Leaves are beautifully specialized organs designed to maximize the use of light and CO₂ for photosynthesis. Engineering leaf anatomy therefore holds great potential to enhance photosynthetic capacity.

The ion relations of isolated mesophyll cells from Antirrhinum leaf tissue were compared with the corresponding properties of the freshly excised leaf tissue. Both systems showed active influxes of K+ ...

During photosynthesis, leaves capture carbon dioxide (CO 2) from the atmosphere and transform it into organic compounds. However, getting from the leaf surface to the enzymes where carbon is fixed ...

Little is known about the developmental control of leaf size and shape, and understanding the mechanisms behind this is a major issue in plant biology. New research concludes that communication ...

Mesophyll conductance, or the ease with which CO 2 can diffuse through a leaf’s cells before reaching the location where it undergoes carbon fixation, plays a key role in photosynthesis. CO 2 faces ...

SEM Micrograph of Leaf Mesophyll Cell (IMAGE) Botanical Society of America Caption This is a high-resolution SEM micrograph from FIB-SEM manual imaging showing Arabidopsis thaliana leaf mesophyll ...

IN a recent communication 1, it was recorded that a number of hydrocarbons, including pure paraffin, readily entered the air-spaces of a leaf strip placed vertically in contact with the surface of ...

Spongy mesophyll close spongy mesophyllThe plant tissue in a leaf which has loosely packed cells and air spaces between them to allow gas exchange. tissue is packed loosely for efficient gas exchange.