The objective of this study was to establish the technique to produce whole grain non-gluten pasta-like products made with the domestic grown grains and legumes by using a twin-screw extruder. Three major whole grain pasta-like rice products (PLP) were developed, which are whole rice (brown rice), whole multigrain (brown rice and tartary buckwheat) and whole grain and bean (brown rice and soybean). In this study, the factors affecting the quality of whole grain products include the type of raw materials, the specification of flours, feed moisture (30, 40 and 50%) and screw speed (300 and 500 rpm) during extrusion processing. The specific bioactive compounds (including resistant starch, Vit E, γ-oryzanol and rutin) were analyzed. The results show that the particle size of grain flour should be less than 155 μm, the damaged starch content should be within 16-30% and the amylose content of flours should be 24-26% for good quality of whole grain PLP. It's worth noting that small particle size of tartary buckwheat fiber (<10 μm) could reduce the cooking loss and increase the maximum cutting force of whole multigrain PLP. Slightly puffing could be occurred when the noodle was extruded at high pressure resulting from the high screw speed and low feeding water. The appropriate amount of the feeding water of extrusion was depending or the flour properties, which has a greater impact on the extrusion than the screw speed. The maximum cutting force of cooked pasta was negatively correlated with the rate of cooking loos. As the same feeding water applied, a decrease of setback viscosity could be found when high screw speed was applied to make whole grain PLP. This is attributed the starch degradation under high shearing. The resistant starch content of raw flours and whole grain PLP were 7-11% and 3-10 %, respectively. The results of DSC show that resistant starch in whole grain PLP was type III. The amount of slowly digestible starch and resistant starch was positively correlated with eGI. The whole multigrain pasta-like noodle had the lowest eGI than others, attributing to the 30% of hulled tartary buckwheat flour were included. The extrusion had infurior effect on the bioactive compouds, such as total phenolics, Vitamin E and γ-oryzanol. Moreover, rutin was bioconverted into quercetin by rutin degradation enzyme during extrusion process, resulting bitter flavor of whole multigrain PLP. The whole grain pasta-like products developed in this study, containing high dietary fiber content, low sodium content and having good palatability, have great potential and competition in the food market.