Bitesize Bio: Life Science & Bioscience Articles for Researchers

Latest Events

On Demand Events

Inside Immunoassays: Boost Assay Efficiency with Smart Design and Analysis

Watch Now

Drug Discovery Informatics for Big Pharma

Watch Now

Detecting Rare T-Cell Responses at Scale with ELISpot and FluoroSpot

Watch Now

Whole-brain Spatial Transcriptomics at Cellular Resolution

Watch Now

View All Events

Latest Articles

Abstract presentation of choosing a luciferase reporter assay

Cloning and Expression

An Easy Guide to Choosing a Luciferase Reporter Assay

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.

By Promega

Image Larger Volumes with the UltraMicroscope Choros™

From: Miltenyi Biotech

Trust Your Quantification with the DeNovix DS-8X Rapid Eight Channel, 1µL UV-Vis Spectrophotometer

From: DeNovix

Latest Podcasts

View All Podcasts

An image of a man punching liquid to depict improving protein expression using osmotic shock

Cloning and Expression

Improving the Expression of Insoluble and Inactive Proteins Using Osmotic Shock

Discover a better way to improve the expression of your insoluble and inactive proteins using osmotic shock.

By Thomas Warwick

Image of sound waves to represent adaptive focused acoustics

Protein Expression and Analysis

Adaptive Focused Acoustics®: A Superior Method to Extract Proteins

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.

By Covaris

paint colors to represent the varied colours of fluorescent molecules

Flow Cytometry

How Fluorescent Molecules Work

Nearly every field, from physiology to immunology, uses fluorescent molecules to detect or measure something. This article explains how fluorescent molecules work for biologists—without all the complicated photochemistry.

By Kristen Haberthur

Figure stopping blocks falling to represent protease inhibitors stopping proteases from working

Protein Expression and Analysis

Protease Inhibitors 101: How They Work and How to Use Them

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.

By Adrienne Huntress

Microscopy & Imaging

Vivid blue shapes on a dark background to show working positive controls for immunofluorescence

Microscopy and Imaging

5 Controls for Immunofluorescence: A Beginner’s Guide

Achieving publication-quality immunofluorescence images is tricky. Learn what controls for immunofluorescence you can use to get them!

By Gauravi Deshpande

Child using an abbacus to represent automatic cell counting

Quick and Easy Automatic Cell Counting in 4 Steps

By Thomas Warwick

Image of toilet tissue as a pun about tissue processing for histology

Tissue Processing For Histology: What Exactly Happens?

By Martin Wilson

A researcher examining a microscope slide to fix adherent cells in a laboratory setting.

How To Fix Adherent Cells For Microscopy And Imaging

By Dr Jennifer Redig

DNA / RNA Manipulation & Analysis

A DNA molecule to represent next generation sequencing methods for cancer research.

DNA / RNA Manipulation and Analysis

Next-generation Sequencing in Cancer Research: Tools, Techniques, and Tailored Solutions

Unsure which next-generation sequencing (NGS) method to choose for your cancer and precision medicine research? Learn about the latest tools and tailored next-generation sequencing solutions for cancer research in this short guide.

By Integrated DNA Technologies (IDT)