The invention relates to genetic constructs encoding a compartmenting peptide, wherein expression of the compartmenting peptide leads to formation of a droplet body comprising a targeted biological product, and to vectors including such constructs. The invention also relates to methods of increasing the yield of a biological product in a plant, and to methods for producing a transgenic plant which produces an increased yield of a biological product. The invention also relates to transgenic plants, host cells, plant propagation products and plant parts. The invention also relates to the biological products themselves, produced according to the invention.

Aspects of the present disclosure relate to genetically altered plants with enhanced biomass including genetic alterations that stimulate RubP regeneration and electron transport. In particular, the present disclosure relates to genetically altered plants with enhanced biomass through overexpression of CB proteins (e.g., FBPase/SBPase or SBPase), and overexpression of photosynthetic electron transport proteins (e.g., cytochrome c.sub.6 and Rieske FeS).

Provided are a microorganism for producing retinol, in which retinol biosynthetic genes are introduced; and a method of producing retinol, the method including a step of culturing the microorganism. The microorganism of the present invention may have an improved ability to produce retinol, and thus it may be efficiently used in producing retinol. Based on the method of producing retinol, the method including the step of culturing the microorganism, the retinol production efficiency may be improved.

The invention relates to recombinant microorganisms and methods of producing citronellal, citronellol, citronellic acid, and/or citronellal/citronellol pathway intermediates and precursors.

The present disclosure provides a genetically modified host cell capable of producing linalool (or 3,7-dimethylocta-1,6-dien-3-ol).

The present disclosure describes the engineering of microbial cells for fermentative production of (6E)-8-hydroxygeraniol and provides novel engineered microbial cells and cultures, as well as related (6E)-8-hydroxygeraniol production method.

The present disclosure relates to the transformed Synechococcus elongatus strain of capable of mass production of farnesene. The transformed Synechococcus elongatus strain of the present disclosure is characterized by having the ability to mass produce farnesene using carbon dioxide as an independent carbon source. In particular, the Synechococcus elongatus strain is economically effective because it uses carbon dioxide present in light and air as a carbon source. There is an eco-friendly effect since it can be used for eliminating or reducing carbon dioxide in the atmosphere using microorganisms. Further, the strain of the present disclosure has a rapid growth rate and excellent ability to fix carbon dioxide compared with other microorganisms, thereby being utilized in various fields such as food, medicine, pharmacy, biofuel, and chemistry.

The invention relates to genetic constructs encoding a compartmenting peptide, wherein expression of the compartmenting peptide leads to formation of a droplet body comprising a targeted biological product, and to vectors including such constructs. The invention also relates to methods of increasing the yield of a biological product in a plant, and to methods for producing a transgenic plant which produces an increased yield of a biological product. The invention also relates to transgenic plants, host cells, plant propagation products and plant parts. The invention also relates to the biological products themselves, produced according to the invention.

The present disclosure describes the engineering of microbial cells for fermentative production of (6E)-8-hydroxygeraniol and provides novel engineered microbial cells and cultures, as well as related (6E)-8-hydroxygeraniol production method.

The invention relates to recombinant microorganisms and methods of producing citronellal, citronellol, citronellic acid, and/or citronellal/citronellol pathway intermediates and precursors.