Besma Sghaier-Hammami scite author profile

By using a comparative proteomic approach (2-DE coupled to MS/MS), the development, maturation, and germination of date palm zygotic embryos, have been studied. Proteins were trichloroacetic acid (TCA)-acetone-phenol extracted and resolved by 2-DE in the 5-8 pH range. The total protein content and the number of spots resolved increased from early (12 weeks after pollination (WAP); 68.96 mg/g DW: 207 spots) to late (17 WAP; 240.85 mg/g DW: 261 spots) stages, decreasing upon germination (from 120.8 mg/g DW: 273 spots in mature embryos to 26.35 mg/g DW: 87 spots in 15 days after germination). Up to 194 spots showed qualitative or quantitative differences between stages. Statistical analysis of spot variation was performed by PCA, obtaining a more accurate grouping of the samples and determining the most discriminant spots. Samples were also clustered based on Pearson distance and Ward's minimum distance. Sixty-five variable spots were subjected to MS analysis, resulting in 21 identifications. The identified proteins belong to the following functional categories: enzymes of glycolysis, tricarboxylic acid cycle, and carbohydrate biosynthesis, protein translation, storage (glutelin), and stress-related proteins. The evolution pattern of the functional groups was examined and discussed in terms of metabolism adaptation to the different embryogenic and germination stages.

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Protein profile of cotyledon, tegument, and embryonic axis of mature acorns from a non-orthodox plant species: Quercus ilex

Sghaier-Hammami

Redondo-López

Valero-Galván

et al. 2015

Planta

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Contrary to the orthodox seeds, recalcitrant Holm oak seeds possess the enzymatic machinery to start germination during the maturation phase. The protein profile of the different parts, mature seeds, of the Holm oak, a non-orthodox plant species, has been characterized using one- and two-dimensional gel electrophoresis coupled to matrix-assisted laser desorption ionization-time of flight mass spectrometry. Protein content and profiles of the three seed tissues (cotyledon, embryonic axis and tegument) were quite different. The embryonic axis showed 4-fold and 20-fold higher protein content than the cotyledon and the tegument, respectively. Two hundred and twenty-six variable proteins among the three seed parts were identified, being classified according to their function into eight main groups. The cotyledon presented the highest number of metabolic and storage proteins (89% of them are legumin) compared to the embryonic axis and tegument. The embryonic axis had the highest number of the species within the protein fate group. The tegument presented the largest number of the defense-/stress-related and cytoskeleton proteins. This distribution is in good agreement with the biological role of the tissues. The study of the seed tissue proteome demonstrated a compartmentalization of pathways and a division of metabolic tasks between embryonic axis, cotyledon and tegument. This compartmentalization uncovered in our study should provide a starting point for understanding, at the molecular level, the particularities of the recalcitrant seeds.

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Besma Sghaier-Hammami

Physiological and proteomics analyses of Holm oak (Quercus ilex subsp. ballota [Desf.] Samp.) responses to Phytophthora cinnamomi

Comparative 2-DE proteomic analysis of date palm (Phoenix dactylifera L.) somatic and zygotic embryos

Proteomic analysis of the development and germination of date palm (Phoenix dactylifera L.) zygotic embryos

Protein profile of cotyledon, tegument, and embryonic axis of mature acorns from a non-orthodox plant species: Quercus ilex

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