Videos

Introduce students (and teachers) to the concepts of photosynthesis and cellular respiration in the context of how these processes evolved and how they affect our daily lives.

See how our new high-sensitivity western ECL substrate, Clarity Max, can help you achieve greater western blotting success.

We’ve combined the chromatography process with purity and yield assessment using stain-free gels to shorten and optimize your protein purification workflow. See how it’s done.

In this short video, we show how to clean the nozzle tip on the S3e Cell Sorter.

In this video, we show how a fluidics hot swap can be performed without shutting down the S3e Cell Sorter.

In this video we show you how to clean the camera streams window as part of routine maintenance for your S3e Cell Sorter.

This video describes the three main steps in attaching a DynaLoop Sample Loop to the NGC™ Chromatography System to enable the injection of larger sample volumes: connecting the DynaLoop Sample Loop to the NGC Chromatography System, priming the DynaLoop Sample Loop, and creating a method in ChromLab™ Software.

The NGC pH valve provides real-time, in-line monitoring of buffer pH. In this video, you’ll learn how to connect the pH valve to the NGC System, add it to the flow path, and calibrate the valve using buffers at two different pH values. Features of the pH valve include accessible calibration ports and easy bypass of the probe when the NGC System is being cleaned.

This video explains how to remove bubbles and/or reduce bubble formation in your NGC System. Tips to reduce bubbles include warming up your multiwave detector for 30 to 60 min before use and flowing buffer at 0.1–0.2 ml/min in the manual mode until a stable/flat baseline is achieved before starting a method. The system may also be flushed with 100% methanol or ethanol at purge speed, with columns out of line, to remove bubbles.

This video describes the functions of the Air Sensor Module and how to connect it to the NGC Chromatography System. The NGC Air Sensor senses the end of sample or buffer and prevents the introduction of air into the system, which can damage columns and/or incur the loss of precious samples. Both small and large air sensors are available to fit the tubing being used. Steps for connecting the Air Sensor Module and associated air sensors are described including how to add the air sensors into the system flow path using ChromLab™ Software and the differences in using the air sensors in manual vs. method modes.