Ayesha Tasleem-Tahir scite author profile

Proteomic analysis of albumins and globulins (alg) present in starchy endosperm of wheat (Triticum aestivum cv Récital), at 21 stages of grain development, led to the identification of 487 proteins. Four main developmental phases of these metabolic proteins, with three subphases in phase three and two in phase four, were shown. Hierarchical cluster analysis revealed nine major expression profiles throughout grain development. Classification of identified proteins in 17 different biochemical functions provided a uniform picture of temporal coordination among cellular processes. Proteins involved in cell division, transcription/translation, ATP interconversion, protein synthesis, protein transport, along with amino acid, lipid, carbohydrate and nucleotide metabolisms were highly expressed in early and early mid stages of development. Protein folding, cytoskeleton, and storage proteins peaked during the middle of grain development, while in later stages stress/defense, folic acid metabolism, and protein turn over were the abundant functional categories. Detailed analysis of stress/defense enzymes revealed three different evolutionary profiles. A global map with their predicted subcellular localizations and placement in grain developmental scale was constructed. The present study of complete grain development enriched our knowledge on proteome expression of alg, successively from endosperm cell division and differentiation to programmed cell death.

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Proteomic analysis of peripheral layers during wheat (Triticum aestivum L.) grain development

Tasleem-Tahir¹,

Nadaud²,

Girousse³

et al. 2011

Proteomics

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Grains of hexaploid wheat, Triticum aestivum (cv. Récital), were collected at 15 stages of development, from anthesis to physiological maturity, 0-700°C days (degree days after anthesis). Two hundred and seven proteins of grain peripheral layers (inner pericarp, hyaline, testa and aleurone layer) were identified by 2-DE, MALDI-TOF MS and data mining, then were classified in 16 different functional categories. Study of the protein expression over time allowed identification of five main profiles and four distinct phases of development. Composite expression curves indicated that there was a shift from metabolic processes, translation, transcription and ATP interconversion towards storage and defence processes. Protein synthesis, protein turnover, signal transduction, membrane transport and biosynthesis of secondary metabolites were the mediating functions of this shift. A picture of the dynamic processes taking place in peripheral layers during grain development was obtained in this study. It should further help in the construction of proteome reference maps for the developing peripheral layers.

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Proteome evolution of wheat (Triticum aestivum L.) aleurone layer at fifteen stages of grain development

Nadaud

Tasleem-Tahir

Chateigner-Boutin

et al. 2015

Journal of Proteomics

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