Plants transport water in pipe-like structures made of dead and empty cells within a vascular tissue called xylem. A researcher concludes in his doctoral dissertation that different cell types work ...

Asymmetrically transported auxin-efflux carriers cause a polarized flow of auxin, which leads to the formation of continuous columns of procambial cells. In addition, one or more ...

Vascular tissue in plants distributes water and nutrients, thereby ensuring constant growth. Each newly developed cell needs to develop into its respective cell type in the vascular tissue. A team at ...

Vascular tissue in plants distributes water and nutrients, thereby ensuring constant growth. Each newly developed cell needs to develop into its respective cell type in the vascular tissue. Botanists ...

Scientists at The University of Manchester have identified how a plant hormone can affect the rate of cell division in vascular tissue in plants. The findings demonstrate how the hormone controls ...

Observations were made on the reduction zones in stem tissues of vascular plants. Apical meristems of terminal and lateral buds of deciduous trees were reducing zones for tetrazolium. Lateral ...

When it comes to studying living organisms, one of the most fundamental aspects is understanding their structure at the microscopic level. This includes learning about the different types of tissues ...

Two international research teams have identified key regulatory networks controlling how plants grow ‘outwards’, which could help us to grow trees to be more efficient carbon sinks and increase ...

Plants transport water in pipe-like structures made of dead and empty cells within a vascular tissue called xylem. Sacha Escamez at Umeå University concludes in his doctoral dissertation that ...