The objective of this study was to investigate the effects of germination and heating treatments on the bioactive compounds and starch digestibility in domestic grown legumes, and to assess the potential of the using for healthy food ingredients. In 9 domestic legume varieties, protein was the major component in soybeans, and carbohydrates in azuki beans and mung beans. All varieties composed about 20% dietary fiber. Only 6 of 9 domestic legume varieties could germinate, and all of the 6 varieties germinated completely in 3 days. The dark-coat seeds, black soybean TN3, and azuki bean AKS8 and AKS9 had the highest antioxidant properties. After soaking and germination, antioxidant properties of legumes could significantly improved. In all treatments, the 3-day’s germinated mung bean GTN5 had the best DPPH scavenging abilities, this could be related to the high vitamin C content in mung bean. Soybean KS10 and black soybean TN3 had the highest contents of total isoflavones and total aglycones after 3-day’s germination. After soaking, GABA contents in azuki bean AKS8 and AKS9 had significantly increased. Vitamin C contents in mung bean GTN5 and TS95-03M reached the highest after germinated 3 and 2 days, respectively. During heat process, isoflavones in soybeans might be converted to another form or degraded. The malonylglucosides decreased dramatically corresponding with the increases of glucosides and acetylglucosides after dry-heating treatments, but only increased of glucosides after moist-heating treatments. Soybean KS10 remained the highest contents of total isoflavones and aglycones after soaking and 30-min moist-heating treatment, while black soybean TN3 had the highest contents of total isoflavones and aglycones after 3-day’s germination and 210°C dry-heating treatment. GABA in azuki beans was thermal stable, and they wouldn’t decreased after moist-heating treatments. But in dry-heating treatments, GABA decreased to about 20-30% of the non-treated sample. Vitamin C was a heat-sensitive compound, and it would be decomposed by heat treatments. Applying the blanching treatment (100℃/10 sec) before freeze-drying, there was still 60% of vitamin C left compared to non-blanching samples. RS contents were higher than 50 % and RDS contents were lower than 20 % in all matured azuki beans and mung beans. Dry-heating raised the percentages of rapid digestible starch (RDS) in azuki and mung beans, while decreased the percentage of resistant starch (RS). For the purpose of production of SDS and RS, the best enzyme hydrolysis condition was 40-60 ASPU/g enzyme dosages, 12-24 hr hydrolyzation time, and 24 hr retrogradation.