Abstract: The present invention pertains to genetically modified plants, particularly maize, sorghum and rice, with an all pistillate or all staminate phenotype and methods of the same. The survival of functional pistils in maize requires the action of the sk1 gene. SK1 encodes a glycosyltransferase (GT) that protects pistils from tasselseed-mediated cell death. sk1-dependent pistil protection at a developing floret gives rise to stamen arrest at the same floret, and so determines the pistillate floral fate. This is the first single gain-of-function gene known to control sexuality. The present invention further provides a direct strategy to extend hybrid technologies to related cereals such as sorghum and rice. Tasselseed and silkless genes represent major sex determination genes in maize, a pathway that permits the efficient production of hybrid seed and the associated benefits of heterosis-increased yield, resistance to pathogens, etc.

Abstract: A new vegetable, referred to herein as green garlic, grown from garlic bulbils is disclosed. In particular examples, the green garlic is rich in one or more thiosulfinates. Methods of producing green garlic are also disclosed. In some examples, such methods permit year-round commercial production of green garlic.

Abstract: Genes can be introduced into plants that confer desirable traits such as, drought and stress tolerance, insect and pest resistance, as well as environmental qualities such as phyto-remediation. However, possibility for transgene escape to wild and non-transformed species raises commercial and ecological concerns. Disclosed herein are methods and compositions for generating plants with total vegetative growth for the reduction, and in some examples prevention of, transgene escape. The same methods and compositions can also be used to increase biomass production in a plant.