GDT1_DICDI » Probable inactive serine/threonine-protein kinase gdt1

GDT1_DICDI » Probable inactive serine/threonine-protein kinase gdt1
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Topology in Vacuolar membrane
Topologyvacuole lumenal side
cytoplasmic side
GDT1_DICDI » Probable inactive serine/threonine-protein kinase gdt1 » Growth-differentiation transition protein 1;
Hydrophobic Thickness 38.4 ± 5.4 Å
Tilt Angle 26 ± 14°
ΔGtransfer -23.4 kcal/mol
ΔGfold -20.7 kcal/mol
Links UniProtKB, Pfam, Interpro, iHOP, STRING
Topology Out
TM Segments 1004-1029 (1004-1034)
Pathways none
PDB none
OPM none
Complexes none
Interactions none
Domains

AA: 1381-1536, PDBID: 4L68, Subunit B, Seq Identity:44%, Protein tyrosine kinase

UniProt annotation for GDT1_DICDI » Probable inactive serine/threonine-protein kinase gdt1
FUNCTION: Regulates the transition between growth and differentiation.

DEVELOPMENTAL STAGE: Expressed in vegetative cells only (at protein level).

DOMAIN: The protein kinase domain is predicted to be catalytically inactive.

UniProt features for GDT1_DICDI » Probable inactive serine/threonine-protein kinase gdt1
SIGNAL 1 20 Potential.
CHAIN 21 1661 Probable inactive serine/threonine- protein kinase gdt1.
DOMAIN 1372 1661 Protein kinase.
Amino Acid Sequence for GDT1_DICDI » Probable inactive serine/threonine-protein kinase gdt1
MKKILLSIFF VVFLLIGSEC ELIDTPPGYY NLKKIDKFQQ FSKIQIERNN KTIYSSSFHD LFYPDICEGT IQNIPGSLYF GRSSFPGAQE SSNLMITRGT KMKYRVGNGG IPIYKINVLC IEGTLEIPEG ISFFNVGALF ILPGGVLNSK SSIRFTDLDP YNSKMDPFNF FPGMMVLGGS LSLIGEKKRI FQATRIDDYQ LQIEDFKKIG SLTNNIYLGS KVTIYSQQIS EGQTCSFSFG ASNDKINLTS SSSSSLRGTN CLPISKNDKN IIVHFNCKYL LGGSSESFID STSTVGSSIY ITGDSQVQIE NFTLDSIGKT TNKLYNDTKL IFSNDKPNQV IDIIKGENQR FRNSLYIEFS NSVVIKGCAI IDRVKESRAP LIFVSSNVSL SESLIVSKSG SNLIAQYGTE FIKSKLNHYF LIPPLPQPFG LNSPINFPSP FSMDYGFEGN GIYSLSPNVQ SINDTFISQL IALNFNFIGN RSIITGFDND CYSPCTNTSI LFSNLIQYPV DFKINNSTYF YKLNNNNNDN NNNTNNFNLL NINNENNNND DNNNNNNSQN HYLLNINNNG NSPGRFFTIK DLVASDTVSA YLPNSALVFN NLNATENFSF NGTVSRLDFI NSSFNTNLTS TQKFFDETTT TVTNFQNTYI YGSPETTEPP EKVFGSSITP IYYFSKSVLD SLKVETVYPN EPHKMFFNSS VSLSVKLNNM GLKTPIICIF SSNGMESKEV QYNPISTKCS FLYVSEKLGN HNIRVTIKNE YSKDSSYYFI IDFPIITVYG QSLFNAGWQM IDPTSTTIIP TPTPTSTSTS TSTSTPTTTN NNQLVNDNNN KINELDGLKF QGGCIKTLGC QLSSNAKYVG GLPNVTASST LNSLFSWGIT SDVQYDPVII DLFINKSIAT LQVQLFFTFY KPIDQYSSPL SVSIQKNPVL VMEPFAGDQP FSKNLTFVYN NTQSLDFLNI SFTSRGDIYL TSLAIFSVSD SLPQIIDPIT PTLLPIESVK ASKPAILAIV LSIVLGSLAL SIITILIVKH RKRLSQFLSK SNKDIEYAQN NEIEIKVLPK ITSHSSYPSI SILDTISSDS IFNNQIPKNN NRYKFKNQSL NNNNYFNNNN NNNNSNNNNS NNIIYSNCNS NYSNSNSNNN NNNNNSNSNN NSNSNSNINI NSNSNSNSNS NSNGNNNYQI YSNKLESFKI DEISNDTIPI INSTFPDEFQ TLEFQKLAFE ILKREKRLDF SFRTTNDILT CCALSDFKDF SNFPLRFNQS IITFGLINGK AKLGETYYDT LSITNDSTIR FTAFLILPMD NHSATFTSDH SSFDLGPGET FSIKFSITLH CTTRFFENFS IQINSNNIKE MYTLLKIKVE SESSTRLDFN DIHFQELIEK YSWEILYRGT VGDKNALLKL IKLKTKNCEE AYRELNIISR LKHQNILPLI GCVISKDYLC LAFEYPPLGS LDYIISKKKL KMSITQKIRI LIDVAKGCKF LQQSSIIQKT LRARNIFLYD TNENAEVCAK VLDLTSSKTI KGLACNNYIE RVDTPINLTR EISIIRDPKQ NNDFNNSNNS NNNNNNNNNN NNNNNNNSNN SNNSSSLKYN IHSFAVLSYE LLIDEILVGD TRKFGQEKPS IGLDKIDPNI KNFIHKCWNP IDGFTFNEIL KTLKDFIESL N