Shortpass Filter

Here we are, at the end of an eventful year 2021. But with the promise of a new year 2022 to come. It has been a long year, filled with ups and downs. It is always good to reflect on the past year as we move to the future.  In Memoriam Sir Isaac Newton wrote “If I have seen further, it is by standing upon the shoulders of giants.” In the past year, we have lost some giants of our field including Zbigniew Darzynkiwicz, who contributed much in the areas of cell cycle analysis and apoptosis. Howard Shapiro, known for…

It is no secret that I am a very big fan of the Star Trek franchise. There are many good episodes and lessons explored in the 813+ episodes, 12 movies (and counting). Don’t worry, this blog is not going to review all 813, or even 5 of them. Instead, some of the lessons I have taken away from the show that have applicability to science and flow cytometry.  “Darmok and Jalad at Tanagra.”  (ST:TNG season 5, episode 2) This is probably one of my favorite episodes, which involves Picard and an alien trying to establish a common ground and learn…

Sun Tzu was a Chinese general and philosopher. His most famous writing is ‘The Art of War’, and has been studied by generals and CEOs, to glean ideas and strategies to help their missions. I was recently rereading this work and thought to myself if any of Sun Tzu’s lessons could apply to flow cytometry.  So I have identified 5 points that I think lend themselves to thinking about flow cytometry.  “Quickness is the essence of the war.” In flow cytometry, speed is of the essence. The longer the cells are out of their natural environment, the less happy they…

Mastering foundational concepts are imperative for successfully using any technique or system.  Robert Heinlein introduced the term ‘Grok’  in his novel Stranger in a Strange Land. Ever since then it has made its way into popular culture. To Grok something is to understand it intuitively, fully. As a cytometrist, there are several key concepts that you must grok to be successful in your career. These foundational concepts are the key tools that we use day in and day out to identify and characterize our cells of interest.  Cells Flow cytometry measures biological processes at the whole cell level. To do…

Fluorophore selection is important. I have often been asked by my facility users which fluorophore is best suited for their experiments. The answer to this is mostly dependent on whether they are using a widefield microscope with set excitation/emission cubes or a laser based system that lets you select the laser and the emission window. Once you have narrowed down which fluorophores you can excite and collect the correct emission, you can further refine the specific fluorophore that is best for your experiment.  In this blog  we will discuss how to determine what can work with your microscope, and how…

Image quality is critical for accurate and reproducible data. Many people get stuck on the magnification of the objective or on using a confocal instead of a widefield microscope. There are several other factors that affect the image quality such as the numerical aperture of the objective, the signal-to-noise ratio of the system, or the brightness of the sample.  Numerical aperture is the ability of an objective to collect light from a sample, but it contributes to two key formulas that will affect your image quality. The first is the theoretical resolution of the objective. It is expressed with the…