassicales; Brassicaceae; Arabidopsis.
Protein existence 2: Evidence at transcript level;
References
[1]
 NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA].
STRAIN=cv. Columbia;
DOI=10.1038/35048500; PubMed=11130712 [NCBI, ExPASy, EBI, Israel, Japan]
Theologis A., Ecker J.R., Palm C.J., Federspiel N.A., Kaul S., White O., Alonso J., Altafi H., Araujo R., Bowman C.L., Brooks S.Y., Buehler E., Chan A., Chao Q., Chen H., Cheuk R.F., Chin C.W., Chung M.K., Conn L., Conway A.B., Conway A.R., Creasy T.H., Dewar K., Dunn P., Etgu P., Feldblyum T.V., Feng J.-D., Fong B., Fujii C.Y., Gill J.E., Goldsmith A.D., Haas B., Hansen N.F., Hughes B., Huizar L., Hunter J.L., Jenkins J., Johnson-Hopson C., Khan S., Khaykin E., Kim C.J., Koo H.L., Kremenetskaia I., Kurtz D.B., Kwan A., Lam B., Langin-Hooper S., Lee A., Lee J.M., Lenz C.A., Li J.H., Li Y.-P., Lin X., Liu S.X., Liu Z.A., Luros J.S., Maiti R., Marziali A., Militscher J., Miranda M., Nguyen M., Nierman W.C., Osborne B.I., Pai G., Peterson J., Pham P.K., Rizzo M., Rooney T., Rowley D., Sakano H., Salzberg S.L., Schwartz J.R., Shinn P., Southwick A.M., Sun H., Tallon L.J., Tambunga G., Toriumi M.J., Town C.D., Utterback T., Van Aken S., Vaysberg M., Vysotskaia V.S., Walker M., Wu D., Yu G., Fraser C.M., Venter J.C., Davis R.W.;
"Sequence and analysis of chromosome 1 of the plant Arabidopsis thaliana.";
Nature 408:816-820(2000).
Comments
Copyright
Copyrighted by the UniProt Consortium, see http://www.uniprot.org/terms. Distributed under the Creative Commons Attribution-NoDerivs License.
Cross-references
Sequence databases
EMBL
AC022492; AAF79467.1; ALT_SEQ; Genomic_DNA.[EMBL / GenBank / DDBJ] [CoDingSequence]
RefSeq NP_173193.2; -.
3D structure databases
ModBase Q9LNQ4.
Organism-specific databases
TAIR At1g17500; -.
Gene expression databases
ArrayExpress Q9LNQ4; -.
GermOnline AT1G17500; Arabidopsis thaliana.
Ontologies
GO
GO:0016021; Cellular component: integral to membrane (inferred from electronic annotation from InterPro).
GO:0005524; Molecular function: ATP binding (inferred from electronic annotation from InterPro).
GO:0015662; Molecular function: ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism (inferred from electronic annotation from InterPro).
GO:0000287; Molecular function: magnesium ion binding (inferred from electronic annotation from InterPro).
GO:0004012; Molecular function: phospholipid-translocating ATPase activity (inferred from electronic annotation from InterPro).
GO:0008152; Biological process: metabolic process (inferred from electronic annotation from InterPro).
GO:0015914; Biological process: phospholipid transport (inferred from electronic annotation from InterPro).
QuickGo view.
Family and domain databases
InterPro IPR001757; ATPase_P.
IPR005834; Dehalogen-like_hydro.
IPR006539; Flippase.
IPR013200; HAD-SF_hydro-like_3.
Graphical view of domain structure.
PANTHER PTHR11939; ATPase_P; 1.
Pfam PF00702; Hydrolase; 1.
PF08282; Hydrolase_3; 1.
Pfam graphical view of domain structure.
PRINTS PR00119; CATATPASE.
TIGRFAMs TIGR01652; ATPase-Plipid; 1.
TIGR01494; ATPase_P-type; 4.
PROSITE PS00154; ATPASE_E1_E2; 1.
ProtoNet Q9LNQ4.
Genome annotation databases
GeneID 838324; -.
GenomeReviews CT485782_GR; AT1G17500.
KEGG ath:AT1G17500; -.
Other
UniRef View cluster of proteins with at least 50% / 90% / 100% identity.
Keywords
ATP-binding; Complete proteome; Hydrolase; Magnesium; Membrane; Metal-binding; Nucleotide-binding; Phosphoprotein; Transmembrane.
Features
SEVIEWER logo Feature table viewer FT aligner logo Feature aligner
KeyFrom    To Length Description FTId
CHAIN   1   1216  1216     Putative phospholipid-transporting ATPase 4. PRO_0000046388
TOPO_DOM   1     74  74     Cytoplasmic (Potential). 
TRANSMEM   75     96  22     Potential. 
TOPO_DOM   97    100  4     Extracellular (Potential). 
TRANSMEM   101    123  23     Potential. 
TOPO_DOM   124    305  182     Cytoplasmic (Potential). 
TRANSMEM   306    327  22     Potential. 
TOPO_DOM   328    359  32     Extracellular (Potential). 
TRANSMEM   360    377  18     Potential. 
TOPO_DOM   378    922  545     Cytoplasmic (Potential). 
TRANSMEM   923    942  20     Potential. 
TOPO_DOM   943    956  14     Extracellular (Potential). 
TRANSMEM   957    976  20     Potential. 
TOPO_DOM   977   1006  30     Cytoplasmic (Potential). 
TRANSMEM   1007   1029  23     Potential. 
TOPO_DOM   1030   1042  13     Extracellular (Potential). 
TRANSMEM   1043   1065  23     Potential. 
TOPO_DOM   1066   1071  6     Cytoplasmic (Potential). 
TRANSMEM   1072   1092  21     Potential. 
TOPO_DOM   1093   1109  17     Extracellular (Potential). 
TRANSMEM   1110   1134  25     Potential. 
TOPO_DOM   1135   1216  82     Cytoplasmic (Potential). 
ACT_SITE   425    425        4-aspartylphosphate intermediate (By similarity). 
METAL   867    867        Magnesium (By similarity). 
METAL   871    871        Magnesium (By similarity). 
Sequence information
Length: 1216 AA [This is the length of the unprocessed precursor] Molecular weight: 138189 Da [This is the MW of the unprocessed precursor] CRC64: FC9B0CD7F96D21E1 [This is a checksum on the sequence] 
        10         20         30         40         50         60 
MARGRIRSKL RLSHIYTFGC LRPSADEGQD PHPIQGPGFS RTVYCNQPHM HKKKPLKYRS 

