In young maize plants, water stress affects the -SH-dependent activities: photosynthesis and dark respiration are reduced to about 60% at the wilting point; protein synthesis is inhibited even by moderate stress; and nitrate reductase activity is immediately inhibited also, prior to significant changes in the water status of the plant As protoplasmatic protein denaturation occurs, protein -SS-increases at the expense of -SH, with consequent decrease of the -SH/-SS- ratio. The linear correlation between -SH/-SS- ratio and -SH-dependent activities suggests a strict dependence between them. A moderate increment both in rhodanese activity and labile sulphide content has been also demonstrated at the beginning of the stress.
Water stress and SH dependent physiological activities in young maize plants.
Galli E
1979
Abstract
In young maize plants, water stress affects the -SH-dependent activities: photosynthesis and dark respiration are reduced to about 60% at the wilting point; protein synthesis is inhibited even by moderate stress; and nitrate reductase activity is immediately inhibited also, prior to significant changes in the water status of the plant As protoplasmatic protein denaturation occurs, protein -SS-increases at the expense of -SH, with consequent decrease of the -SH/-SS- ratio. The linear correlation between -SH/-SS- ratio and -SH-dependent activities suggests a strict dependence between them. A moderate increment both in rhodanese activity and labile sulphide content has been also demonstrated at the beginning of the stress.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
