Age dependent alterations in photosystem II acceptor side in Cucumis sativus cotyledonary leaf thylakoids: analysis of binding characteristics of herbicide [14C]-atrazine.

Senescence induced temporal changes in photosystems can be conveniently studied in cotyledonary leaves. We monitored the protein, chlorophyll and electron transport activities in Cucumis sativus cv Poinsette cotyledonary leaves and observed that by 20th day, there was a 50%, 41% and 30-33% decline in the chlorophyll, protein and photosystem II activity respectively when compared to 6th day cotyledonary leaves taken as control. We investigated the changes in photosystem II activity (O2 evolution) as a function of light intensity. The photosystem II functional antenna decreased by 27% and the functional photosystem II units decreased by 30% in 20-day old cotyledonary leaf thylakoids. The herbicide [14C]-atrazine binding assay to monitor specific binding of the herbicide to the acceptor side of photosystem II reaction centre protein, D1, showed an increase in the affinity for atrazine towards D1 protein and decrease in the QB binding sites in 20th day leaf thylakoids when compared to 6th day leaf thylakoids. The western blot analysis also suggested a decrease in steady state levels of D1 protein in 20th day cotyledonary leaf thylakoids as compared to 6th day sample which is in agreement with [14C]-atrazine binding assay and light saturation kinetics.

Homologous structural domains in chicken egg-white ovomucoid: Characterization and acid denaturation.

The primary structure of ovomucoid shows considerable sequence homology at three contiguous regions which form structural domains I, II and III. In order to see whether or not the three domains fold similarly and acquire similar overall native conformation/shape, two fragments A and C were obtained by controlled peptic digestion of ovomucoid. The two fragments were investigated for their chemical composition, molecular weight, anti-tryptic activity, hydrodynamic behaviour, optical properties and acid denaturation. Results on molecular weight, amino acid composition and inhibitory acitivity show that the fragments A and C correspond respectively to domain I-II and domain III. Optical data suggested more exposure of tyrosine residues in the fragments than in the intact molecule. Domain III exists in a compact and globular conformation under native conditions whereas domain I-II and ovomucoid appear to possess asymmetric conformation. Results on acid denaturation show that the process is thermodynamically reversible and that inter-domain separation probably precedes denaturation of domains during acidification of ovomucoid.