Evidence for within-species transition between drought response strategies in Nicotiana benthamiana
journal contribution
posted on 2024-07-14, 23:45authored byLeila Asadyar, Felipe Fenselau de Felippes, Julia Bally, Chris J Blackman, Jiyuan An, Frances SussmilchFrances Sussmilch, Lalehvash Moghaddam, Brett Williams, Stephen J Blanksby, Timothy J Brodribb, Peter M Waterhouse
Nicotiana benthamiana is predominantly distributed in arid habitats across northern Australia. However, none of six geographically isolated accessions shows obvious xerophytic morphological features. To investigate how these tender-looking plants withstand drought, we examined their responses to water deprivation, assessed phenotypic, physiological, and cellular responses, and analysed cuticular wax composition and wax biosynthesis gene expression profiles. Results showed that the Central Australia (CA) accession, globally known as a research tool, has evolved a drought escape strategy with early vigour, short life cycle, and weak, water loss-limiting responses. By contrast, a northern Queensland (NQ) accession responded to drought by slowing growth, inhibiting flowering, increasing leaf cuticle thickness, and altering cuticular wax composition. Under water stress, NQ increased the heat stability and water impermeability of its cuticle by extending the carbon backbone of cuticular long-chain alkanes from c. 25 to 33. This correlated with rapid upregulation of at least five wax biosynthesis genes. In CA, the alkane chain lengths (c. 25) and gene expression profiles remained largely unaltered. This study highlights complex genetic and environmental control over cuticle composition and provides evidence for divergence into at least two fundamentally different drought response strategies within the N. benthamiana species in < 1 million years.
Funding
The quick and the dead: identifying mechanisms for plant drought survival : Australian Research Council | DE200101133
History
Sub-type
Article
Publication title
New Phytologist
Volume
244
Issue
2
Pagination
464-476:13
eISSN
1469-8137
ISSN
0028-646X
Department/School
Biological Sciences
Publisher
WILEY
Publication status
Published
Place of publication
England
Rights statement
Copyright 2024 The Authors
Copyright 2023 New Phytologist Foundation