Bacterial fermentation and isotope labelling optimized for amyloidogenic proteins.
István VidaZsolt FazekasGergö GyulaiDóra Nagy-FazekasGyula PálfyPál StránerÉva KissAndrás PerczelPublished in: Microbial biotechnology (2021)
We developed a cost sensitive isotope labelling procedure using a fed-batch fermentation method and tested its efficiency producing the 15 N-, 13 C- and 15 N/13 C-labelled variants of an amyloidogenic miniprotein (E5: EEEAVRLYIQWLKEGGPSSGRPPPS). E5 is a surface active protein, which forms amyloids in solution. Here, we confirm, using both PM-IRRAS and AFM measurements, that the air-water interface triggers structural rearrangement and promotes the amyloid formation of E5, and thus it is a suitable test protein to work out efficient isotope labelling schemes even for such difficult sequences. E. coli cells expressing the recombinant, ubiquitin-fused miniprotein were grown in minimal media containing either unlabelled nutrients, or 15 N-NH4 Cl and/or 13 C-D-Glc. The consumption rates of NH4 Cl and D-Glc were quantitatively monitored during fermentation and their ratio was established to be 1:5 (for NH4 Cl: D-Glc). One- and two-step feeding schemes were custom-optimized to enhance isotope incorporation expressing five different E5 miniprotein variants. With the currently optimized protocols we could achieve a 1.5- to 5-fold increase of yields of several miniproteins coupled to a similar magnitude of cost reduction as compared to flask labelling protocols.
Keyphrases
- gas chromatography
- saccharomyces cerevisiae
- room temperature
- lactic acid
- copy number
- induced apoptosis
- heavy metals
- escherichia coli
- protein protein
- cell cycle arrest
- small molecule
- air pollution
- binding protein
- mass spectrometry
- perovskite solar cells
- oxidative stress
- minimally invasive
- high speed
- high resolution
- tandem mass spectrometry
- genome wide
- polycyclic aromatic hydrocarbons
- risk assessment
- dna methylation
- cell death
- water soluble
- endoplasmic reticulum stress
- liquid chromatography
- ionic liquid
- simultaneous determination
- pi k akt