Details

Autor(en) / Beteiligte

• Singha, Kambam Tamna
• Sreeharsha, Rachapudi Venkata
• Mariboina, Sureshbabu
• Reddy, Attipalli Ramachandra

Titel

Dynamics of metabolites and key regulatory proteins in the developing seeds of Pongamia pinnata, a potential biofuel tree species

Ist Teil von

• Industrial crops and products, 2019-11, Vol.140, p.111621, Article 111621

Ort / Verlag

Elsevier B.V

Erscheinungsjahr

2019

Link zum Volltext

Quelle

Elsevier ScienceDirect Journals Complete

Beschreibungen/Notizen

• •Metabolic role of sugars, amino acids is crucial for P. pinnata seed development.•Total proteome identified the expression patterns of key regulatory proteins.•Major storage granules were oil bodies in P. pinnata cotyledons.•The oil bodies accumulate oleic acid during later stages of seed development. The present study analyzed the dynamic changes in metabolites and key proteins during the seed development of Pongamia pinnata L. (Family: Fabaceae) with a particular focus on lipid biosynthesis and oil accumulation. The developing seeds were collected at four different stages: 120 (stage 1), 180 (stage 2), 240 (stage 3) and 300 (stage 4) days after flowering (DAF), representing S1, S2, S3 and S4 respectively. The analysis of seed pigments and mRNA expression patterns of key photosynthetic genes confirmed the photo-autotrophic behavior of P. pinnata seed during the initial stages of development. The metabolite profiling of developing P. pinnata seeds also revealed differentially expressed sugars, amino acids, free fatty acids and organic acids. Proteins related to development, energy metabolism, lipid accumulation as well as stress responses were documented through MALDI-TOF-MS/MS analysis. The structure and pattern of oil body accumulation at each stage of seed development were determined by electron and confocal microscopy of the cotyledonary sections. The thin layer chromatogram of P. pinnata oil revealed higher amount of Triacylglycerides and the fatty acid profile of extracted triacylglycerides showed a rapid increase in oleic acid (C18:1) at S3 and S4. The outcomes reveal new insights into the complex oleogenic metabolism during P. pinnata seed development at macro level.