Grain size is one of the most important trait determining yield in cereal crops, apart from number of grains per panicle, number of panicles per plant and 1000 seed weight. Other than grain characteristics, plant architecture is another very important factor influencing yield by affecting the amount plant surface area directly exposed to the sun light. Erect panicle is important morphological characteristic which helps in enhancing the yield by allowing sun light to fall directly on leaves unlike curved panicle which blocks sunlight and consequently reduce photosynthesis. A small round grain and erect panicle mutant was obtained by treating Hwacheong rice (japonica) with MNU (N-methyl-N-nitrosourea) chemical mutagen. Through bulked segregant analysis (BSA) using STS (Sequence-Tagged Sites) and SS-STS (Sub-species Specific Sequence-Tagged Site) markers we located the mutated gene on the long arm of chromosome 7 and narrowed down candidate region to 168.75kbp through fine mapping. Mutant manifested characteristics like reduced grain size and plant height, dense and erect panicle and relatively erect plant compared to the wild type. When we crossed the mutant with its parent (Hwacheong), F1 panicle and grain characteristics showed intermediate phenotype, therefore, we concluded that wild type allele of this gene shows incomplete dominance. Scanning electron microscopy(SEM) result shows that increase in width of mutant grain, which changes its shape, is due to increase in width of glume cells. Phenotypic examination shows that dense and erect panicle phenotype is result of reduction in length of rachis, primary and secondary branch.