Comparative quantitative proteomic analysis of embryogenic and non-embryogenic calli in maize suggests the role of oxylipins in plant totipotency

• Plant totipotency is still not well understood.
• Proteomes of embryogenic and non-embryogenic calli were investigated.
• Alterations in pyruvate biosynthesis and suppression of embryogenic genes were detected.
• Changes in the equilibrium levels of signaling molecules were observed.
• A working proteomic model for plant totipotency was proposed.

Totipotency, the ability of somatic plant cell to generate whole plant through somatic embryogenesis, is still not well understood. In this study, maize immature zygotic embryos were used to generate embryogenic (EC) and non-embryogenic (NEC) calli. In order to compare proteomes of EC and NEC, two-dimensional electrophoresis (2-DE) in combination with mass spectrometry was used. This approach resulted into 361 quantified 2-DE spots out of which 44 were found statistically significantly differentially abundant between EC and NEC. Mass spectrometry provided the identity for 23 proteins that were classified into 8 metabolic categories. The most abundant were proteins associated with energy followed by proteins associated with disease and defense. Based on the abundances of identified proteins in this and other studies, working model for plant totipotency was proposed. One aspect of this working model suggests that increased abundances of proteins associated with pyruvate biosynthesis and suppression of embryogenic genes might be responsible for differences between EC and NEC cells. Furthermore we speculate that the increased abundance of lipoxygenase in the NEC cells results in changes in the equilibrium levels of one or more signaling molecules and is at least partly responsible for somatic cell reprogramming during totipotency.Biological significanceTotipotency, the ability of somatic plant cell to generate whole plant through somatic embryogenesis, is still not well understood. In order to further advance understanding of this biological phenomenon, proteomes of embryogenic and non-embryogenic callus, derived from immature zygotic embryos of inbred maize line A19, were compared using 2-DE based proteomic technology. Based on the abundances of identified proteins in this and other studies, working model for plant totipotency was proposed. One aspect of this working model suggests that increased abundances of proteins associated with pyruvate biosynthesis and suppression of embryogenic genes might be responsible for differences between EC and NEC cells. Furthermore we speculate that the increased abundance of lipoxygenase in the NEC cells results in changes in the equilibrium levels of one or more signaling molecules and is at least partly responsible for somatic cell reprogramming during totipotency.This article is part of a Special Issue entitled: Environmental and structural proteomics.

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