Cell‐type‐specific metabolism in plants

Abstract: SUMMARY Every plant organ contains tens of different cell types, each with a specialized function. These functions are intrinsically associated with specific metabolic flux distributions that permit the synthesis of the ATP, reducing equivalents and biosynthetic precursors demanded by the cell. Investigating such cell‐type‐specific metabolism is complicated by the mosaic of different cells within each tissue combined with the relative scarcity of certain types. However, techniques for the isolation of specific… Show more

“…Recent advancements in plant suspension cultures have ignited enthusiasm for their use in creating engineered living materials, given their rapid growth and potential to construct plant-based cell factories. − Their inherent structural rigidity from cellulose-rich cell walls, coupled with the ability to perform photosynthesis, sets the stage for an autonomous and energy-efficient system . Additionally, the unique secondary metabolisms and the ability to be genetically manipulated render plants to be an ideal platform for producing a myriad of beneficial secondary metabolites and pharmaceutical proteins. , These advantages, combined with their responsiveness to environmental stimuli and biodegradability, position plant-based engineered living material as a compelling option in expanding the landscape of bioengineered materials.…”

Advancing Engineered Plant Living Materials through Tobacco BY-2 Cell Growth and Transfection within Tailored Granular Hydrogel Scaffolds

“…Recent advancements in plant suspension cultures have ignited enthusiasm for their use in creating engineered living materials, given their rapid growth and potential to construct plant-based cell factories. − Their inherent structural rigidity from cellulose-rich cell walls, coupled with the ability to perform photosynthesis, sets the stage for an autonomous and energy-efficient system . Additionally, the unique secondary metabolisms and the ability to be genetically manipulated render plants to be an ideal platform for producing a myriad of beneficial secondary metabolites and pharmaceutical proteins. , These advantages, combined with their responsiveness to environmental stimuli and biodegradability, position plant-based engineered living material as a compelling option in expanding the landscape of bioengineered materials.…”

Advancing Engineered Plant Living Materials through Tobacco BY-2 Cell Growth and Transfection within Tailored Granular Hydrogel Scaffolds

“…The multiple types of cells present in plants require specific regulation of metabolism that matches metabolic fluxes to the specific demands of those different cell types. In their review, Daloso et al (2023) describe the difficulties in obtaining information on the metabolic regulatory landscape of distinct cell types due to technical limitations in the ability to rapidly purify one cell type from another in a manner such that the metabolism of the individual cell types is not perturbed. They provide an overview of methods that have been applied, namely cell isolation, in situ microscopy and in silico modelling.…”

Editorial – Regulation of Metabolism Special Issue

“…Although primary metabolism is highly conserved between plant species (Cannell et al, 2020), the cells in every tissue have distinct patterns of metabolite fluxes to facilitate different functions. While metabolism is well understood at the cellular level in some leaf tissues (Daloso et al, 2023), it has not yet been analysed in root tissues. Roots consist of specialised cell types both in the longitudinal direction and across the radial axis (Hochholdinger et al, 2004).…”

Getting to the roots of metabolism: the role of fermentation in aerobic conditions in maize root tissues