Evidence for Brassinosteroid-Mediated PAT During Germination of Spathoglottis plicata (Orchidaceae)

Stacey Novak; Nataly Kalbakji; Nataly Kalbakji; Kylie Upthegrove; Wesley Neher; Wesley Neher; Jay Jones; Jazmin de León; Jazmin de León

doi:10.3389/fpls.2018.01215

Frontiers in Plant Science (Aug 2018)

Evidence for Brassinosteroid-Mediated PAT During Germination of Spathoglottis plicata (Orchidaceae)

Stacey Novak,
Nataly Kalbakji,
Nataly Kalbakji,
Kylie Upthegrove,
Wesley Neher,
Wesley Neher,
Jay Jones,
Jazmin de León,
Jazmin de León

Affiliations

Stacey Novak: Department of Biology, University of La Verne, La Verne, CA, United States
Nataly Kalbakji: Department of Biology, University of La Verne, La Verne, CA, United States
Nataly Kalbakji: Southern California College of Optometry at Marshall B. Ketchum, Fullerton, CA, United States
Kylie Upthegrove: Department of Biology, University of La Verne, La Verne, CA, United States
Wesley Neher: Department of Biology, University of La Verne, La Verne, CA, United States
Wesley Neher: Department of Botany and Plant Sciences, University of California, Riverside, Riverside, CA, United States
Jay Jones: Department of Biology, University of La Verne, La Verne, CA, United States
Jazmin de León: Department of Biology, University of La Verne, La Verne, CA, United States
Jazmin de León: Ross University School of Veterinary Medicine, Saint Kitts, West Indies

DOI: https://doi.org/10.3389/fpls.2018.01215
Journal volume & issue: Vol. 9

Abstract

Read online

Polar auxin transport (PAT) is facilitated by polar localization of PIN-FORMED (PIN) efflux carriers, which direct auxin flow and regulate developmental events. Brassinosteroids (BRs) and auxin work synergistically to promote growth, and in root geotropisms this cross-talk involves BR-directed polarization of PIN through the mobilization of F-actin. However, the role of BR in PAT during shoot growth, hair formation, and embryogenesis has not been well studied. Orchid seed are mature at a point in development that is analogous to the globular-stage of embryogenesis in typical angiosperms. Thus, this system provided a unique opportunity to study the effects of BR on PAT during embryogenesis-like events, including meristem/first leaf formation and protocorm/stem development, which is followed by protocorm hair formation. In this work, the degree to which BRs rescued embryo-like protocorms from the impact of PAT-disrupting agents, such as PAT inhibitors or high auxin levels, was determined based on growth responses. This study first established that auxin and BRs work together synergistically to promote seedling elongation in Spathoglottis. Repressed seedling growth caused by the PAT-disrupting agents was alleviated with eBL, suggesting that BRs enhance PAT in embryogenesis-like stages of young protocorms. However, similar responses were not evident in seed embryos. Results from this study also suggested that BRs may enhance orchid protocorm elongation by regulating auxin transport through an F-actin-mediated mechanism. With regard to protocorm hairs, increased eBL levels inhibited formation, whereas reduced BR biosynthesis altered hair patterning, and prevented outgrowth of auxin-stimulated hairs. Moreover, PAT inhibitors and repression of BR biosynthesis caused hair bud formation without hair outgrowth, suggesting a role for BR in PAT during protocorm hair development.

Published in Frontiers in Plant Science

ISSN: 1664-462X (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Agriculture: Plant culture
Website: https://www.frontiersin.org/journals/plant-science

About the journal

Abstract

Keywords