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Articles

Promotion of Seed Germination by Cyanide

Agricultural Environmental Quality Institute, Agricultural Research Service, United States Department of Agriculture, Beltsville, Maryland 20705

Potassium cyanide at 3 µM to 10 mM promotes germination of Amaranthus albus, Lactuca sativa, and Lepidium virginicum seeds. L-Cysteine hydrogen sulfide lyase, which catalyzes the reaction of HCN with L-cysteine to form -L cyanoalanine, is active in the seeds. -L-Cyanoalanine is the most effective of the 23 -amino acids tested for promoting germination of A. albus seeds. Aspartate, which is produced by enzymatic hydrolysis of asparagine formed by hydrolysis from -cyanoalanine, is the second most effective of the 23 amino acids. Uptake of aspartate-4-¹⁴C is much lower than of cyanide.

Radioactive tracer in K¹⁴CN shows uptake of about 1.5 µmoles of HCN per gram of A. albus and L. sativa seeds after 20 hours of imbibition. Extracts of the seeds gave high ¹⁴C activity in -cyanoalanine, asparagine, and aspartate. The acid-hydrolyzed protein extract gave high activity only in aspartate. Tests were negative for free cyanide in the seed. Respiration of the seed is inhibited more than 75% by KCN and by KN₃ at 10 mM. Azide at greater than 1.0 mM inhibits the promotion of germination by cyanides. Neither 0.1 mM KCN nor KN₃ inhibit O₂ consumption, whereas lower concentrations promote germination. It is concluded that the high rate of utilization of cyanide in the reaction to form -L-cyanoalanine and the subsequent incorporation into protein limit any inhibition of oxygen consumption. The promotion of seed germination is substrate-limited by asparagine-aspartate, which is required for protein synthesis.

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