Bitter gourd (Momordica charantia L.) is one of monoecious species belonging to the family Cucurbitaceae. Unlike other Cucurbitaceae crops, gibberellin (GA) promotes female flower formation in bitter gourd. Next generation sequencing (NGS) provides a platform to analyze transcriptome for non-model organisms. Application of 100 mg·L-1 GA3 on seedlings of bitter gourd ‘Moon Light’ at 6~8-leaf stage reduced the ratio of male to female flower from 37 to 23. RNA isolated from GA-treated bitter gourd was conducted for comparative transcriptome analysis using NGS technology. 40,854 among 106,057 contigs were annotated as putative genes. Approximately 8,948 open reading frame-annotated genes showed a 2-fold differential expression between RNA of control and treatment. Gene expression of McGIDs, McXERICOs, McEIN3/EILs, and McLOX1s were up-regulated and that of McDELLA, McARF6s, and McARF8s were down-regulated after GA treatment. McMYB24.1 showed down regulated following GA application and it might play the role in inhibition of stamen development. Up regulation of McXERIOs might play a crucial role in GA-induced femaleness by promoted ABA accumulation in bitter gourds. McARF6s, and McARF8s were down-regulated after GA application which caused the reduction of jasmonate biosynthesis and repressed the expression level of McMYB24. These might inhibit the stamen development. McXERIOs might be induced following GA treatment which promoted the expression of McNCEDs and ABA accumulation. It also induced thylene biosynthesis in bitter gourds following GA application. These might promote the femaleness level of bitter gourd together.