Summary
The effects of weed removal at five dates after planting the crop were examined and compared with weed‐free and unweeded controls. The results revealed that the total weed population increased up to 6 weeks after planting and then decreased drastically in both the years. Total dry weight of weeds (at weeding and at haulm‐cutting) was greatest in the unweeded control, followed by weeding at 10 weeks after planting. In both years, maximum yield was obtained where plots were kept weed‐free, followed by weeding at 4 and 6 weeks after planting. The remaining treatments, including weeding at 2 weeks after planting, resulted in significant reductions in tuber yield. In unweeded control plots the tuber yield of potato was reduced by 40–43%.
The retrograde signaling pathway is well conserved from yeast to humans, which regulates cell adaptation during stress conditions and prevents cell death. One of its components, RTG1 encoded Rtg1p in association with Rtg3p communicates between mitochondria, nucleus, and peroxisome during stress for adaptation, by regulation of transcription. The F-box motif protein encoded by YDR131C constitutes a part of SCF Ydr131c -E3 ligase complex, with unknown function; however, it is known that retrograde signaling is modulated by the E3 ligase complex. This study reports epistasis interaction between YDR131C and RTG1, which regulates cell growth, response to genotoxic stress, decreased apoptosis, resistance to petite mutation, and cell wall integrity. The cells of ydr131cΔrtg1Δ genetic background exhibits growth rate improvement however, sensitivity to hydroxyurea, itraconazole antifungal agent and synthetic indoloquinazoline-based alkaloid (8-fluorotryptanthrin, RK64), which disrupts the cell wall integrity in Saccharomyces cerevisiae. The epistatic interaction between YDR131C and RTG1 indicates a link between protein degradation and retrograde signaling pathways.
The programmed cell death, apoptosis is a complex universal biological process in all types of eukaryotes ranging from single cell to multi-cellular organisms. The markers for apoptosis have been studied by assays based on both biochemical as well as microscopy however most assays are not affordable for many smaller labs. Acetic acid and hydrogen peroxide both induce apoptosis at higher concentrations in S. cerevisiae. Here we describe an assay system for the detection of apoptosis features based on DAPI staining followed by fluorescence microscopy in the cells treated with apoptosis inducing concentration of acetic acid and hydrogen peroxide. In this assay both untreated and cells treated with acetic acid and hydrogen peroxide were stained with DAPI and observed for the late stage apoptosis feature, Nuclear DNA fragmentation based multi nuclei centers and increase in the nuclear region enlargement. Further the multi nuclei feature and enlarged nuclei region as nucleus to cytoplasm ratio was quantified using Image J software. We report that S. cerevisiae strain BY4741 cells when treated with apoptosis inducing doses of acetic acid (140mM) and hydrogen peroxide (10mM) for 200 minutes, showed apoptosis marker feature such as nuclear region enlargement with multi-nuclei feature due to nuclear DNA fragmentation and increased nucleus to cytoplasm ratio when compared with untreated cells. We propose that this assay can be utilized for scoring the quantitative apoptotic feature as increase in multi-nuclei centers due to DNA fragmentation and nucleus to cytoplasm ratio as an indicator of apoptosis in S. cerevisiae upon treatment with apoptosis inducing agents. The assay system described here is easy to perform and affordable for the smaller lab to analyze the apoptotic features in S. cerevisiae cells which can be applied to other system as well.
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