Research Article
Cytological Effects of Bleaching Agent (Quneex) on Plant Cells and Plant DNA
Department of biology, College of Science, Princess Nourahbint Abdulrahman University, P.O. Box 84428S, Riyadh, Saudi Arabia
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Quneex, is a bleaching liquid that is used to clean white clothes and remove stain. It also kills germs that cause bad odor. Its ingredients include water, caustic soda and chlorine. It has a specific gravity of 1.08-1.09 and a pH1 of 13-14. Liquid caustic soda is around <2% sodium carbonate, <4 μg g1 of Arsenic (As2O3), <30 μg g1 of heavy metal Lead (Pb) and <0.1 μg g1 of Mercury (Hg) content, with 95.0% sodium hydroxide (NaOH), which is an inorganic compound (NaOH) with a highly caustic metallic base and alkali salt2. NaOH is one of the strongest alkalis and is highly reactive. It dissolves in water with evolution of huge amount of heat, in which its vapors is highly toxic. NaOH together with chlorine forms sodium hypochlorite (NaOCl), which is the active ingredient of Quneex.
NaOCl is often used as a disinfecting agent to contain infection due to pathogenic bacteria in hospitals although its efficacy has been shown to be lesser than that of chlorhexidine3. In plant industry, NaOCl is often used as a disinfectant that will affect seed germination and growth of plants. It was shown that diluted bleach baths with NaOCl controlled the exacerbation of atopic dermatitis, with a reduction of Staphylococcus aureus density, however with some patients to have intolerance to the NaOCl baths4.
NaOCl at total active chlorine concentration of 0.002% has been shown to successfully sterilize the medium for plant growth, which is cost-effective5. Furthermore, NaOCl at concentration of 0.2% decreased microbial contamination in the propagation of sugarcane, but the survival and growth of shoots were affected adversely6. NaOCl in a concentration of 500 ppm was also found to be effective against wild yeast strains growing on plants7. On the contrary, there have been a number of reported drawbacks and efficacy issues regarding the use of these agents in the plant industry8. This study was aimed to determine the cytological effect of the bleaching agent (Quneex) on the growth of plant cells and plant DNA.
This experimental research was conducted from October, 2017-March, 2018 in the Scientific sections of the Girls College, Department of Genetics, Faculty of Agriculture, Mansoura University, Egypt.
Sixteen actively growing young onion roots (Allium cepa) with primary root meristem (2-3 cm long) were collected and treated separately with the bleaching solution (Quneex) that contain 5.25% sodium hypochlorite, water and caustic soda. Different concentrations of the bleaching solution were used (0.1, 0.2, 0.3, 0.4 and 0.5%). The Quneex that was used has a pH (1% solution) of 13-14, specific gravity of 1.08-1.09 at 28°C, with no flash point. The stability was one year from production date with acceptable chemical degradation when stored properly. Treatment duration was 6, 12 and 24 h. Recovery experiments were carried out for each period and the concentration in distilled water for 6, 12 and 24 h after treatments. A control (untreated root tips) was simultaneously conducted for both treatments and recovery experiments.
The root tips from all the treatments and control were fixed in ethanol and glacial acetic acid in a concentration ratio of 3:1. Cytological examination was done using the acetocarmine squash method as described by Arzani et al.9. The frequency of mitotic index (MI) and the frequencies of each type of mitotic aberration were calculated by dividing the total number of cells containing the aberration to the total number of cells10. Study also estimated the amount of DNA (μg g1) in the apical meristems using calf thymus DNA as the standard Goswami and Chatterjee 11.
Data was analyzed using the Statistical Package for Social Sciences (SPSS) version 23.0 (SPSS Inc., Armonk, New York, USA). Results were presented as numbers and percentages for categorical variables and as mean and standard deviation for continuous variables. Independent t-test was used to determine significant differences in means. A p-value of <0.05 was considered statistically significant.
There were significant differences in the mitotic index (%) between treatments without recovery versus treatment with recovery. The mitotic index (%) increased with treatments over time with recovery. The mitotic index was significantly greater between treatments with recovery versus without recovery (p<0.001). Concentration×times of mitotic index also increased over time with recovery and was significantly greater with recovery at 24 h compared to without recovery (p<0.05).
Table 1: | Mitotic index (%) and abnormal cells induced by Quneex in Allium cepa cells |
The percentage and the concentration of abnormal cells with treatments was also significantly higher at 6 h without recovery compared to treatment with recovery (p<0.01) (Table 1).
Treatment with different concentrations of Quneex over time with recover showed significant decrease in the mitotic index of A. cepa root meristem cells along with the significant increase of percentage of abnormal cells. (Table 2-5). The chromosomal abnormalities (%) was found to be directly related to each of treatments and recovery. Treatments at 6 h and recovery at 24 h gave lower abnormal cells (%) at 0.1% compared to other concentrations. (Table 5) The maximum abnormalities were seen in treatment with 0.4% for 24 h and recovery at 6 h (Table 3).
