Litcius/Paper detail

Resource plasticity-driven carbon-nitrogen budgeting enables specialization and division of labor in a clonal community

Sriram Varahan, Vaibhhav Sinha, Adhish S. Walvekar, Sandeep Krishna, Sunil Laxman

2020eLife16 citationsDOIOpen Access PDF

Abstract

colonies, metabolic constraints drive cells into groups exhibiting gluconeogenic or glycolytic states. In that study, threshold amounts of trehalose - a limiting, produced carbon-resource, controls the emergence and self-organization of cells exhibiting the glycolytic state, serving as a carbon source that fuels glycolysis (Varahan et al., 2019). We now discover that the plasticity of use of a non-limiting resource, aspartate, controls both resource production and the emergence of heterogeneous cell states, based on differential metabolic budgeting. In gluconeogenic cells, aspartate is a carbon source for trehalose production, while in glycolytic cells using trehalose for carbon, aspartate is predominantly a nitrogen source for nucleotide synthesis. This metabolic plasticity of aspartate enables carbon-nitrogen budgeting, thereby driving the biochemical self-organization of distinct cell states. Through this organization, cells in each state exhibit true division of labor, providing growth/survival advantages for the whole community.

Topics & Concepts

GlycolysisTrehaloseBiologyCell divisionCarbon sourceCell biologySaccharomyces cerevisiaeBiochemistryLimitingCellYeastMetabolismMechanical engineeringEngineeringMicrotubule and mitosis dynamicsFungal and yeast genetics researchViral Infectious Diseases and Gene Expression in Insects