BACKGROUND: Fluorescent tagging of nodule bacteria forming symbioses with legume host plants represents a tool for vital tracking of bacteria inside the symbiotic root nodules and monitoring changes in gene activity. The constitutive expression of heterologous fluorescent proteins, such as green fluorescent protein (GFP), also allows screening for nodule occupancy by a particular strain. Imaging of the fluorescence signal on a macro-scale is associated with technical problems due to the robustness of nodule tissues and a high level of autofluorescence. SCOPE: These limitations can be reduced by the use of a model species with a fine root system, such as Vicia tetrasperma. Further increases in the sensitivity and specificity of the detection and in image resolution can be attained by the use of a fluorescence scanner. Compared with the standard CCD-type cameras, the availability of a laser source of a specified excitation wavelength decreases non-specific autofluorescence while the photomultiplier tubes in emission detection significantly increase sensitivity. The large scanning area combined with a high resolution allow us to visualize individual nodules during the scan of whole root systems. Using a fluorescence scanner with excitation wavelength of 488 nm, a band-pass specific emission channel of 532 nm and a long-pass background channel of 555 nm, it was possible to distinguish nodules occupied by a rhizobial strain marked with one copy of cycle3 GFP from nodules colonized by the wild-type strain. CONCLUSIONS: The main limitation of the current plant model and GFP with the wild-type emission peak at 409 nm is a sharp increase in root autofluorescence below 550 nm. The selectivity of the technique can be enhanced by the use of red-shifted fluorophores and the contrasting labelling of the variants, provided that the excitation (482 nm) and emission (737 nm) maxima corresponding to root chlorophyll are respected.

Department of Ecology Institute of Microbiology Academy of Sciences of the Czech Republic Vídeňská 1083 Prague Czech Republic

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