Effect of preincubation temperature on in vitro light saturated photosystem I activity in thylakoids isolated from cold hardened and nonhardened rye.

Thylakoids isolated from winter rye (Secale cereale L. cv Muskateer) grown at 5 degrees C or 20 degrees C were compared with respect to their capacity to exhibit an increase in light saturated rates of photosystem I (PSI) electron transport (ascorbate/dichlorophenolindophenol --> methylviologen) after dark preincubation at temperatures between 0 and 60 degrees C. Thylakoids isolated in the presence or absence of Na(+)/Mg(2+) from 20 degrees C grown rye exhibited transient, 40 to 60% increases in light saturated rates of PSI activity at all preincubation temperatures between 5 and 60 degrees C. This increase in PSI activity appeared to occur independently of the electron donor employed. The capacity to exhibit this in vitro induced increase in PSI activity was examined during biogenesis of rye thylakoids under intermittent light conditions at 20 degrees C. Only after exposure to 48 cycles (1 cycle = 118 minutes dark + 2 min light) of intermittent light did rye thylakoids exhibit an increase in light saturated rates of PSI activity even though PSI activity could be detected after 24 cycles. In contrast to thylakoids from 20 degrees C grown rye, thylakoids isolated from 5 degrees C grown rye in the presence of Na(+)/Mg(2+) exhibited no increase in light saturated PSI activity after preincubation at any temperature between 0 and 60 degrees C. This was not due to damage to PSI electron transport in thylakoids isolated from 5 degrees C grown plants since light saturated PSI activity was 60% higher in 5 degrees C thylakoids than 20 degrees C thylakoids prior to in vitro dark preincubation. However, a two-fold increase in light saturated PSI activity of 5 degrees C thylakoids could be observed after dark preincubation only when 5 degrees C thylakoids were initially isolated in the absence of Na(+)/Mg(2+). We suggest that 5 degrees C rye thylakoids, isolated in the presence of these cations, exhibit light saturated PSI electron transport which may be closer to the maximum rate attainable in vitro than 20 degrees C thylakoids and hence cannot be increased further by dark preincubation.