RKF1_ARATH » Probable LRR receptor-like serine/threonine-protein kinase RFK1

RKF1_ARATH » Probable LRR receptor-like serine/threonine-protein kinase RFK1
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Topology in Plasma membrane
Topologyextracellular side
cytoplasmic side
RKF1_ARATH » Probable LRR receptor-like serine/threonine-protein kinase RFK1 » Receptor-like kinase in flowers 1;
Hydrophobic Thickness 34.0 ± 3.2 Å
Tilt Angle 9 ± 8°
ΔGtransfer -20.5 kcal/mol
ΔGfold -13.0 kcal/mol
Links UniProtKB, Pfam, Interpro, iHOP, STRING
Topology Out
TM Segments 625-649 (622-649)
Pathways none
PDB none
OPM none
Complexes none
Interactions none
Domains

AA: 416-604, Di-glucose binding within endoplasmic reticulum

AA: 681-952, PDBID: 2NRU, Subunit B, Seq Identity:45%, Protein tyrosine kinase

UniProt annotation for RKF1_ARATH » Probable LRR receptor-like serine/threonine-protein kinase RFK1
CATALYTIC ACTIVITY: ATP + a protein = ADP + a phosphoprotein.

TISSUE SPECIFICITY: Mostly expressed in flower buds, especially in stamens.

DEVELOPMENTAL STAGE: First detected in early flower primordia and during stamen development. Later expressed in anthers and in pollen.

UniProt features for RKF1_ARATH » Probable LRR receptor-like serine/threonine-protein kinase RFK1
SIGNAL 1 39 Potential.
CHAIN 40 1021 Probable LRR receptor-like serine/threonine-protein kinase RFK1.
REPEAT 99 122 LRR 1.
REPEAT 123 146 LRR 2.
REPEAT 148 168 LRR 3.
REPEAT 169 192 LRR 4.
REPEAT 193 216 LRR 5.
REPEAT 218 240 LRR 6.
REPEAT 241 266 LRR 7.
REPEAT 288 312 LRR 8.
REPEAT 313 336 LRR 9.
REPEAT 338 359 LRR 10.
REPEAT 361 381 LRR 11.
DOMAIN 681 956 Protein kinase.
ACT_SITE 807 807 Proton acceptor (By similarity).
Amino Acid Sequence for RKF1_ARATH » Probable LRR receptor-like serine/threonine-protein kinase RFK1
MISLYQILAE KKKKKKNDLN IFAFSVFAII CFKFYSVNAI KLPQQEVDAL QQIATTLGSK FWKFDAENCK IEMVGLTETP PPTAKQEIEC ECSPTNDTDC HVVKFAFKDH NLPGTLPQIV KLPYLREIDL AYNYINGTLP REWASSNLTF ISLLVNRLSG EIPKEFGNSS LTYLDLESNA FSGTIPQELG NLVHLKKLLL SSNKLTGTLP ASLARLQNMT DFRINDLQLS GTIPSYIQNW KQLERLEMIA SGLTGPIPSV ISVLSNLVNL RISDIRGPVQ PFPSLKNVTG LTKIILKNCN ISGQIPTYLS HLKELETLDL SFNKLVGGIP SFAQAENLRF IILAGNMLEG DAPDELLRDG ITVDLSYNNL KWQSPESRAC RPNMNLNLNL FQSTSTKKSS KFLPCIKDFK CPRYSSCLHV NCGGSDMYVK EKKTKELYEG DGNVEGGAAK YFLKPDANWG FSSTGDFMDD NNFQNTRFTM FVPASNQSDL YKSARIAPVS LTYFHACLEN GNYTINLDFA EIRFTNDENY NRLGRRLFDI YIQEKLVAKD FNIMDEAKGA QTPIIKPLTA YVTNHFLTIR LSWAGKGTTR IPTRGVYGPI ISAISIVSDS KPCERPKTGM SPGAYIAIGI GAPCLIIFIL GFLWICGCLP RCGRQRKDPY EEELPSGTFT LRQIKFATDD FNPTNKIGEG GFGAVFKGVL ADGRVVAVKQ LSSKSRQGNR EFLNEIGAIS CLQHPNLVKL HGFCVERAQL LLAYEYMENN SLSSALFSPK HKQIPMDWPT RFKICCGIAK GLAFLHEESP LKFVHRDIKA TNILLDKDLT PKISDFGLAR LDEEEKTHIS TKVAGTIGYM APEYALWGYL TFKADVYSFG VLVLEIVAGI TNSNFMGAGD SVCLLEFANE CVESGHLMQV VDERLRPEVD RKEAEAVIKV ALVCSSASPT DRPLMSEVVA MLEGLYPVPE STPGVSRNAG DIRFKAFKDL RRGMENNSKT QCSVKSYPSS SSTSSGAGQA VQERKKEESR P