Time-lapse footage of a threadlike Arabidopsis root as it grows. Each fluorescent blue dot marks the nucleus of a cell that’s in the process of dividing to produce new cells, which will go on to ...

This indicates that 3D bioprinting plant cells could be used to study cellular regeneration in crop plants. The final part of this study was looking at the cellular identity of bioprinted cells; ...

A cytokinin-mediated, proliferation-based mechanism is involved in the generation and maintenance of cell-type specific tissue boundaries during vascular development in Arabidopsis roots ...

Scientists at IISER Pune have identified key mechanisms that enable plants to regrow damaged parts, maintaining their original shape and function.

The paper by researchers from IISER, Pune and Thiruvananthapuram, Netherlands’ Wageningen University, and UK-based John Innes ...

More information: A single nuclei transcriptome census of the Arabidopsis maturing root identifies that MYB67 controls phellem cell maturation., Developmental Cell (2025).

They were also less responsive to ABA, as seen in higher germination rates and reduced inhibition of root growth under hormone treatment ... and ROS synthesis in drought-stressed Arabidopsis, Plant ...

Scientists have discovered, for the first time, how root cells respond to their complex soil environment, revealing that roots actively "sense" their microenvironment and mount precise, cell ...

The scientists bio-printed cells from Arabidopsis thaliana and soybeans to investigate not only whether plant cells will live after being bioprinted—and for how long—but also how they obtain and ...

Single-cell RNA sequencing (scRNA-seq) has been used extensively to study cell-specific gene expression in animals, but it has not been widely applied to plants. Here, we describe the use of a ...