Latest Publications
George Bassel publications
A quantitative morphospace of multicellular organ design in the plant Arabidopsis
Salva Duran-Nebreda, Matthew D.B. Jackson, George W. Bassel
The investigation of cellular organization can provide insight into organ function following structure-function relationships. Here, we investigate the extent to which properties in cellular organization can arise ‘‘for free’’ as an emergent property of embedding cells in space versus those that are actively generated by patterning processes. A 3D cellular-resolution digital tissue atlas for the model plant species Arabidopsis was generated, and the extent to which the organs in this organism conform to the default configurations was established through statistical comparisons with digital tissue models. This work establishes a quantitative morphospace to understand the principles of organ construction and its diversity within a single organism.
Current Biology. November 2023
Toward uncovering an operating system in plant organs
Gwendolyn V Davis, Tatiana de Souza Moraes, Swanand Khanapurkar, Hannah Dromiack, Zaki Ahmad, Emmanuelle M Bayer, Rishikesh P Bhalerao, Sara I Walker, George W Bassel
Molecular motifs can explain information processing within single cells, while how assemblies of cells collectively achieve this remains less well understood. Plant fitness and survival depend upon robust and accurate decision-making in their decentralised multicellular organ systems. Mobile agents, including hormones, metabolites, and RNAs, have a central role in coordinating multicellular collective decision-making, yet mechanisms describing how cell-cell communication scales to organ-level transitions is poorly understood. Here, we explore how unified outputs may emerge in plant organs by distributed information processing across different scales and using different modalities. Mathematical and computational representations of these events are also explored toward understanding how these events take place and are leveraged to manipulate plant development in response to the environment.