Genetically modified (GM) techniques have made important contributions to increasing global crops production, lowering farm-level production costs, and shortening crop breeding progressions. However, the role of GM crops for food security and environmental impacts is still the subject of public controversy. GM technology is essential to basic plant science, such as plant physiology, biochemistry, and validation of gene function. Banana industry is important in tropical area. Triploid banana breeding is rather difficult and time consuming due to seedless, male-sterility, and highly reduced female fertility. GM techniques can serve as an alternative way for banana improvement. The constitutive expression of apoptosis-inhibition-related genes, including ”Bcl-x_L”, ”Ced-9”, or ”Bcl-2” 3'UTR, in transgenic banana 'Lady Finger' showed high levels of resistance to ”Fusarium” wilt for at least 5 months. Downregulated ACC synthase or ACC oxidase by using RNA-interference strategy could change banana fruit ripening process significantly. When compared with the non-transgenic counterpart, the Mh-ACO2 silenced transgenic banana fruit exhibited reduced ethylene production, decreased respiration rate, and delayed the change of peel color in the ripening stage. Biofortified transgenic banana provided an effective means of controlling the iron deficiency. A 6.32-fold increase in iron accumulation and a 4.58-fold increase in the zinc levels were showed in transgenic banana expressing ferritin constitutively. The use of transgenic banana for oral vaccine production has attracted worldwide attention. Pigs orally immunized with transgenic banana showed a specific anti-GP5 response for against porcine reproductive and respiratory syndrome virus.