Effect of NaCl on lipid content of plasma membranes isolated from roots and cell suspension cultures of the dicot halophyte Kosteletzkya virginica (L.) Presl.

Lipid concent was examined in plasma membrane fractions isolated by discontinuous sucrose density-gradient centrifugation from both salinized and unsalinized roots and cell suspension cultures of Kosteletzkva virginica (L.) Presl., seashore mallow, a halophytic dicot. The distribution of marker enzymes along the gradient indicated that plasma membranes of roots and cell cultures accumulated primarily at the 34%/45% interface. Total sterol and phospholipid content increased significantly in plants and cell suspensions grown on salinized nutrient media. In addition, K. virginica plasma membranes were constitutively rich in sterols, and a high sterol-to-phospholipid ratio was maintained or elevated under saline conditions. These results are discussed in relation to membrane composition as a mechanism involved in the cellularly based salt tolerance of K. virginica.