GDT6_DICDI » Probable inactive serine/threonine-protein kinase gdt6

GDT6_DICDI » Probable inactive serine/threonine-protein kinase gdt6
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Topology in Plasma membrane
Topologyextracellular side
cytoplasmic side
GDT6_DICDI » Probable inactive serine/threonine-protein kinase gdt6 » Growth-differentiation transition protein 6;
Hydrophobic Thickness 40.0 ± 4.2 Å
Tilt Angle 0 ± 0°
ΔGtransfer -30.8 kcal/mol
ΔGfold -21.2 kcal/mol
Links UniProtKB, Pfam, Interpro, iHOP, STRING
Topology Out
TM Segments 969- 996 (967-1000)
Pathways none
PDB none
OPM none
Complexes none
Interactions none
Domains

AA: 1194-1434, PDBID: 4L68, Subunit B, Seq Identity:39%, Protein tyrosine kinase

UniProt annotation for GDT6_DICDI » Probable inactive serine/threonine-protein kinase gdt6
DOMAIN: The protein kinase domain is predicted to be catalytically inactive.
UniProt features for GDT6_DICDI » Probable inactive serine/threonine-protein kinase gdt6
SIGNAL 1 23 Potential.
CHAIN 24 1452 Probable inactive serine/threonine- protein kinase gdt6.
DOMAIN 1194 1452 Protein kinase.
Amino Acid Sequence for GDT6_DICDI » Probable inactive serine/threonine-protein kinase gdt6
MINKISRFKI LLLFIFIISL TCAQDEELIS TPEGYYDLKR FKRFQHYKNI QPNEEAGYTD LYYPDVCKNA IRNRDGAPTF NQRSFPGYTG VFDTLLITKG TNMTLDSTGF LTGLGIWSLL TLCVEGNLTV LYNPDEFSFV PVHRLVILPG GTITSHANSF LFWDTYQVDE NFQEELNKRV KIDPFNFFPG LLVLGGNLNL FGNSQLTYTA KRLNDTTLEL STPFLNMKFL WNKYIITIFT ESIPQGDDCL FNMDSDKRTF YLIKTNYGTC NPLRETDKLM KVVISYNRYE DNYSSYISLF SDYYGFEPNE ASIFITGDSN VYIENYLIKN LGKTKNNAYS DTKLIFSPNN TSEVIGFING TNQRFRSSLY IEFSNNVIIK NCVIIESSSE TRSPLVFFGS NVYLSDNLIS SKSGSSLIAQ YGTENIQSIN NFYFQKGVSH QTASQILNPI NMDFGNEGNG IYSVSPNLLS SDDFFIGQNY SITFNFIANR SKITGFDQDC YAPCFSDSIN FSNKIQYPVD FKIFNPKFLP TNNTNSDWYI LNINDNGNQP GTYYTVKNLT TLDPVQFSLD NSALSFLGLE ASENFKMNGN AKRLDIVNSI ISSKALTNQQ QIISKVSSSA ISFKNSYIYS KLGQQITPID NQIYGSLITP FYYNDSDILN QVKILSIFPN VPFQIVSGSI LNVSINLQII STADISCTFS SDNSTFSTTI LVNPSDGSCV LPLVFEKEGY FNLKVTLKIS TSKDYYYIVD FPKITVYNEY LFYSGWVMID SSTDEFLFEG KIFKSGCQQQ VLGNCTISTN SKFINGLPNV TETDELNRLF SSGITSINPY EPVTITIPID KESKKNQIQL FFTHQPIDIE YSLLSIYVEN QPIFLLEQLQ SGLGSTFKNL TFNYENSKSL EIINISFTTR GDIYLTSMAV YSSAIPIIVT PTPTSTTSTP TPTSTTTSTP IPTTTPTTTP KTSKTTSKNK LKIALPICLF ALLVAVGVLI CFIFRKKKQK KQKLDNNMED GSEMSSIKIK KENYNSFNKF KESTVFKNDD FKNYSNPTET TIYSTSDSLL NFVGSDFLNY SDPNIPLSFS KNILEFGLKG SKCDINTFLS DSLRITNNSN IILCICTVLP RNDSGEVNVS PDSFELDPNQ SREIEFSLKL NCTTRFFERF AIEARHTHSF KSIHTHLFIH VESKISSKLD IKEIEVKELI SQNNLSTVNI ANYRGLQVVL RKIKTHSANY TKTYSQAIKK FYTEMDILSK LKNKNIVSFI GCTHDSSHLW IVTEYAPLGS LSSLIHQKKE KLSLIQKVKL MLDTAKGCEF LHSNDITNCN IKSNNLLLFS TMEKDDVCVK ISDFGIKKFE VQNQNEKEIF KDEKDQKLID VYEFGITFYE TMLEETPENL SNLILEGERP TLDLEKLDAD IRNIIERCWN QNKRSTFSEI SISLKEKYTK LLEKNNELIQ EN