A multiple linear regression analysis was performed using chl-a as a dependent variable. The equations in Table 2 show the relation of the biomass displayed as chl-a and the variables of SOD, MDA, proline, and protein (R2 = 0.386, the VIF = 1.75–2.77) for all the four species studied. When the
data of cyanobacterium was excluded, similar results (R2 = 0.414, VIF = 1.48–2.76) and variables were obtained (Table 2), showing a multicollinearity of the data from this organism. Proline was the only variable which significantly correlated (P < 0.001, n = 60) with chl-a in multiple linear regression analysis. To take into account the influence of independence on variables, a forward stepwise regression was used to further analyze covariance. Table 3 shows that for both chlorophytes and cyanobacterium, proline, carotenoids, SOD, and MDA can be used as a measure of selleck chemicals llc the tolerance to drought stress with significance. However, MDA is insignificant for cyanobacterium (L. boryana). STA-9090 datasheet Under drought stress conditions, algae and cyanobacteria exhibit some changes in photosynthetic electron transport that would
lead to the formation of free radicals, including ROS. Subsequently, peroxidation is mediated by ROS that readily attack unsaturated fatty acids, yielding lipid hydroperoxides and alkoxyl and peroxyl radicals. The radicals, then, would initiate chain reactions in the membranes and result in change and disruption of lipid structure, membrane organization, integrity, and permeability (Molinari et al. 2007, Qian
et al. 2009). This process of peroxidation would lead to the production of carbonyl compounds such as MDA (Aziz and Larher 1998). The results of our study show that treatment with drought stress has given rise to an enhancement of Tyrosine-protein kinase BLK MDA levels in studied cells. The elevated MDA levels are remarkable at the first day of treatment, but decline rapidly thereafter. Moreover, the elevated MDA levels vary with the species studied and does not exhibit any correlation with the degree of tolerance to drought stress. Thus, the elevation in intracellular MDA levels belongs to a short-term response of cells to stress. According to this, change in intracellular MDA levels is an indication of cellular damage, rather than an indication of tolerance to drought stress. In response to stress, cells tend to accumulate a considerable amount of proline intracellularly. Proline is a compatible compound which could act as an osmo-regulant (Wu et al. 1998, Molinari et al. 2004), a redox buffer (Hare and Cress 1997), a protectant of enzymes and proteins (Nikolopoulos and Manetas 1991, Delauney and Verma 1993), a regulator of cytosolic acidity (Venekemp 1989), a scavenger of free radicals (Matysik et al. 2002), and a membrane stabilizer by interactions with phospholipids (Wu et al. 1995).