Respostas à acidez em células de tabaco (Nicotiana tabacum) cv. BY-2 em diferentes estados de sensibilidade / The response of tobacco (Nicotina tabacum) cv. BY-2 cells to low pH at different stages of sensitivity

AUTOR(ES)

Vanderlei Antonio Stefanuto

DATA DE PUBLICAÇÃO

2006

RESUMO

Acid soils account for about 40 % of the surface area of the world and are one of the major factors limiting plant productivity. In Brazil, these soils comprise roughly two-thirds of its total territory. In general, soil acidity is detrimental because it limits the depth of the root system, increasing susceptibility to drought and decreasing the use of nutrients. In addition to the high levels of hydrogen ion activity, acid soils usually have Al toxicity hazards, a topic which has been intensely studied in the past years. However, Al toxicity only occurs at low pH, under conditions in which proton toxicity is also a problem. Despite this, studies of proton toxicity are lacking. The sensitivity of cells to low pH depends on their growth and developmental status. In roots, the most sensitive cells are those of the elongation zone and in cell cultures, cells in the log phase are more sensitive than those of the stationary phase. This study is part of a larger attempt to explore the differences that exist between cells with respect to their sensitivity to low pH to further understand toxicity and tolerance to protons. Cells of tobacco BY-2, a plant cell model system which has several advantages over the use of roots, was used in this study. The objectives were a) to determine the appropriate conditions to expose these cells to low pH; b) characterize the response of these cells to low pH, when different environmental factors are varied and at different stages of cellular sensitivity to acidity; and c) examine if changes in the sensitivity of cells to low pH are due to changes in the composition of plasma membranes or in the activity of ATPases. Several preliminary tests were performed to define the experimental conditions to be used ? the duration of exposure to low pH, the composition of the medium and the buffer to be used. A simple solution containing only CaCl2 2mM, KCl 10 mM and MES or phthalate buffer (10 mM) was chosen to wash and incubate the cells at the pH of interest. Phthalate was tested because MES, the buffer normally used in the culture medium, is not effective at pH values below 5.0. Phthalate (pKa = 4,1) had very little effects on cell viability as evaluated by membrane permeability to trypan blue, but it severely inhibited the growth of the cell culture in complete medium. Nevertheless, both buffers were used in several subsequent experiments, the results of which were found to be similar between both buffers. The viability of log-phase cells (2 day-old) was reduced when the pH was lowered from pH 5,6 to 3.8, but this was sharper down to pH 4,8. Cells in stationary phase (7 day-old) were insensitive to low pH. At a fixed pH of 4,2, increases in the concentration of CaCl2 up to 8 or 16 mM abolished most of the deleterious effects of low pH. To generate the same effect, KCl had to be added at concentrations between 80 and 160 mM. The addition of sucrose also alleviated the effects of low pH. The results suggest the importance of solution ionic strength and osmolarity on sensitivity to low pH, but the effects of Ca do not appear to depend only on these two properties. The inhibition of ATPases, by DCCD, did not appear to bear any relation to cellular sensitivity to low pH. Both log-phase and stationary-phase cells were affected by the addition of sodium orthophosphate. In stationary-phase cells, this effect was more pronounced at pH 4,2, suggesting that in these cells, P-type H+-ATPases of the plasma membrane may play a role in the tolerance of these cells to lo pH. Differences were found in the protein profile of enriched plasma membrane fractions both between log-phase and stationary-phase cells and between cells treated or not with low pH. These differences, however, need to be better examined.

ASSUNTO(S)

membrana plasmática tampões. acidez nicotiana tabacum sensibilidade diferencial low ph baixo ph nicotiana tabacum ph buffers suspensão celular acidity cell suspensions differential sensitivity plasma membrane

Documentos Relacionados

• Estresse oxidativo e diferenças na sensibilidade de células de tabaco (Nicotiana tabacum L.) cv. BY-2 ao alumínio e à acidez
• Regeneração e infecção por Agrobacterium tumefaciens em explantes de Tabaco(Nicotiana tabacum L.) cv. SR1
• Nucleotide sequence of the tobacco (Nicotiana tabacum) anionic peroxidase gene.
• Sequence of a tobacco (Nicotiana tabacum) gene coding for type A phytochrome.
• Characterization of Phytophthora nicotianae isolates from tobacco plants (Nicotiana tabacum) in Colombia