Endogenous phytosulfokine α (PSKα) signaling delays petals senescence and prolongs vase life of cut rose flowers (Rosa hybrida cv. Angelina)

Abstract

This study investigated the endogenous phytosulfokine α (PSKα) signaling during opening and senescence in rose flowers. Our results showed that the higher phytosulfokines (PSKs) and tyrosyl protein sulfotransferase (TPST) expression could be responsible for higher endogenous PSKα accumulation in petals during rose flowers opening (stages 2 and 3). By triggering the endogenous PSKα signaling, higher phytosulfokine receptor 1 (PSKR1) expression could be responsible for higher cytosolic cyclic guanosine monophosphate (cGMP) accumulation in petals during rose flowers opening (stages 3 and 4). Higher protein kinase G (PKG) and cyclic nucleotide-gated ion channel 1 (CNGC1) expression accompanying higher plasma membrane intrinsic protein 2 (PIP2) and tonoplast intrinsic protein 1 (TIP1) expression in petals during rose flowers opening may arise from higher cytosolic cGMP accumulation giving rise to higher petals relative water content (RWC) (stage 4). Triggering phosphodiesterase (PDE) expression lay off cytosolic cGMP signaling. Suppressing PKG and CNGC1 expression accompanying lower PIP2 and TIP1 expression accelerates petals senescence in rose flowers representing by deteriorating petals membrane integrity revealed by higher electrolyte leakage and malondialdehyde (MDA) accumulation (stage 5 and 6). For delaying petals senescence and prolonging vase life in cut rose flowers, we employed exogenous PSKα treatment at the commercial harvest stage (stage 3). Our results showed that the suppressing PDE expression in petals by exogenous 150 nM PSKα treatment could be responsible for allowing cytosolic cGMP signaling ongoing for supporting PKG and CNGC1 expression accompanying by higher PIP2 and TIP1 expression. Exogenous 150 nM PSKα treatment, outperforming cut rose flowers by delayed senescence and prolonged vase life to 16 days from 12 days could be ascribed to preserving membrane integrity revealed by lower electrolyte leakage and MDA accumulation. Our results could be proposed that exogenous PSKα treatment and endogenous PSKα signaling for employing in the floriculture industry for delaying petals senescence and prolonging the vase life of cut rose flower.