Somaclonal Variation in Chrysanthemum × morifolium Protoplast Regenerants.

Tom Eeckhaut,Silvia Bruznican,Leen Leus,Johan Van Huylenbroeck,Wouter Van Houtven

doi:10.3389/fpls.2020.607171

Tom Eeckhaut, Silvia Bruznican + Show 3 more

Open Access

https://doi.org/10.3389/fpls.2020.607171

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Abstract

Chrysanthemum × morifolium protoplasts were isolated and regenerated to assess possible protoclonal variation in the regenerants. After a preliminary screening of the potential of different regeneration systems for protoplast regeneration, we produced a series of cut chrysanthemum ‘Arjuna’ leaf protoplast regenerants through liquid culture. Regenerants (54) were vegetatively propagated and grown under a commercial production system in 2 different seasons. All screened regenerants were significantly affected with regard to either flower number, flower size, flower weight, leaf weight, stalk weight, or plant size. A significant plant size reduction in 43/52 and 48/49 regenerants for both seasons was the most recorded effect. Also a reduction in flowering induction time up to 10 days, altered flower types and colors were observed. Differences between growing seasons were notable. Possible molecular backgrounds including genome size variation and commercial applications in breeding of chrysanthemum are discussed.

Highlights

Plant protoplasts are plant cells that have been enzymatically or mechanically stripped of their cell walls
Relative DNA-content analysis was based on 1 randomly selected cutting; we considered the mean value of both screenings
All regenerants were regenerated from different protoplasts and are as such independent regeneration events

Summary

Introduction

Plant protoplasts are plant cells that have been enzymatically or mechanically stripped of their cell walls They have the potential to develop into any cell type present in mature plants, which is a sine qua non-condition for plant regeneration. Innovative approaches as, e.g., electrical stimulation or adding surfactants or antibiotics have significantly contributed to the regeneration of protoplasts isolated from recalcitrant genotypes or species (Davey et al, 2005; Eeckhaut et al, 2013). This has increased the application potential of protoplasts for plant breeding. The main protoplast based breeding strategy is intra-or interspecific somatic fusion (Johnson and Veilleux, 2001), which bypasses barriers typically related to sexual

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