Abstract
Date palm (Phoenix dactylifera) is an economically important fruit tree in the Middle East and North Africa and is characterized by large cultivar diversity, making it a good model for studies on fruit development and other important traits. Here in gel comparative proteomics combined with tandem mass spectrometry were used to study date fruit development and ripening. Total proteins were extracted using a phenol-based protocol. A total of 189 protein spots were differentially regulated (p≤0.05). The identified proteins were classified into 14 functional categories. The categories with the most proteins were ‘disease and defense’ (16.5%) and ‘metabolism’ (15.4%). Twenty-nine proteins have not previously been identified in other fleshy fruits and 64 showed contrasting expression patterns in other fruits. Abundance of most proteins with a role in abiotic stress responses increased during ripening with the exception of heat shock proteins. Proteins with a role in anthocyanin biosynthesis, glycolysis, tricarboxylic acid cycle and cell wall degradation were upregulated particularly from the onset of ripening and during ripening. In contrast, expression of pentose phosphate- and photosynthesis-related proteins decreased during fruit maturation. Although date palm is considered a climacteric species, the analysis revealed downregulation of two enzymes involved in ethylene biosynthesis, suggesting an ethylene-independent ripening of ‘Barhi’ fruits. In summary, this proteomics study provides insights into physiological processes during date fruit development and ripening at the systems level and offers a reference proteome for the study of regulatory mechanisms that can inform molecular and biotechnological approaches to further improvements of horticultural traits including fruit quality and yield.
Highlights
Date palm (Phoenix dactylifera) is a perennial, dioecious monocot that is highly heterozygous.[1]
We provide the first detailed comparative proteome of the date fruit, a fruit that is of particular horticultural interest in the Middle East and North Africa
The second is an overall increase of glycolysis and TCA cycle-related proteins in contrast to pentose phosphate and photosynthesis from ripening onset. This indicates a shift in energy supply between the fruit development stages markedly S1-MD and NTR-RIPE
Summary
Date palm (Phoenix dactylifera) is a perennial, dioecious monocot that is highly heterozygous.[1] Dates have been an agriculturally and economically important fruit crop for centuries in the Middle East and Northern Africa.[2] They are a staple for millions of people,[3] but they have potential health benefits due to their high nutrient content and bioactive compounds including polyphenols such as flavonoids, tannins and phenolics.[4,5,6] The date industry generated about 7.5 million tons worldwide in 2012 and. Saudi Arabia, the third major producer after Egypt and Iran, grows over 400 cultivars.. ‘Sukkary’ and ‘Barhi’ are the two most popular cultivars;[8,9] their productivity is irregular. Breeding strategies, including the use of molecular tools, offer the potential to contribute towards improving productivity and quality
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