plant architecture and panicle architecture are two critical agronomic traits that greatly affect the yield of rice (oryza sativa). prostrate growth 1 (prog1) encodes a key c2h2-type zinc-finger transcription factor and has pleiotropic effects on the regulation of both plant and panicle architecture, thereby influencing the grain yield. however, the molecular mechanisms through which prog1 controls plant and panicle architecture remain unclear. in this study, we showed that prog1 directly binds the lazy 1 (la1) promoter and acts as a repressor to inhibit la1 expression. conversely, la1 acts as a repressor of prog1 by directly binding to the prog1 promoter. these two genes play antagonistic roles in shaping plant architecture by regulating both tiller angle and tiller number. interestingly, our data showed that prog1 controls panicle architecture through direct binding to the intragenic regulatory regions of osgigantea (osgi) and subsequent activation of its expression. collectively, we have identified two crucial targets of prog1, la1 and osgi, shedding light on the molecular mechanisms underlying plant and panicle architecture control by prog1. our study provides valuable insights into the regulation of key domestication-related traits in rice and identifies potential targets for future high-yield rice breeding.