Nexcelom Bioscience

978-327-5340

  • Cellometer

Yeast in Biofuel Overview

In general, yeasts used in the biofuel industry are in complex medium such as corn mash, corn stover, or sugar cane, which can serve as nutrients to produce bioethanol. These complex media increase the difficulties for automated counting using bright field method due to the debris particles in the sample. Using a combination of acridine orange (AO) and propidium iodide (PI) can perform dual fluorescence detection of live and dead cells, respectively, which can specifically stain the live/dead cells to accurately determine the concentration and viability of the complex sample.

Fluorescence Based Image Cytometry Method for Yeast Concentration & Viability Measurement

1. Pipette 20 µl of sample

Pipette 20 µl of cell sample into a disposable counting slide

2. Insert slide

Insert slide in to cell counter

3. Click count and get results

complex yeast viability data

How Does Yeast Count & Viability by Dual Fluorescence Work?

Highly viscous corn mash sample

A highly viscous corn mash sample is mixed with a dilution buffer and stained with nucleus staining dyes.

Live nucleated yeast cells emit green fluorescence

Live nucleated cells emit green fluorescence when excited by blue light.

Dead yeast cells emit red light

Dead cells emit red light when excited by green light.

dual fluorescence live and dead yeast cells are distinguishable by color

Live and dead cells are then distinguishable by color and viability is generated as a percentage based on live/total cell count.

Yeasts Used in Biofuel Industry

Yeast Concentration & Viability Measurement

Below shows 3 complex samples of corn mash, corn stover, and sugar cane. The bright field images contain many debris particles, but in the fluorescent images, only the yeast cells that fluoresce brightly will be automatically counted.

Corn Mash Debris

Yeast corn mash debris

Corn Stover Debris

Yeast corn stover debris

Sugar Cane Debris

Yeast sugar cane debris

Measuring Yeast Viability Using AOPI

Identification of live and dead cells in a complex yeast sample

Measuring yeast viability by AO PI

The images above show a bright field, green (AO), and red (PI) images. Live cells in the green AO image are shown with a green arrow. Dead red PI positive cells are shown with a red arrow.

Yeast sample monitored during ethanol fermentation

Multiple yeast samples were monitored during the ethanol fermentation process. All of the samples were counted using either the manual hemacytometer method or the automated Cellometer method. Early in fermentation the measured viability was shown to be at ~90 %. By the end of fermentation, at 55 hours, the measured viability was below 30 %. Both manual and automated methods showed great correlation to each other.

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