Using Acoustic Ejection Mass Spectrometry on the Echo® MS System
Rahul Baghla1, Chang Liu2, Rolf Kern1
1SCIEX, USA, 2SCIEX, Canada
In the rapidly growing field of synthetic biology, the ability to screen a large number of fermentation broths to determine the levels of desired product will streamline engineering efforts. Here, the use of Echo MS System to detect a target compound directly out of yeast fermentation broth, with minimal sample preparation, was investigated. Sufficient sensitivity was obtained to detect all the concentration levels tested, and high accuracy of quantification enabled differentiation between small differences in concentration of product. The rapid analysis time of the Echo MS System will enable faster generation of quantitative data to assess microbe strain efficiency, to guide strain selection and reduce bottlenecks in the field of synthetic biology.
The field of synthetic biology has grown exponentially in recent years due to advances in genetic engineering, microbiology, biochemistry and molecular biology among various other disciplines. The goal is to engineer microbes to create a desired product; therefore the efficiency of production must be optimized through both selection of proper environmental conditions and selection of the highest producing strain of the organism. Many thousands of strains might need to be developed and assessed before selection of one for scale up and use in commercial production. This requires the quantitative analysis of the desired product in many thousands of samples; and this needs to be done as rapidly as possible to enable iterative strain refinement.
The SCIEX Echo MS System is a very high throughput, electrospray ionization mass spectrometry-based system that uses Acoustic Droplet Ejection (ADE) to transfer a precisely controlled sample droplet from a well plate into the liquid stream of the Open Port Interface (OPI), which is directly coupled to the SCIEX Triple Quad™ 6500+ Mass Spectrometer. This analytical technique has the sensitivity and compound coverage of electrospray mass spectrometry with the ability to analyze a sample per second, in a non-contact, virtually carryover-free manner. The small droplet size (2.5nL) provides a significant dilution of matrix suppressing factors, which can be present in complex samples, that helps to reduce preparation needed prior to analysis.
Here, the ability to detect a target compound directly out of yeast fermentation broth, with minimal sample preparation, was investigated to assess the utility of the Echo MS System for fast screening of strains in a synthetic biology workflow.