Proteomics

Dataset Information

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Proteomics analysis of the developing solid endosperm from Mexican Pacific Tall and Yucatan Green Dwarf coconuts (Cocos nucifera L.): an insight to carbohydrate and fatty acid metabolisms


ABSTRACT: The coconut tree (Cocos nucifera L.) is an ancient palm species that since early times had been integrally exploited due to their many benefits to the habitants of the tropical and subtropical areas (Niral and Jerard, 2018). The coconut together with the oil palm (Elaeis guineensis) and date palm (Phoenix dactylifera L.) belongs to the Arecaceae family and represent a natural source of oils and carbohydrates both, highly demanded in food and pharmaceutical industries. The coconut shows high morphological variations, but grouping normally in two groups, according to their morphology and growth habits, the “Tall” and the “Dwarf” varieties. Frequently, hybrids are considered as a third variety resulting from cross pollination between Tall and Dwarfs. Tall varieties begin to flowering at 5-7 years after planting, and continue emitting inflorescences and fruits up to 80 to 100 years. When adults, tall palms reach heights between 20-30 m; producing fruits from medium to large in size with abundant solid endosperm and high oil content. In case of dwarf palm varieties, they start flowering and fruiting at 3-4 years after planting, and continue producing by almost 50 years. As adults, their height is 8-10 m, producing fruits from small to medium size with moderate amounts of solid endosperm and less oil content than tall varieties. The solid endosperm, also named as “coconut meat” and when it is dry “copra”, is the source of medium chain saturated fatty acids (MCSFA), e.g. lauric acid (C12:0), myristic acid (C14:0) and palmitic acid (C16:0), among others, and their content of total fatty acids is higher in Tall than in Dwarf varieties. Coconut Oil contains high levels of lauric acid and exhibit characteristics as increased oxidative stability, low melting points and formation of stable emulsions, all them highly appreciated in the food and chemical industries (Kumar, 2011; Reynolds et al., 2019). Moreover, due to its high content of antioxidants such as tocopherol and beta-carotene, coconut oil exhibit various health benefits, such as antibacterial, antiviral, and cardiovascular protection. Coconut fruit growth and ripening is intrinsically related with development of the different seed tissues, i.e., endosperms, embryo and pericarp. The endosperms of the coconut fruit did not accumulate synchronically with fruit maturation.

INSTRUMENT(S): Orbitrap Fusion

ORGANISM(S): Arabidopsis Thaliana (mouse-ear Cress)

TISSUE(S): Plant Cell, Endosperm

SUBMITTER: Miguel Elizalde  

LAB HEAD: eliel ruiz

PROVIDER: PXD036949 | Pride | 2023-10-24

REPOSITORIES: Pride

Dataset's files

Source:
Action DRS
Coco_Alto_Endospermo_J1.mgf Mgf
Coco_Alto_Endospermo_J1.raw Raw
Coco_Alto_Endospermo_J2.mgf Mgf
Coco_Alto_Endospermo_J2.raw Raw
Coco_Alto_Endospermo_J3.mgf Mgf
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Publications

Proteome Landscape during Ripening of Solid Endosperm from Two Different Coconut Cultivars Reveals Contrasting Carbohydrate and Fatty Acid Metabolic Pathway Modulation.

Félix Jean Wildort JW   Granados-Alegría María Inés MI   Gómez-Tah Rufino R   Tzec-Simá Miguel M   Ruíz-May Eliel E   Canto-Canché Blondy B   Zamora-Briseño Jesús Alejandro JA   Bojórquez-Velázquez Esaú E   Oropeza-Salín Carlos C   Islas-Flores Ignacio I  

International journal of molecular sciences 20230621 13


<i>Cocos nucifera</i> L. is a crop grown in the humid tropics. It is grouped into two classes of varieties: dwarf and tall; regardless of the variety, the endosperm of the coconut accumulates carbohydrates in the early stages of maturation and fatty acids in the later stages, although the biochemical factors that determine such behavior remain unknown. We used tandem mass tagging with synchronous precursor selection (TMT-SPS-MS3) to analyze the proteomes of solid endosperms from Yucatan green dw  ...[more]

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