arath-F12A4.4

Arabidopsis thaliana (Mouse-ear cress); Arabidopsis lyrata subsp. lyrata (Lyre-leaved rock-cress) Carboxymethylenebutenolidase homolog

Comment

Other strains: Arabidopsis thaliana (Mouse-ear cress)\; Arabidopsis lyrata subsp. lyrata (Lyre-leaved rock-cress)

Relationship

Family : CMBL

Block : X

Position in NCBI Life Tree : Arabidopsis thaliana

(Below N is a link to NCBI taxonomic web page and E link to ESTHER at designed phylum.)

> cellular organisms N E > Eukaryota N E > Viridiplantae N E > Streptophyta N E > Streptophytina N E > Embryophyta N E > Tracheophyta N E > Euphyllophyta N E > Spermatophyta N E > Magnoliophyta N E > Mesangiospermae N E > eudicotyledons N E > Gunneridae N E > Pentapetalae N E > rosids N E > malvids N E > Brassicales N E > Brassicaceae N E > Camelineae N E > Arabidopsis N E > Arabidopsis thaliana N E

Molecular evidence

No mutation

No structure

No kinetic

No disease

No substrate

No inhibitor

Sequence

Peptide

MAASLASLSS LAKAGAPRSL FNRHGSHRLP PPQIIPLASS IKKHITTSFY RRGSSLKNIY ALETSDGAIN VEVDDDEEEE ACELVNGTEV SVDGVEGYLL TAVKNNNGTG LLLLSDVFGF QDSATRDFAY RVACNGYNVL VPDLFRGDPW SKNRPKSEYE EWRRGHDPNR IRQDTTTFTK WMVEEFAAAG ISKKLGVMGF CFGGGRVVDV LATDESGYFS TGVSFYGTRI DSAVAGDVKV PVLFIAGDRD PLCEVKGLYE IEEKIGEGSK VVVYEGRGHG FVHRPETPED DRDAEEAFAL MRNWLHHHLI

References (2)

Title : The Arabidopsis lyrata genome sequence and the basis of rapid genome size change - Hu_2011_Nat.Genet_43_476
Author(s) : Hu TT , Pattyn P , Bakker EG , Cao J , Cheng JF , Clark RM , Fahlgren N , Fawcett JA , Grimwood J , Gundlach H , Haberer G , Hollister JD , Ossowski S , Ottilar RP , Salamov AA , Schneeberger K , Spannagl M , Wang X , Yang L , Nasrallah ME , Bergelson J , Carrington JC , Gaut BS , Schmutz J , Mayer KF , Van de Peer Y , Grigoriev IV , Nordborg M , Weigel D , Guo YL
Ref : Nat Genet , 43 :476 , 2011
PubMedID: 21478890
Gene_locus related to this paper: arall-d7kc59 , arall-d7kfz1 , arall-d7kjk9 , arall-d7kk58 , arall-d7kuj1 , arall-d7kwx5 , arall-d7kzq8 , arall-d7laf7 , arall-D7LAK6 , arall-d7ltj2 , arall-d7lu11 , arall-d7ly06 , arall-d7lyn6 , arall-d7m1k0 , arall-d7m1k1 , arall-d7m1k3 , arall-d7m1l4 , arall-d7m814 , arall-d7mbk0 , arall-d7mbn8 , arall-d7mgs1 , arall-d7mi04 , arall-d7mld7 , arall-d7mpg7 , arall-d7mul9 , arath-At2g45610 , arath-At1g05790 , arath-At1g09980 , arath-At1g18360 , arath-AT1G29120 , arath-AT1G73920 , arath-AT1G76140 , arath-AT2G05260 , arath-At2g15230 , arath-At2g24280 , arath-AT2G42690 , arath-At2g47630 , arath-AT3G12150 , arath-At3g61680 , arath-AT3g62590 , arath-AT4G00500 , arath-AT4G25770 , arath-AT4g30610 , arath-At5g11650 , arath-At5g13640 , arath-AT5G19050 , arath-AT5G20060 , arath-AT5G20520 , arath-AT5G27320 , arath-At5g42930 , arath-At5g47330 , arath-CGEP , arath-clh1 , arath-clh2 , arath-F1N13.220 , arath-F2G14.100 , arath-F12A4.4 , arath-F14O10.2 , arath-SCP27 , arath-HNL , arath-GID1B , arath-LIP2 , arath-At5g17670 , arath-pip , arath-PLA11 , arath-PLA12 , arath-PLA13 , arath-PLA15 , arath-PLA17 , arath-Q8LPF5 , arath-Q9FFZ1 , arath-Q9FJ29 , arath-Q9FKP9 , arath-Q9FNF6 , arath-q9lhe8 , arath-Q9SFF6 , arath-q84w08 , arath-SCP7 , arath-SCP8 , arath-SCP26 , arath-SCP28 , arath-SCP33 , arath-SCP40 , arath-SCPL34 , arath-At4g12230 , arath-MES14 , arath-T19F11.2 , arath-MES10 , arath-At5g11790 , arath-T26B15.8 , arath-ZW18 , arall-d7l971 , arall-d7lfd3 , arall-d7lg04 , arall-d7lg05 , arall-d7lg06 , arall-d7lg07 , arall-d7mb17 , arall-d7mb18 , arall-d7l7v2 , arall-d7l7v3 , arall-d7lst0 , arall-d7lfw9 , arall-d7mgs6 , arall-d7mur3 , arall-d7kjr5 , arall-d7l7v1 , arall-d7ls88 , arall-d7kzg6 , arall-d7kcm6 , arall-d7krm0 , arall-d7kwe4 , arall-d7lri7 , arall-d7kq26

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
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