ABSTRACT
Growth and phenolic production by two heterotrophic suspension cultures (SW-1 and SW-2) of sandalwood cultivated in a 2.5 L bioreactor were investigated. Cultures of SW-1 cell suspensions resulted in a maximum phenolic content of 32.5 mg L(-1) compared to 12.5 mg L(-1) produced by SW-2 cell suspensions. Fresh weight doubling time (Td) was 5.8 days and the specific growth rate (µ) was 0.12 d(-1) during exponential growth for both cell lines. The pH of the culture medium decreased from 5.5 to 3.5 during the exponential growth phase of SW-1 and SW-2 cell suspensions. The dissolved oxygen content also dropped steadily during culture and remained at 40% throughout exponential growth phase. These results should provide a basis for developing sandalwood cell cultures for bioproduction of useful compounds.
ABSTRACT
Effects of water stress on protein synthesis were investigated in heterotrophic callus cultures derived from slash pine (Pinus elliottii Engelm.) cotyledon explants. Cultures were transferred to medium containing 0-15% mannitol to provide water potentials between -0.4 and -2.5 MPa. Beginning between 0 and 22 h after transfer to the new medium, cultures were incubated for 2 h with (35)S-methionine. Both the uptake of label and the incorporation of label into protein decreased with decreasing medium water potential. Incorporation, however, was reduced to a greater extent than uptake suggesting that the reduced incorporation was at least partly the result of reduced protein synthesis. Separation of labeled proteins by one-dimensional SDS-polyacrylamide gel electrophoresis and visualization by fluorography revealed the induction of two new protein bands after incubation at -1.8 MPa for 24 h. Induction of new proteins was not observed at other water potentials or after shorter incubation times. Protein bands from cultures incubated at -1.8 MPa for 24 h and then transferred for 24 h to mannitol-free medium (-0.4 MPa) were comparable to those from control cultures maintained on mannitol-free medium throughout.