Ion homeostasis in cell is taken ca

Ion homeostasis in cell is taken care of by the ions pumps like antiporters, symporters and carrier proteins on membranes (plasma membrane or tonoplast membrane). Salt Overly Sensitive (SOS) regulatory pathway is one good example of ion homeostasis. This pathway is activated after the receptor perceives the salt stress to alter protein activity and gene transcription by signaling intermediate compounds. One of its example is, three salt-overly sensitive mutants (sos) which are hypersensitive to specific salt NaCl (rather than osmotic effect as they are not sensitive to mannitol). SOS1, SOS2 and SOS3 mutants exhibits different phenotype with reference to Na+ accumulation. SOS3 is calcium binding protein which directly interacts and activate SOS2, serine / threonine protein kinase (Liu and Zhu, 1998; Ishitani et al., 2000 and Halfter et al., 2000). SOS3 inducts SOS2 on the plasma membrane, where SOS3-SOS2 complex protein kinase complex phosphorylates SOS1 to stimulate the Na+/H+ antiporter activity of Arabidopsis thaliana (AtNHX1) (Qui et al., 2002; Quintero et al. 2002; Guo et al., 2004).
Na+ which enters leaf cells, is pumped into vacuole before it reaches to toxic level for enzymatic activities. This pumping activity is controlled by valuolar Na+/H+ antiporters (Blumwald et al., 2000). Addition of salt induce the Na+/H+ antiporter activity but it increases more in salt tolerant than salt sensitive species (Staal et al., 1991). This mechanism has been emphasized by certain experiments where over- expressing of vacuolar transporter (NHX1) has increased the salinity tolerance of Arabidopsis (Apse et al., 1991), Tomato (Zhang and Blumwald, 2001), Brassica napus (Zhang et al., 2001) and rice (Fukuda et al., 2004). This increase uptake of Na+ to short vacuoles could facilitate enhanced storage of Na+ and ultimately conferring greater tolerance by reducing Na+ in cytosol.