Increased protoplast yield from oat leaves and bean internodes by non-injurious mechanical perturbation

Abstract

A simple new technique has been developed to greatly increase the yield of protoplasts from plant organs without injury to the plant. Mechanical perturbation (MP) by non-stressful rubbing of oat leaf segments and bean internodes yielded ten to twenty times more viable protoplasts than did controls. The increase in protoplast yield due to MP is best manifested, if the organs are excised and transferred to the cellulytic enzymes immediately after MP is given to the intact organ. The enzymes begin digesting from the lower end of the bean internodes and proceed acropetally. Vacuum infiltration of control oat leaf segments for 15 min with enzyme solution resulted in increased yield but less than due to MP. Increased levels of calcium (10 mM) in the medium decreased the yield of protoplasts from both control and MP-treated plant organs. EGTA significantly increased the yield of protoplasts from control oat leaf segments and marginally over that found in the control bean internodes. Cycloheximide increased the yield of protoplasts from oat leaf segments but not from bean internodes. It is suggested that MP may increase the susceptibility of cell wall polymers to cellulytic enzymes by reducing calcium cross linking. MP is thus a tool for increasing the yield of protoplasts from plant organs without causing injury.