Abstract
Particle bombardment is a powerful and relatively easy method for transient expression of genes of interest in plant cells, especially those that are recalcitrant to other transformation methods. This method has facilitated numerous analyses of subcellular localization of fluorescent fusion protein constructs. Particle bombardment delivers genes to the first layer of plant tissue. In leaves of higher plants, epidermal cells are the first cell layer. Many studies have used the epidermal cell layer of onion bulb (Allium cepa) as the experimental tissue, because these cells are relatively large. However, onion epidermal cells lack developed plastids (i.e., chloroplasts), thereby precluding subcellular localization analysis of chloroplastic proteins. In this study, we developed a protocol for particle bombardment of the aquatic plant Egeria densa, and showed that it is a useful system for subcellular localization analysis of higher plant proteins. E. densa leaflets contain only two cell layers, and cells in the adaxial layer are sufficiently large for observation. The cells in both layers contain well-developed chloroplasts. We fused fluorescent proteins to conventional plant localization signals for the nucleus, cytosol, mitochondria, peroxisome, and chloroplast, and used particle bombardment to transiently express these fusion constructs in E. densa leaves. The plant subcellular localization signals functioned normally and displayed the expected distributions in transiently transformed E. densa cells, and even chloroplastic structures could be clearly visualized.
Highlights
Subcellular localization analysis using fluorescent proteins [e.g., green fluorescent protein (GFP)] is a useful method to characterize genes and proteins of interest
Methods of transient gene expression include infiltration of transgenic Agrobacterium harboring T-DNA and a gene of interest into leaf cells (Schöb, Kunz & Meins Jr, 1997), polyethylene glycol (PEG)-mediated transformation of DNA into protoplasts (Krens et al, 1982), peptide-mediated DNA transfection (Lakshmanan et al, 2013), and bombardment of gold particles coated with DNA (Klein et al, 1987)
Particle bombardment has been extensively used for transient transformation of the epidermal cell layer of onion bulb (Allium cepa) followed by subcellular localization analysis of plant proteins fused with fluorescent proteins (e.g., Kodama, 2011)
Summary
Subcellular localization analysis using fluorescent proteins [e.g., green fluorescent protein (GFP)] is a useful method to characterize genes and proteins of interest. Transient gene expression is widely used to conduct subcellular localization analyses with fluorescent proteins. Particle bombardment has been extensively used for transient transformation of the epidermal cell layer of onion bulb (Allium cepa) followed by subcellular localization analysis of plant proteins fused with fluorescent proteins (e.g., Kodama, 2011). Onion epidermal cells contain only proplastids (undifferentiated plastids), and no chloroplasts (differentiated plastids) that emit autofluorescence, and the proplastids are morphologically similar to other organelles such as mitochondria and peroxisomes. In onion cells, it is challenging to determine whether a protein of interest localizes to proplastids or to some other organelle (e.g., mitochondria and peroxisomes) that is similar to proplastids
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