Abstract
Through utilizing the nutrient-rich phloem sap, sap feeding insects such as psyllids, leafhoppers, and aphids can transmit many phloem-restricted pathogens. On the other hand, multiplication of phloem-limited, uncultivated bacteria such as Candidatus Liberibacter asiaticus (CLas) inside the phloem of citrus indicates that the sap contains all the essential nutrients needed for the pathogen growth. The phloem sap composition of many plants has been studied; however, to our knowledge, there is no available data about citrus phloem sap. In this study, we identified and quantified the chemical components of phloem sap from pineapple sweet orange. Two approaches (EDTA enhanced exudation and centrifugation) were used to collect phloem sap. The collected sap was derivatized with methyl chloroformate (MCF), N-methyl-N- [tert-butyl dimethylsilyl]-trifluroacetamide (MTBSTFA), or trimethylsilyl (TMS) and analyzed with GC-MS revealing 20 amino acids and 8 sugars. Proline, the most abundant amino acid, composed more than 60% of the total amino acids. Tryptophan, tyrosine, leucine, isoleucine, and valine, which are considered essential for phloem sap-sucking insects, were also detected. Sucrose, glucose, fructose, and inositol were the most predominant sugars. In addition, seven organic acids including succinic, fumaric, malic, maleic, threonic, citric, and quinic were detected. All compounds detected in the EDTA-enhanced exudate were also detected in the pure phloem sap using centrifugation. The centrifugation technique allowed estimating the concentration of metabolites. This information expands our knowledge about the nutrition requirement for citrus phloem-limited bacterial pathogen and their vectors, and can help define suitable artificial media to culture them.
Highlights
Plant phloem sap is rich in nutrients [1]; it contains high quantities of sugars, amino acids, organic acids, vitamins, and inorganic ions
Phloem sap pH, uBrix value, and total amino acid content The average pH of the sap obtained by the centrifugation method was 6.0460.16 (n = 10) and for that obtained by the ethylenediaminetetraacetic acid (EDTA)-enhanced exudation technique was 6.0360.12 (n = 10)
The phloem sap of sweet orange is rich in sugars, amino acids, and organic acids
Summary
Plant phloem sap is rich in nutrients [1]; it contains high quantities of sugars, amino acids, organic acids, vitamins, and inorganic ions. Because phloem sap is rich in nutrients and free of feeding deterrents and toxins, it is exclusively consumed by many phloem sap feeding insects [2] which facilitates transmission of several vector-borne plant pathogens [3]. Studies on phloem sap composition investigated the nutrient intake and allocation in plants [4,5], while others were conducted to investigate the effect of changes in phloem sap composition on insect feeding behavior [6], insect symbiont metabolism, and insect honeydew composition [7]. Some studies addressed the relation between phloem sap and insect honeydew composition to explain why some insect vectors have an expanded range of host plants which have similar phloem sap composition [8]. Phloem sap composition was used as a tool to assess plant health [9]
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