Characterizing a panel of amino acid auxotrophs under auxotrophic starvation conditions

Author:

Lewis Alisha G.1ORCID,Carmichael Laurin1,Wang Rebecca Y.2,Gibney Patrick A.1

Affiliation:

1. Department of Food Science Cornell University Ithaca New York USA

2. Calico Life Sciences LLC South San Francisco California USA

Abstract

AbstractAuxotrophic strains starving for their cognate nutrient, termed auxotrophic starvation, are characterized by a shorter lifespan, higher glucose wasting phenotype, and inability to accomplish cell cycle arrest when compared to a “natural starvation,” where a cell is starving for natural environmental growth‐limiting nutrients such as phosphate. Since evidence of this physiological response is limited to only a subset of auxotrophs, we evaluated a panel of auxotrophic mutants to determine whether these responses are characteristic of a broader range of amino acid auxotrophs. Based on the starvation survival kinetics, the panel of strains was grouped into three categories—short‐lived strains, strains with survival similar to a prototrophic wild type strain, and long‐lived strains. Among the short‐lived strains, we observed that the tyrosine, asparagine, threonine, and aspartic acid auxotrophs rapidly decline in viability, with all strains unable to arrest cell cycle progression. The three basic amino acid auxotrophs had a survival similar to a prototrophic strain starving in minimal media. The leucine, tryptophan, methionine, and cysteine auxotrophs displayed the longest lifespan. We also demonstrate how the phenomenon of glucose wasting is limited to only a subset of the tested auxotrophs, namely the asparagine, leucine, and lysine auxotrophs. Furthermore, we observed pleiotropic phenotypes associated with a subgroup of auxotrophs, highlighting the importance of considering unintended phenotypic effects when using auxotrophic strains especially in chronological aging experiments.

Publisher

Wiley

Subject

Genetics,Applied Microbiology and Biotechnology,Biochemistry,Bioengineering,Biotechnology

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