Table 2-5 also shows the effect of Quneex on the cells including stickiness, laggards, bridges, C-metaphase, star-metaphase, binucleation, polypoid, disturbance and multinucleation, the most common of which was stickiness. Stickiness was observed highest at 0.2% treatment 24 h without recovery (Table 2) and treatment 12 h with recovery (Table 5).
Anaphase bridges were observed at 0.5% at 24 h treatment without recovery (Table 2). Spindle formations, star-anaphase, binucleation, polypoid chromosomes and other chromosomal abnormalities were also observed at different concentrations and durations of treatment (Table 2-5). This study has shown that star metaphase was observed at 0.1% concentration at 6 h treatment and at 12 h recovery (Table 4) and polyploidy was observed at 6 h and 12 h recovery (Table 3 and 4).
The reduction in the amount of DNA in A. cepa cells was observed with increasing concentration of Quneex and with longer duration of exposure to the bleaching agent (Table 6, Fig. 1-3).
The interaction between concentration and time showed significance at no recovery for mitotic index and the abnormal cells (%), which is similar to the results reported using chlorophenols (present in toilet cleaning agents) on the cells of the root meristem of onion seeds12. The finding of significant decrease in the mitotic index of A. cepa root meristem cells along with the significant increase of (%) abnormal cells is similar to the cytological effect of flurochloridone, as explained by several authors particularly on the increase in the interphase duration due to the inhibition of DNA synthesis and increase in the G2 period of plant cells13,14. However, the mitotic index was found to steadily increase in the recovery sets from 6-24 h similar to findings from previous studies14-16. The relationship between mitotic index and the amount of chromosomal abnormalities has been reported by previous studies where cell division is inhibited with a stronger or higher concentration of solutions such as dyes, preservatives and bleaching agents with induction of a wide range of mitotic abnormalities17,18.
The induction of bridges could be attributed to breaks in the chromosomes and stickiness, c-anaphase and multipolarity chromosomal aberrations are usually observed in anaphase-telophase cells19. Chromosomal lagging, on the other hand was found to provide a direct mechanistic link between extra centrosomes and chromosomal instability through promotion of multipolar anaphase, which results into many aneuploidy cells by abnormal cell division. This is also known to be present in some solid tumors20. The formation of anaphase bridges is in direct link with the chromosomal instability20. Binucleation can be due to the inhibition of the cell wall development as found in previous studies18. Star metaphase (bipolar configurations) of the chromosomes in which the centromeres clump with each other in the center of the cell and will take the shape of a star has something to do with inhibition of cytokinesis and the formation-deformation of the cell plate and may also be due to the effect of agents such as Quneex on the formation of mitotic microtubular organizing centers21.
Table 2: | Cytological abnormalities in root tip cells of Allium cepa induced by different concentrations of Quneex for different time exposure with no recovery |
Table 3: | Cytological abnormalities in root tip cells of Allium cepa induced by different concentrations of Quneex for different exposure with 6 h of recovery |
Table 4: | Cytological abnormalities in root tip cells of Allium cepa induced by different concentrations of Quneex for different exposure with 12 h of recovery |
Table 5: | Cytological abnormalities in root tip cells of Allium cepa induced by different concentrations of Quneex for different exposure with 24 h of recovery |
Fig. 1: | Amount of DNA at different concentrations at 6 h and their subsequent recovery |
Fig. 2: | Amount of DNA at different concentrations at 12 h and their subsequent recovery |
Table 6: | Amount of DNA at different concentrations of Quneex at different times and subsequent recovery |
Polypoid chromosomes which arise from unreduced gametes by non-disjunction, are usually observed in both plants and animals whereby the entire chromosome is multiplied, but mostly die22. The reduction in the amount of DNA in A. cepa cells was similar to the findings from previous studies on A. cepa using different solutions23,24.
Fig. 3: | Amount of DNA at different concentrations at 24 h and their subsequent recovery |
This study discover the advantages of using NaOCl as a disinfectant and sterilizing solution particularly in the plant and healthcare industry that can be beneficial for reducing potential infections and contaminations. However, this study will help the researcher to uncover the critical areas of the potentially hazardous and mutagenic effects of these agents that many researchers were not able to explore. Thus a new theory on the use of NaOCl may be arrived at particularly on its use in the plant industry and in the protection of the environment.
Bleaching agents similar to Quneex containing sodium hypochlorite have mutagenic properties that can be potentially hazardous to the environment and also to humans. There is a need to regulate the use and disposal of such chemicals into the environment particularly to the sewers, to prevent contamination of potable water, plant and biodiverse aquatic animals to some extent.