Table I. Mitochondrial and plastid proteins differentially phosphorylated in an AKIN10-dependent manner
OrganelleGene IdentifierAnnotation
PlastidAT3G53460aCP29, chloroplast RNA-binding protein 29
AT5G35630aGS2, Gln synthetase 2
AT3G46780aPTAC16, plastid transcriptionally active 16
AT3G03710aPNP1, polyribonucleotide nucleotidyltransferase
AT4G15530aPPDK, pyruvate orthophosphate dikinase
AT1G67090aRBCS1A, ribulose bisphosphate carboxylase small chain 1A
AT2G47450aCAO, chloroplast signal recognition particle component
AT4G13670aPTAC5, plastid transcriptionally active 5
AT1G68830aSTN7, STT7 homolog STN7
AT4G02510aTOC159, translocon at the outer envelope membrane of chloroplasts 159
AT3G08940bLHCB4.2 (CP29.2), light-harvesting complex photosystem II
AT2G46820bPSAP, PTAC8 photosystem I P subunit
AT2G35980bNHL10, NDR1/HIN1-like protein 10
AT3G02150bPTF1, plastid transcription factor 1
AT4G18480bCHLI1, magnesium-chelatase subunit ChlI-1
AT4G22890bPGRL1A, PGR5-like protein 1A
AT5G20720bCPN20, 20-kD chaperonin
MitochondriaAT5G66760aSDH1-1, succinate dehydrogenase 1-1
AT5G26860a,bLON1, ion protease 1
AT4G27585aSLP1, SPFH/Band 7/PHB domain-containing membrane-associated protein family
AT3G25140aGAUT8, galacturonosyltransferase 8
AT5G14780bFDH, FDH formate dehydrogenase
  • a Proteins found to be significantly (P < 5%) differentially phosphorylated in leaves between AKIN10 knockout, wild-type, and overexpressor plants after 2 h of extended night treatment (Nukarinen et al., 2016).

  • b Proteins found to be significantly (P < 5%) differentially phosphorylated in leaves between AKIN10 wild-type and knockdown plants at one or more time points within a time series along the transition into extended night (Nukarinen et al., 2016).