The wild type (Wt) and the polyamine-deficient strain (PA-vs) of the halotolerant Dunaliella salina were subjected to stress caused by 3.5 mol/L NaCI concentration. The chloroplasts were isolated and the molecular aspects of their reaction to salt stress were studied together with their recovery response to these hyper-saline conditions. In the Wt, the photosynthetic complexes were found to be severely affected by salt stress under light conditions. Transglutaminases, which are present in chloroplasts as two units of 25 and 50kDa, were immunorecognized by antibodies raised against rat prostatic gland transglutaminase. The amount, in particular that of the 50kDa unit, underwent an immediate change following hyper-saline stress. These concentration changes were found to coincide with variations in enzymic activity, which is also affected by the presence or absence of light. The PA-vs has a concentration of proteins and chlorophylls which is much lower than that of the Wt. In addition, the PA-vs appeared to be more severely affected by both salt and subculture stresses. Its recovery time was also longer. Its TGase activity increased after salt stress and was always higher in the light than in the dark, except soon after subculture, showing an additive stress effect of salt and light. In the PA-vs acclimated to high salinity, or immediately after stress application, the chloroplast content of chlorophyll a and b was considerably enhanced, like the TGase activity (by two-fold or more), and these changes exhibited almost coincident behaviours. Some transglutaminase substrates (proteins of 68, 55, 29 and 27 kDa) were found to be similar to those present in higher plants (thylakoid photosynthetic complexes and Rubisco). They were more markedly labelled by [1,4-14C] polyamines when the transglutaminase assay was performed in the light than in the dark, and much more in algae already acclimated to hyper-saline conditions than in those cultured in the optimal saline medium, or subjected to stress. The amount of 68 and 55 kDa polypeptides was particularly high in the 3.5 mol/L NaCI acclimated cells. The possible role of polyamine conjugation in the assembly of chloroplast proteins in cells affected by salt stress is discussed.
Dondini L., Bonazzi S., Del Duca S., Bregoli A.M., Serafini-Fracassini D. (2001). Acclimation of chloroplast transglutaminase to high NaCI concentration in a polyamine-deficient variant strain of Dunaliella salina and in its wild type. JOURNAL OF PLANT PHYSIOLOGY, 158(2), 185-197 [10.1078/0176-1617-00099].
Acclimation of chloroplast transglutaminase to high NaCI concentration in a polyamine-deficient variant strain of Dunaliella salina and in its wild type
Dondini L.Conceptualization
;Del Duca S.Supervision
;Bregoli A. M.Membro del Collaboration Group
;Serafini-Fracassini D.Writing – Original Draft Preparation
2001
Abstract
The wild type (Wt) and the polyamine-deficient strain (PA-vs) of the halotolerant Dunaliella salina were subjected to stress caused by 3.5 mol/L NaCI concentration. The chloroplasts were isolated and the molecular aspects of their reaction to salt stress were studied together with their recovery response to these hyper-saline conditions. In the Wt, the photosynthetic complexes were found to be severely affected by salt stress under light conditions. Transglutaminases, which are present in chloroplasts as two units of 25 and 50kDa, were immunorecognized by antibodies raised against rat prostatic gland transglutaminase. The amount, in particular that of the 50kDa unit, underwent an immediate change following hyper-saline stress. These concentration changes were found to coincide with variations in enzymic activity, which is also affected by the presence or absence of light. The PA-vs has a concentration of proteins and chlorophylls which is much lower than that of the Wt. In addition, the PA-vs appeared to be more severely affected by both salt and subculture stresses. Its recovery time was also longer. Its TGase activity increased after salt stress and was always higher in the light than in the dark, except soon after subculture, showing an additive stress effect of salt and light. In the PA-vs acclimated to high salinity, or immediately after stress application, the chloroplast content of chlorophyll a and b was considerably enhanced, like the TGase activity (by two-fold or more), and these changes exhibited almost coincident behaviours. Some transglutaminase substrates (proteins of 68, 55, 29 and 27 kDa) were found to be similar to those present in higher plants (thylakoid photosynthetic complexes and Rubisco). They were more markedly labelled by [1,4-14C] polyamines when the transglutaminase assay was performed in the light than in the dark, and much more in algae already acclimated to hyper-saline conditions than in those cultured in the optimal saline medium, or subjected to stress. The amount of 68 and 55 kDa polypeptides was particularly high in the 3.5 mol/L NaCI acclimated cells. The possible role of polyamine conjugation in the assembly of chloroplast proteins in cells affected by salt stress is discussed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
