Studies were conducted to examine the possibility of enhancing grain yield of a large-grain variety, Pegonil, through increasing panicle number per unit area by dense planting (30×7.5cm vs. 30×15cm). Fifty percent leaf-cutting was also executed at either heading or 1 week after heading to investigate whether photosynthetic production was high enough to meet the needs of developing grains. Under the environmental conditions of the 2nd crop season, yield was 40% lower for Pegonil than for Tainung 67, a medium-grain variety, due mainly to fewer spikelet number per panicle and panicle number per hill. Leaf-removal at heading stage showed no effect on the mature panicle weight per hill, whereas a 32% reduction was observed in Tainung 67. Leaf-removal at 1 week after heading decreased panicle weight by 14% and 32%, repectively, for Pegonil and Tainung 67. Leaf-cutting caused a decrease of N concentration in the panicle, but not in the leaf blade and culm; indicating retranslocation of N to the panicle was insignificant. This, along with the low TNC concentration in the culm, suggested that photosynthetic production was unable to sustain high root activity, and hence the supply of N was not in an adequate state for the developing grains. Dense planting increased yield of Pegonil by 42%, which was still 20 % lower than the yield of Tainung 67. As panicle number per unit area was increased significantly while the other three yield components were unaffected, it indicated that grain yield of large-grain rice varieties could be increased substantially through cultural improvement. The large-grain variety Pegonil possessed high accumulation rates of dry matter, N ane TNC in the panicles during the first 3 weeks after heading. However, shorter effective grain-filling period and less uniform TNC deposition among spikelets within a panicle resulted in lower yield efficiency of Pegonil. Improvement should be made before the large-grain rice varieties were able to be grown commercially.