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Protein Alterations in Tall Fescue in Response to Drought Stress and Abscisic Acid

Dep. of Plant Science, Rutgers University, New Brunswick, NJ 08901

View larger version (60K): [in a new window]   Fig. 1. The SDS-PAGE profiles of soluble protein from tall fescue leaves under drought stress for Southeast and Rebel Jr. Molecular weight markers (MW) for lanes: (1) well-watered plants; (2) 5 d of drought stress; (3) 10 d of drought stress; (4) ABA treatment at 5 d of drought; and (5) ABA treatment at 10 d of drought stress, respectively. Equal amounts of protein (30 mg) were loaded in each lane. Arrows indicate protein changes in response to drought and ABA treatment.

View larger version (44K): [in a new window]   Fig. 2. Immunoblots of soluble protein from tall fescue leaves under drought stress and probed with dehydrin antibody for Southeast and Rebel Jr. Molecular weight markers (MW) for lanes: (1) well-watered plants; (2) 5 d of drought stress; (3) 10 d of drought stress; (4) ABA treatment at 5 d of drought; and (5) ABA treatment at 10 d of drought stress, respectively. All lanes were loaded with 15 mg protein. Arrows indicate dehydrin-like proteins in response to drought and ABA treatment.

View larger version (39K): [in a new window]   Fig. 3. Immunoblots of soluble protein from tall fescue leaves under drought stress and probed with HSC 70 antibody for Southeast and Rebel Jr. Molecular weight markers (MW) for lanes: (1) well-watered plants; (2) 5 d of drought stress; (3) 10 d of drought stress; (4) ABA treatment at 5 d of drought; and (5) ABA treatment at 10 d of drought stress, respectively. All lanes were loaded with 15 mg protein. Arrows indicate HSC 70 in response to drought and ABA treatment.