Chloroplast Proteome of Nicotiana benthamiana Infected by Tomato Blistering Mosaic Virus.

Tymovirus is a genus of plant pathogenic viruses that infects several dicotyledonous plants worldwide, causing serious diseases in economically important crops. The known cytopathic effect on the host cell organelles involves chloroplast membrane deformation and the induction of vesicles in its periphery. These vesicles are known to be the location where tymoviral genomic RNA replication occurs. Tomato blistering mosaic virus (ToBMV) is a tymovirus recently identified in tomato plants in Brazil, which is able to infect several other plants, including tobacco. In this work, we investigated the chloroplast proteomic profile of ToBMV-infected N. benthamiana using bidimensional electrophoresis (2-DE) and mass spectrometry, aiming to study the virus-host interaction related to the virus replication and infection. A total of approximately 200 spots were resolved, out of which 36 were differentially abundant. Differential spots were identified by mass spectrometry including photosynthesis-related and defense proteins. We identified proteins that may be targets of a direct interaction with viral proteins, such as ATP synthase ß subunit, RNA polymerase beta-subunit, 50S ribosomal protein L6 and Trigger factor-like protein. The identification of these candidate proteins gives support for future protein-protein interaction studies to confirm their roles in virus replication and disease development.

Proteomic identification of differentially expressed proteins during the acquisition of somatic embryogenesis in oil palm (Elaeis guineensis Jacq.).

In the present study we have identified and characterized the proteins expressed during different developmental stages of Elaeis guineensis calli obtained from zygotic embryos. We were interested in the possible proteomic changes that would occur during the acquisition of somatic embryogenesis and therefore samples were collected from zygotic embryos (E1), swollen explants 14days (E2) in induction medium, primary callus (E3), and pro-embryogenic callus (E4). The samples were grinded in liquid nitrogen, followed by total protein extraction using phenol and extraction buffer. Proteins were analyzed by two-dimensional electrophoresis (2-DE) and the differentially expressed protein spots were analyzed by MALDI-TOF mass spectrometry (MS and MS/MS). Interestingly, we have identified proteins, which can be used as potential candidates for future studies aiming at the development of biomarkers for embryogenesis acquisition and for the different stages leading to pro-embryogenic callus formation such as type IIIa membrane protein cp-wap13, fructokinase and PR proteins. The results obtained shed some light on the biochemical events involved in the process of somatic embryogenesis of E. guineensis obtained from zygotic embryos. The use of stage-specific protein markers can help monitor cell differentiation and contribute to improve the protocols for successfully cloning the species. BIOLOGICAL SIGNIFICANCE: Understanding the fate and dynamics of cells and tissues during callus formation is essential to understand totipotency and the mechanisms involved during acquisition of somatic embryogenesis (SE). In this study we have investigated the early stages of somatic embryogenesis induction in oil palm and have identified potential markers as well as proteins potentially involved in embryogenic competence acquisition. The use of these proteins can help improve tissue culture protocols in order to increase regeneration rates. This article is part of a Special Issue entitled: Environmental and structural proteomics.

Identification of host proteins modulated by the virulence factor AC2 of Tomato chlorotic mottle virus in Nicotiana benthamiana.

Tomato, one of the most important crops cultivated worldwide, has been severely affected by begomoviruses such as the Tomato chlorotic mottle virus (ToCMoV). Virulence factor AC2 is considered crucial for a successful virus-plant interaction and is known to act as a transcriptional activator and in some begomoviruses to function as an RNA silencing suppressor factor. However, the exact functions of the AC2 protein of the begomovirus ToCMoV are not yet established. The aim of the present study was to identify differentially expressed proteins of the model plant Nicotiana benthamiana in response to the expression of the AC2 gene, isolated from ToCMoV. N. benthamiana plants were inoculated with Agrobacterium tumefaciens containing the viral vector Potato virus X (PVX) and with the PVX-AC2 construction. 2DE was performed and proteins were identified by MS. The results showed that the expression of ToCMoV AC2 alters the levels of several host proteins, which are important for normal plant development, causing an imbalance in cellular homeostasis. This study highlights the effect of AC2 in the modulation of plant defense processes by increasing the expression of several oxidative stress-related and pathogenesis-related proteins, as well as its role in modulating the proteome of the photosynthesis and energy production systems.