actde-CXE3

Actinidia deliciosa (Kiwi); Actinidia chinensis var. chinensis (Chinese soft-hair kiwi) CXE3 carboxylesterase (EC 3.1.1.1)

Comment

Marshall S.D.G., Oakeshott J.G., Russell R.J., Plummer K.M., Newcomb R.D || Other strains: Actinidia chinensis var. chinensis (Chinese soft-hair kiwi)

Relationship

Family : Plant_carboxylesterase

Block : H

Position in NCBI Life Tree : Actinidia deliciosa

(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 > asterids N E > Ericales N E > Actinidiaceae N E > Actinidia N E > Actinidia deliciosa N E

Molecular evidence

No mutation

No structure

No kinetic

No disease

No substrate

No inhibitor

Database

Sequence

Peptide

MTATTVDPSL SLQINTKTHH HGAVVEEIEG LIRVYKDGHV ERSQIVPFVM SSVAPEPVVT SRDIVIDKPT NIWARFYLPK YHKNLPLLVY FHGGGFCVGS TAWSCYHEFL AKLAAKANCL ILSVNYRLAP ENRLAAAYDD GFKALMWVKQ QAICGSGNEW WSKQCNFSSI FLAGDSAGAN IAHNVAIRLN SCQPMSIKPL TIKGTILIQP FFGGERRTNS EKYTVEPPRS ALSLAASDTY WRLALPPGAS RDHPWCNPRA KGSIQLGELG ISPIMVCVAE MDVLRDRNLD MCAALARAGK QVECVVHKSV GHAFQVLNKS QLSQTRHLR

References (2)

Title : A manually annotated Actinidia chinensis var. chinensis (kiwifruit) genome highlights the challenges associated with draft genomes and gene prediction in plants - Pilkington_2018_BMC.Genomics_19_257
Author(s) : Pilkington SM , Crowhurst R , Hilario E , Nardozza S , Fraser L , Peng Y , Gunaseelan K , Simpson R , Tahir J , Deroles SC , Templeton K , Luo Z , Davy M , Cheng C , McNeilage M , Scaglione D , Liu Y , Zhang Q , Datson P , De Silva N , Gardiner SE , Bassett H , Chagne D , McCallum J , Dzierzon H , Deng C , Wang YY , Barron L , Manako K , Bowen J , Foster TM , Erridge ZA , Tiffin H , Waite CN , Davies KM , Grierson EP , Laing WA , Kirk R , Chen X , Wood M , Montefiori M , Brummell DA , Schwinn KE , Catanach A , Fullerton C , Li D , Meiyalaghan S , Nieuwenhuizen N , Read N , Prakash R , Hunter D , Zhang H , McKenzie M , Knabel M , Harris A , Allan AC , Gleave A , Chen A , Janssen BJ , Plunkett B , Ampomah-Dwamena C , Voogd C , Leif D , Lafferty D , Souleyre EJF , Varkonyi-Gasic E , Gambi F , Hanley J , Yao JL , Cheung J , David KM , Warren B , Marsh K , Snowden KC , Lin-Wang K , Brian L , Martinez-Sanchez M , Wang M , Ileperuma N , Macnee N , Campin R , McAtee P , Drummond RSM , Espley RV , Ireland HS , Wu R , Atkinson RG , Karunairetnam S , Bulley S , Chunkath S , Hanley Z , Storey R , Thrimawithana AH , Thomson S , David C , Testolin R , Huang H , Hellens RP , Schaffer RJ
Ref : BMC Genomics , 19 :257 , 2018
PubMedID: 29661190
Gene_locus related to this paper: actde-CXE3 , actde-CXE5 , actch-a0a2r6p9v4 , actch-a0a2r6phk8 , actch-a0a2r6pty2 , actch-q0zpu6 , actcc-a0a2r6q553 , actcc-a0a2r6quq2 , actcc-a0a2r6q2m9 , actcc-a0a2r6q2n7 , actcc-a0a2r6ru97 , actcc-a0a2r6r3e8 , actcc-a0a2r6qy24 , actcc-a0a2r6pzy5 , actcc-a0a2r6p5n3 , actcc-a0a2r6qdp0 , actcc-a0a2r6qgs9