Flow cytometric and microscopic analysis of the effect of tannic acid on plant nuclei and estimation of DNA content |
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| Authors: | Loureiro João Rodriguez Eleazar Dolezel Jaroslav Santos Conceição |
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| Institution: | 1 Laboratory of Biotechnology and Cytomics, Department of Biology, University of Aveiro, Campus Universitário de Santiago, 3810-193 Aveiro, Portugal and 2 Laboratory of Molecular Cytogenetics and Cytometry, Institute of Experimental Botany, Sokolovská 6, Olomouc, CZ-77200, Czech Republic |
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| Abstract: | • Background and Aims Flow cytometry (FCM) is extensivelyused to estimate DNA ploidy and genome size in plants. In orderto determine nuclear DNA content, nuclei in suspension are stainedby a DNA-specific fluorochrome and fluorescence emission isquantified. Recent studies have shown that cytosolic compoundsmay interfere with binding of fluorochromes to DNA, leadingto flawed data. Tannic acid, a common phenolic compound, maybe responsible for some of the stoichiometric errors, especiallyin woody plants. In this study, the effect of tannic acid onestimation of nuclear DNA content was evaluated in Pisum sativumand Zea mays, which were chosen as model species. • Methods Nuclear suspensions were prepared from P. sativumleaf tissue using four different lysis buffers (Galbraith's,LB01, Otto's and Tris.MgCl2). The suspensions were treated withtannic acid (TA) at 13 different initial concentrations rangingfrom 0·25 to 3·50 mg mL–1. After propidiumiodide (PI) staining, samples were analysed using FCM. In additionto the measurement of nuclei fluorescence, light scatter propertieswere assessed. Subsequently, a single TA concentration was chosenfor each buffer and the effect of incubation time was assessed.Similar analyses were performed on liquid suspensions of P.sativum and Z. mays nuclei that were isolated, treated and analysedsimultaneously. FCM analyses were accompanied by microscopicobservations of nuclei suspensions. • Key Results TA affected PI fluorescence and light scatterproperties of plant nuclei, regardless of the isolation bufferused. The least pronounced effects of TA were observed in Tris.MgCl2buffer. Samples obtained using Galbraith's and LB01 bufferswere the most affected by this compound. A newly described ‘tannicacid effect’ occurred immediately after the addition ofthe compound. With the exception of Otto's buffer, nuclei ofP. sativum and Z. mays were affected differently, with pea nucleiexhibiting a greater decrease in fluorescence intensity. • Conclusions A negative effect of a secondary metabolite,TA, on estimation of nuclear DNA content is described and recommendationsfor minimizing the effect of cytosolic compounds are presented.Alteration in light scattering properties of isolated nucleican be used as an indicator of the presence of TA, which maycause stoichiometric errors in nuclei staining using a DNA intercalator,PI. |
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| Keywords: | Cytosolic compounds dye accessibility genome size flow cytometry nuclear DNA content Pisum sativum propidium iodide tannic acid Zea mays |
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