"Nectar biosynthesis is conserved among floral and extrafloral nectaries" by Elizabeth C. Chatt

Rahul Roy

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Nectar biosynthesis is conserved among floral and extrafloral nectaries

Plant Physiology (2021)

Elizabeth C. Chatt, Iowa State University
Siti-Nabilla Mahalim, Iowa State University
Nur-Aziatull Mohd-Fadzil, Iowa State University
Rahul Roy, PhD, St. Catherine University
Peter M. Klinkenberg, University of Minnesota
Harry T. Horner, Iowa State University
Marshall Hampton, University of Minnesota
Clay J. Carter, University of Minnesota
Basil J. Nikolau, Iowa State University

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Abstract

Nectar is a primary reward mediating plant-animal mutualisms to improve plant fitness and reproductive success. Four distinct trichomatic nectaries develop in cotton (Gossypium hirsutum), one floral and three extrafloral, and the nectars they secrete serve different purposes. Floral nectar attracts bees for promoting pollination, while extrafloral nectar attracts predatory insects as a means of indirect protection from herbivores. Cotton therefore provides an ideal system for contrasting mechanisms of nectar production and nectar composition between different nectary types. Here, we report the transcriptome and ultrastructure of the four cotton nectary types throughout development and compare these with the metabolomes of secreted nectars. Integration of these datasets supports specialization among nectary types to fulfill their ecological niche, while conserving parallel coordination of the merocrine-based and eccrine-based models of nectar biosynthesis. Nectary ultrastructures indicate an abundance of rough endoplasmic reticulum positioned parallel to the cell walls and a profusion of vesicles fusing to the plasma membranes, supporting the merocrine model of nectar biosynthesis. The eccrine-based model of nectar biosynthesis is supported by global transcriptomics data, which indicate a progression from starch biosynthesis to starch degradation and sucrose biosynthesis and secretion. Moreover, our nectary global transcriptomics data provide evidence for novel metabolic processes supporting de novo biosynthesis of amino acids secreted in trace quantities in nectars. Collectively, these data demonstrate the conservation of nectar-producing models among trichomatic and extrafloral nectaries.

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Publication Date

Spring January 28, 2021

DOI

https://doi.org/10.1093/plphys/kiab018

Citation Information

Elizabeth C. Chatt, Siti-Nabilla Mahalim, Nur-Aziatull Mohd-Fadzil, Rahul Roy, et al.. "Nectar biosynthesis is conserved among floral and extrafloral nectaries" Plant Physiology (2021)
Available at: http://works.bepress.com/rahul_roy/11/