        70         80         90        100        110        120 
NYVSTTRYNL ITFFPKCLYE QFHRAANFYF LVAAILSVFP LSPFNKWSMI APLVFVVGLS 

       130        140        150        160        170        180 
MLKEALEDWS RFMQDVKINA SKVYVHKSDG EFRRRKWKKI SVGDIVKVEK DGFFPADLLL 

       190        200        210        220        230        240 
LSSSYEDGIC YVETMNLDGE TNLKVKRSLE VTLSLDDYDS FKDFTGIIRC EDPNPSLYTF 

       250        260        270        280        290        300 
VGNLEYERQI FPLDPSQILL RDSKLRNTPY VYGVVVFTGH DTKVMQNSTK SPSKRSRIEK 

       310        320        330        340        350        360 
TMDYIIYTLL VLLILISCIS SSGFAWETKF HMPKWWYLRP EEPENLTNPS NPVYAGFVHL 

       370        380        390        400        410        420 
ITALLLYGYL IPISLYVSIE VVKVLQASFI NKDLHMYDSE SGVPAHARTS NLNEELGQVD 

       430        440        450        460        470        480 
TILSDKTGTL TCNQMDFLKC SIAGTSYGVR SSEVEVAAAQ QMAVDLDEHG EVSSRTSTPR 

       490        500        510        520        530        540 
AQARDIEVES SITPRIPIKG FGFEDIRLMD GNWLREPHTD DILLFFRILA ICHTAIPELN 

       550        560        570        580        590        600 
EETGKYTYEA ESPDEASFLT AASEFGFVFF KRTQSSVYVH ERLSHSGQTI EREYKVLNLL 

       610        620        630        640        650        660 
DFTSKRKRMS VVVRDEEGQI LLLCKGADSI IFERLAKNGK VYLGPTTKHL NEYGEAGLRT 

       670        680        690        700        710        720 
LALSYRKLDE EEYSAWNAEF HKAKTSIGSD RDELLERISD MIEKDLILVG ATAVEDKLQK 

       730        740        750        760        770        780 
GVPQCIDKLA QAGLKLWVLT GDKMETAINI GYSCSLLRQG MKQICITVVN SEGASQDAKA 

       790        800        810        820        830        840 
VKDNILNQIT KAVQMVKLEK DPHAAFALII DGKTLTYALE DEMKYQFLAL AVDCASVICC 

       850        860        870        880        890        900 
RVSPKQKALV TRLVKEGTGK ITLAIGDGAN DVGMIQEADI GVGISGVEGM QAVMASDFSI 

       910        920        930        940        950        960 
AQFRFLERLL VVHGHWCYKR IAQMICYFFY KNIAFGLTLF YFEAFTGFSG QSVYNDYYLL 

       970        980        990       1000       1010       1020 
LFNVVLTSLP VIALGVFEQD VSSEICLQFP ALYQQGKKNL FFDWYRILGW MGNGVYSSLV 

      1030       1040       1050       1060       1070       1080 
IFFLNIGIIY EQAFRVSGQT ADMDAVGTTM FTCIIWAVNV QIALTVSHFT WIQHVLIWGS 

      1090       1100       1110       1120       1130       1140 
IGLWYLFVAL YGMMPPSLSG NIYRILVEIL APAPIYWIAT FLVTVTTVLP YFAHISFQRF 

      1150       1160       1170       1180       1190       1200 
LHPLDHHIIQ EIKYYKRDVE DRRMWTRERT KAREKTKIGF TARVDAKIRH LRSKLNKKQS 

      1210 
NMSQFSTQDT MSPRSV
Q9LNQ4 in FASTA format

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