Discover practical tips for optimizing protein extraction for proteomics using Covaris Adaptive Focused Acoustics® technology. Learn how to fine-tune ultrasonicator settings for different sample types to maximize yield and quality.| Bitesize Bio
Deciding between mRNA vs DNA transient transfection influences your experiment’s success. mRNA delivers rapid, promoter-independent expression without the risk of genomic integration, making it ideal for non-dividing or hard-to-transfect cells. With optimized reagents and careful handling, mRNA transfection offers unmatched speed, safety, and precise control.| Bitesize Bio
Adaptive Focused Acoustics® for proteomics workflows reduces prep time, improves reproducibility, and boosts protein yields from FFPE and cells.| Bitesize Bio
Boost lab productivity with Agile project management. Learn simple tools you can use to stay focused and manage your time effectively.| Bitesize Bio
Need help choosing a luciferase assay? This guide walks you through the differences between Firefly, Renilla, and NanoLuc reporters, plus key tradeoffs in signal duration, brightness, and workflow compatibility. Learn how to match the correct assay to your experimental needs.| Bitesize Bio
Discover a better way to improve the expression of your insoluble and inactive proteins using osmotic shock.| Bitesize Bio
Unlike bath and probe sonication, Adaptive Focused Acoustics® (AFA®) is a protein extraction method that avoids heat damage, cross-contamination, and inconsistent protein yields. This article breaks down the benefits of AFA and explains how it works.| Bitesize Bio
Understanding how fluorescent molecules work will improve your flow cytometry experiments. Here are the basics you should know.| Bitesize Bio
Protease inhibitors are a requirement in many lab experiments. In this article, we'll take you through how protease inhibitors work, why we need them, and how to use them correctly and safely.| Bitesize Bio
CRISPR gene editing of T cells can be performed using CRISPR as cancer therapy to bypass the inactivation of T cells by cancerous cells.| Bitesize Bio
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Machine learning is making a massive impact on the life sciences and can now help deliver fast and accurate automatic hepatocyte counts. This article explains hepatocyte counting methods, from manual counting to the latest AI-assisted techniques.| Bitesize Bio
Let’s imagine the following scenario:| Bitesize Bio
Cells and Model Organisms | Bitesize Bio
BMG LABTECH | Equipment Mastery and Hacks | Bitesize Bio
Microscopy and Imaging | Bitesize Bio
Genomics and Epigenetics | Bitesize Bio
Personal Development | Bitesize Bio
A neglected pH meter means less reliable experiments, poor reproducibility, and your time wasted. So, learn how to use a pH meter correctly!| Bitesize Bio
This article explains how to perform pipette calibration yourself so you can ensure they are accurate and avoid the wait for their next service.| Bitesize Bio
In biosciences, we purify our target molecules using chromatography. So, we need a thorough understanding of how chromatography works!| Bitesize Bio
Is your pipette accurate? If it's not then your results might be unreliable and unreproducible. Discover how simple it is to check the accuracy of your pipette.| Bitesize Bio
Accuracy and precision are critical for achieving reliable and reproducible results. Read on to discover what these terms mean and how to improve your accuracy and precision.| Bitesize Bio
Chemistry for Biologists | Bitesize Bio
Isothermal titration calorimetry (ITC) measures the heat generated (or absorbed) when one solution is titrated into another. Most commonly, a small molecule or peptide is titrated into a protein.| Bitesize Bio
Learn the basics of why hydrogen bonds form, their nomenclature, and why they are critical for life with this simple explainer.| Bitesize Bio
Lab Safety | Bitesize Bio
Do you need a quick and easy automatic cell counting method to analyze images of your cells? Here is a tutorial using Image J.| Bitesize Bio
Explore the pros and cons of acquiring the latest microscope technology for your lab—whether to build or buy, tailored to your research needs.| Bitesize Bio
Learn to effectively visualize microbiome data, enhancing clarity and impact for your research, with our detailed guide.| Bitesize Bio