Sequence of CALS5_ARATH
EC Number:2.4.1.34
EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
Reaction
UDP-alpha-D-glucose + [(1->3)-beta-D-glucosyl]n = UDP + [(1->3)-beta-D-glucosyl]n+1
Other sequences found for EC No. 2.4.1.34
General information:
Sequence
0 MAQSSTSHDS GPQGLMRRPS RSAATTVSIE VFDHEVVPAS LGTIAPILRV AAEIEHERPR
60 VAYLCRFYAF EKAHRLDPSS GGRGVRQFKT LLFQRLERDN ASSLASRVKK TDGREVESFY
120 QQYYEHYVRA LDQGDQADRA QLGKAYQTAG VLFEVLMAVN KSEKVEAVAP EIIAAARDVQ
180 EKNEIYAPYN ILPLDSAGAS QSVMQLEEVK AAVAALGNTR GLNWPSGFEQ HRKKTGNLDL
240 LDWLRAMFGF QRDNVRNQRE HLVCLFADNH IRLTPKPEPL NKLDDRAVDT VMSKLFKNYK
300 NWCKFLGRKH SLRLPQAAQD IQQRKILYMG LYLLIWGEAA NIRFMPECLC YIFHNMAYEL
360 HGLLAGNVSI VTGENIKPSY GGDDEAFLRK VITPIYRVVQ TEANKNANGK AAHSDWSNYD
420 DLNEYFWTPD CFSLGWPMRD DGDLFKSTRD TTQGKKGSFR KAGRTGKSNF TETRTFWHIY
480 HSFDRLWTFY LLALQAMIIL AFERVELREI LRKDVLYALS SIFITAAFLR FLQSVLDVIL
540 NFPGFHRWKF TDVLRNILKI VVSLAWCVVL PLCYAQSVSF APGKLKQWLS FLPQVKGVPP
600 LYIMAVALYL LPNVLAAIMF IFPMLRRWIE NSDWHIFRLL LWWSQPRIYV GRGMHESQIA
660 LIKYTIFWLL LFCCKFAFSY FLQVKLLVKP TNAIMSIRHV KYKWHEFFPN AEHNYGAVVS
720 LWLPVILVYF MDTQIWYAIF STICGGVIGA FDRLGEIRTL GMLRSRFQSL PGAFNTYLVP
780 SDKTRRRGFS LSKRFAEVTA ARRTEAAKFS QLWNEIISSF REEDLISDRE MDLLLVPYTS
840 DPSLKLIQWP PFLLASKIPI ALDMAAQFRT RDSDLWKRIC ADEYMKCAVI ECYESFKHVL
900 HTLVIGENEK RIIGIIIKEV ESNISKNSFL SNFRMAPLPA LCSKFVELVG ILKNADPAKR
960 DTVVLLLQDM LEVVTRDMMQ NENRELVELG HTNKESGRQL FAGTDAKPAI LFPPVATAQW
1020 HEQISRLHLL LTVKESAMDV PTNLEAQRRI AFFTNSLFMD MPRAPRVRNM LSFSVLTPYY
1080 SEETVYSKND LEMENEDGVS VVYYLQKIFP DEWTNFLERL DCKDETSVLE SEENILQLRH
1140 WVSLRGQTLF RTVRGMMYYR RALKLQAFLD MANETEILAG YKAISEPTEE DKKSQRSLYT
1200 QLEAVADLKF TYVATCQNYG NQKRSGDRRA TDILNLMVNN PSLRVAYIDE VEEREGGKVQ
1260 KVFYSVLIKA VDNLDQEIYR IKLPGPAKIG EGKPENQNHA LIFTRGEALQ AIDMNQDHYL
1320 EEALKMRNLL EEFNEDHGVR APTILGFREH IFTGSVSSLA WFMSNQETSF VTIGQRVLAS
1380 PLKVRFHYGH PDVFDRIFHI TRGGISKASR GINLSEDIFA GFNSTLRRGN VTHHEYIQVG
1440 KGRDVGLNQI SLFEAKVACG NGEQTLSRDL YRLGHRFDFF RMMSCYFTTV GFYISSMIVV
1500 LTVYAFLYGR LYLSLSGVEE AIVKFAAAKG DSSLKAAMAS QSVVQLGLLM TLPMVMEIGL
1560 ERGFRTALSD LIIMQLQLAP VFFTFSLGTK VHYYGRTILH GGSKYRATGR GFVVKHEKFA
1620 ENYRMYSRSH FVKGMELMVL LICYRIYGKA AEDSVGYALV MGSTWFLVGS WLFAPFFFNP
1680 SGFEWQKIVD DWDDWNKWIS SRGGIGVPAN KSWESWWEEE QEHLLHSGFF GKFWEIFLSL
1740 RYFIYQYGIV YQLNLTKESR MGKQHSIIVY GLSWLVIVAV MIVLKIVSMG RKKFSADFQL
1800 MFRLLKLFLF IGSVVIVGML FHFLKLTVGD IMQSLLAFLP TGWALLQISQ VARPLMKTVG
1860 MWGSVKALAR GYEYIMGVVI FMPVTVLAWF PFVSEFQTRL LFNQAFSRGL QIQRILAGGK
1920 KQK
Download this sequence
Download all sequences for 2.4.1.34
Sequence related references
Sequence Reference
Authors
Title
Journal
Volume
Pages
Year
PubMed ID
650739
Nishikawa S.,Zinkl G.M.,Swanson R.J.,Maruyama D.,Preuss D.
Callose (beta-1,3 glucan) is essential for Arabidopsis pollen wall patterning, but not tube growth.
BMC Plant Biol.
5
22-22
2005
650740
Lin X.,Kaul S.,Rounsley S.D.,Shea T.P.,Benito M.-I.,Town C.D.,Fujii C.Y.,Mason T.M.,Bowman C.L.,Barnstead M.E.,Feldblyum T.V.,Buell C.R.,Ketchum K.A.,Lee J.J.,Ronning C.M.,Koo H.L.,Moffat K.S.,Cronin L.A.,Shen M.,Pai G.,Van Aken S.,Umayam L.,Tallon L.J.,Gill J.E.,Adams M.D.,Carrera A.J.,Creasy T.H.,Goodman H.M.,Somerville C.R.,Copenhaver G.P.,Preuss D.,Nierman W.C.,White O.,Eisen J.A.,Salzberg S.L.,Fraser C.M.,Venter J.C.
Sequence and analysis of chromosome 2 of the plant Arabidopsis thaliana.
Nature
402
761-768
1999
650741
Cheng C.Y.,Krishnakumar V.,Chan A.P.,Thibaud-Nissen F.,Schobel S.,Town C.D.
Araport11: a complete reannotation of the Arabidopsis thaliana reference genome.
Plant J.
89
789-804
2017
650742
Hong Z.,Delauney A.J.,Verma D.P.S.
A cell plate-specific callose synthase and its interaction with phragmoplastin.
Plant Cell
13
755-768
2001
650743
Dong X.,Hong Z.,Sivaramakrishnan M.,Mahfouz M.,Verma D.P.S.
Callose synthase (CalS5) is required for exine formation during microgametogenesis and for pollen viability in Arabidopsis.
Plant J.
42
315-328
2005
650744
Enns L.C.,Kanaoka M.M.,Torii K.U.,Comai L.,Okada K.,Cleland R.E.
Two callose synthases, GSL1 and GSL5, play an essential and redundant role in plant and pollen development and in fertility.
Plant Mol. Biol.
58
333-349
2005