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arath-LCAT2

Arabidopsis thaliana (Mouse-ear cress) At1g04010 f21m11.5 Phospholipid--sterol O-acyltransferase PSAT

Comment

Relationship

Family : PC-sterol_acyltransferase

Block : L

Position in NCBI Life Tree : Arabidopsis thaliana

Molecular evidence

No mutation

No structure

No kinetic

No disease

No substrate

No inhibitor

Database

Sequence

Peptide

MGANSKSVTA SFTVIAVFFL ICGGRTAVED ETEFHGDYSK LSGIIIPGFA STQLRAWSIL DCPYTPLDFN PLDLVWLDTT KLLSAVNCWF KCMVLDPYNQ TDHPECKSRP DSGLSAITEL DPGYITGPLS TVWKEWLKWC VEFGIEANAI VAVPYDWRLS PTKLEERDLY FHKLKLTFET ALKLRGGPSI VFAHSMGNNV FRYFLEWLRL EIAPKHYLKW LDQHIHAYFA VGAPLLGSVE AIKSTLSGVT FGLPVSEGTA RLLSNSFASS LWLMPFSKNC KGDNTFWTHF SGGAAKKDKR VYHCDEEEYQ SKYSGWPTNI INIEIPSTSA RELADGTLFK AIEDYDPDSK RMLHQLKKYV PFFVIRNIAH RSSLAGFLLY HDDPVFNPLT PWERPPIKNV FCIYGAHLKT EVGYYFAPSG KPYPDNWIIT DIIYETEGSL VSRSGTVVDG NAGPITGDET VPYHSLSWCK NWLGPKVNIT MAPQILIGKI KQQPEHDGSD VHVELNVDHE HGSDIIANMT KAPRVKYITF YEDSESIPGK RTAVWELDKS GY

References

Title : Cellular sterol ester synthesis in plants is performed by an enzyme (phospholipid:sterol acyltransferase) different from the yeast and mammalian acyl-CoA:sterol acyltransferases - Banas_2005_J.Biol.Chem_280_34626
Author(s) : Banas A , Carlsson AS , Huang B , Lenman M , Banas W , Lee M , Noiriel A , Benveniste P , Schaller H , Bouvier-Nave P , Stymne S
Ref : Journal of Biological Chemistry , 280 :34626 , 2005
Abstract : Banas_2005_J.Biol.Chem_280_34626
ESTHER : Banas_2005_J.Biol.Chem_280_34626
PubMedSearch : Banas_2005_J.Biol.Chem_280_34626
PubMedID: 16020547
Gene_locus related to this paper: arath-LCAT2

Title : Sequence and analysis of chromosome 1 of the plant Arabidopsis thaliana - Theologis_2000_Nature_408_816
Author(s) : Theologis A , Ecker JR , Palm CJ , Federspiel NA , Kaul S , White O , Alonso J , Altafi H , Araujo R , Bowman CL , Brooks SY , Buehler E , Chan A , Chao Q , Chen H , Cheuk RF , Chin CW , Chung MK , Conn L , Conway AB , Conway AR , Creasy TH , Dewar K , Dunn P , Etgu P , Feldblyum TV , Feng J , Fong B , Fujii CY , Gill JE , Goldsmith AD , Haas B , Hansen NF , Hughes B , Huizar L , Hunter JL , Jenkins J , Johnson-Hopson C , Khan S , Khaykin E , Kim CJ , Koo HL , Kremenetskaia I , Kurtz DB , Kwan A , Lam B , Langin-Hooper S , Lee A , Lee JM , Lenz CA , Li JH , Li Y , Lin X , Liu SX , Liu ZA , Luros JS , Maiti R , Marziali A , Militscher J , Miranda M , Nguyen M , Nierman WC , Osborne BI , Pai G , Peterson J , Pham PK , Rizzo M , Rooney T , Rowley D , Sakano H , Salzberg SL , Schwartz JR , Shinn P , Southwick AM , Sun H , Tallon LJ , Tambunga G , Toriumi MJ , Town CD , Utterback T , Van Aken S , Vaysberg M , Vysotskaia VS , Walker M , Wu D , Yu G , Fraser CM , Venter JC , Davis RW
Ref : Nature , 408 :816 , 2000
Abstract : Theologis_2000_Nature_408_816
ESTHER : Theologis_2000_Nature_408_816
PubMedSearch : Theologis_2000_Nature_408_816
PubMedID: 11130712
Gene_locus related to this paper: arath-At1g05790 , arath-At1g09280 , arath-At1g09980 , arath-AT1G29120 , arath-AT1G52695 , arath-AT1G66900 , arath-At1g73750 , arath-AT1G73920 , arath-AT1G74640 , arath-AT1G76140 , arath-AT1G78210 , arath-clh1 , arath-F1O17.3 , arath-F1O17.4 , arath-F1O17.5 , arath-F5I6.3 , arath-At1g52700 , arath-F6D8.27 , arath-F6D8.32 , arath-F9L1.44 , arath-F9P14.11 , arath-F12A4.4 , arath-MES11 , arath-F14G24.2 , arath-F14G24.3 , arath-F14I3.4 , arath-F14O10.2 , arath-F16N3.25 , arath-LCAT2 , arath-At1g34340 , arath-MES15 , arath-CXE6 , arath-ICML1 , arath-At1g72620 , arath-LCAT1 , arath-PLA12 , arath-PLA15 , arath-PLA17 , arath-Q8L7S1 , arath-At1g15070 , arath-SCP2 , arath-SCP4 , arath-SCP5 , arath-SCP18 , arath-SCP32 , arath-SCP44 , arath-SCP45 , arath-SCPL6 , arath-F4IE65 , arath-At1g30370 , arath-T6L1.8 , arath-T6L1.20 , arath-T14P4.6 , arath-MES14 , arath-SCP3 , arath-AXR4 , arath-At1g10040 , arath-ZW18 , arath-pae2 , arath-pae1 , arath-a0a1p8awg3