This study was designed to investigate changes in germination characteristics and color as well as the content of isoflavones of Eunhakong germinated under dark conditions. The wet weight of Enhakong was increased as germination progressed. It reached 299.7±15.0% at 60 h after the beginning of sprouting. The relative dry weight was consistently decreased as germination progressed, and it reached 65.8±8.2% at 60 h after the beginning of sprouting. The length of sprout was rapidly increased at the latter stage compared to the beginning of germination. Most soybean seeds were successfully germinated at 60 h after beginning of sprouting. The L value was considerably increased at the early stage of germination and it reached 63.4±0.7 at 60 h. The a value was rapidly increased at the beginning of germination and decreased thereafter. The b value was increased at the beginning of germination and did not changed thereafter. It was confirmed that the total isoflavone content, in which the m-genistin was highest followed by daidzin, and than slightly decreased.

Buckwheat sprouts are a vegetable which provides health benefit with their nutritionally important substances. Buckwheat has been considered as preventive medicine in the last decade. The present study was focused on the reference maps common (Fagopyrum esculentum Möench.) and tatary(Fagopyrum tataricum Gaertn.) buckwheat leaf and stem cultured in light and dark condition. Proteins were extracted from 7-day germinated buckwheat sprout sand separated by two-dimensional electrophoresis(2-DE) with isoelectro focusing gel over pH3 to 10. A total of more than 1520 protein spots were revealed on 2-DE gel, in which 165 proteins were identified in the basis of peptide mass fingerprinting. Functional category analysis indicated that these differentially expressed proteins mainly involved in cellular process, defense responsive, energy production, metabolism, photosynthesis, DNA recombination, DNA replication, seed storage, signal transduction, stress responsive, transcription, translation, and energy transport proteins. The pattern at protein level suggested the important roles for energy and protein metabolism-related proteins in growing sprouts under dark and light condition, accompanied by the activated of the stress responsive and growth condition. The proteomic profiling of common and tatary buckwheat will give insight for understanding buckwheat physiology and application to buckwheat industry.