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Amylose content (AC) stands as a pivotal determinant of rice grain quality, primarily governed by the <i>Waxy</i> gene (<i>Wx</i>). The allelic variation within this gene, particularly the presence of the <i>Wx^mp</i> allele derived from the ancestral <i>Wx^mq</i> allele, significantly influences AC and is prevalent among soft <i>japonica</i> rice varieties in southern China. Although both alleles are associated with lower AC, there remains a paucity of detailed understanding regarding the interplay between specific functional single nucleotide polymorphisms (SNPs) within these alleles and the overarching rice grain quality. To investigate this, we engineered three distinct transgenic rice lines, each harboring the <i>Wx^mp</i>, <i>Wx^mq</i>, or <i>Wx^b−5c</i> alleles in the background of the glutinous rice cultivar Nip(<i>wx</i>). This suite of transgenic rice lines showcased varying degrees of grain transparency inversely correlated to AC, which in turn influenced other physicochemical properties of the rice grains, such as taste value of cooked rice, gel consistency, and starch pasting properties. Additionally, analyses of gene expression and enzyme activity revealed that the functional SNPs, Ex4-53G to A and Ex5-53T to C, lead to a decline in the activity of granule-bound starch synthase I (GBSSI) without altering expression levels.