Quantcast
Skip to content
Image shows a laboratory with mass spectrometry facility to represent using mass spectrometry in biological research

Mass Spectrometry in Biological Research – A Guide for Beginners

Mass spectrometry can feel intimidating. Read this easy-to-follow guide to demystify mass spectrometry and learn how it can help your research.

Image shows a laboratory with mass spectrometry facility to represent using mass spectrometry in biological research
By Carl Saxton
Protein Expression and Analysis
Image of soap bubbles to represent working with membrane proteins

Working with Membrane Proteins: Tips for Expressing, Extracting, and Purifying Your Membrane Protein Sample

Working with membrane proteins can be tricky. Read on to get tried-and-tested tips and tricks for expressing, extracting, and purifying these water-phobic proteins.

Image of soap bubbles to represent working with membrane proteins
By Thomas Warwick
Cells and Model Organisms
A picture of an ice cream cone that has been dropped and started to melt to represent freezing and thawing cells

Surviving the Big Chill: Freezing and Thawing Mammalian Cells in the Lab

Cryopreservation is crucial to the long-term maintenance of cells, so it’s important that you’re clued up on your freeze–thaw cycles. Check out our top tips for freezing and thawing cells.

A picture of an ice cream cone that has been dropped and started to melt to represent freezing and thawing cells
By Dr Rebecca Tirabassi
Microscopy and Imaging
Image of a microscope and a computer showing the sample image to represent an explanation of the point spread function

A Beginner’s Guide to The Point Spread Function

Learn how the Point Spread Function affects what you see through your microscope and discover what you can do to improve your images.

Image of a microscope and a computer showing the sample image to represent an explanation of the point spread function
By ZEISS Microscopy
DNA / RNA Manipulation and Analysis
Scientist holding up alkaline pH test strip to represent alkaline lysis in the lab

Lab Basics: How Alkaline Lysis Works

Alkaline lysis for plasmid isolation? That’s like the ABCs in a molecular biology lab. Read this detailed article to understand the process behind this common technique.

Scientist holding up alkaline pH test strip to represent alkaline lysis in the lab
By Dr Nick Oswald
DNA / RNA Manipulation and Analysis
Black boxes denoting nucleic acid extraction kits

A Complete Guide to How Nucleic Acid Extraction Kits Work

Nucleic acid extraction kits are routine in today’s molecular biology labs. Read on to know about what is inside these black boxes of wonder and how you can get the best results for your preps!

Black boxes denoting nucleic acid extraction kits
By Suzanne Kennedy
Genomics and Epigenetics
Image of amultiplex theatre to represent multiplex CRISPR experiments

Multiplex CRISPR Gene Editing: What You Need to Know

If you need a multi-gene knockout or large-scale genomic modification, or want reduced off-target effects, then multiplex CRISPR is for you!

Image of amultiplex theatre to represent multiplex CRISPR experiments
By Patrick Miller-Rhodes
Image of a microscope and a computer showing the sample image to represent an explanation of the point spread function

A Beginner’s Guide to The Point Spread Function

By ZEISS Microscopy

Learn how the Point Spread Function affects what you see through your microscope and discover what you can do to improve your images.

Image of a microscope and a computer showing the sample image to represent an explanation of the point spread function
An image of setting up a photography shoot to represent getting optimal conditions for live-cell imaging

Optimal Conditions for Live-Cell Imaging

By Sulov Saha
Microscopic image of paramecium and amoeba to represent live cell imaging techniques

An Introduction to Live Cell Imaging

By Lumenera
Man holding a lens up to the light to represent lenses and objectives

How History Shaped Modern Optical Microscopes, Part Two: Corrected Lenses and Objectives

By Martin Wilson

The Latest Webinars

See The Hidden: Artificial Intelligence in Microscopy
See The Hidden: Artificial Intelligence in Microscopy
SARS-CoV-2 variants T-cell response - A Johnson & Johnson Case Study
SARS-CoV-2 variants are escaping neutralizing antibody responses, but have not escaped the T-cell response
Intravital Microscopy of Cancer
Intravital Microscopy of Cancer
Histological experiment
Got FFPE? Immunosequencing with unique & challenging sample types
An image depicting coronavirus particles to represent targeted sequencing of SARS-CoV-2 variants
Quick and Easy Sequencing of SARS-CoV-2 to Identify Variants of Concern
Cartoon depicting a cheminformatician at a computer using the SYNTHIA™ retrosynthesis software to represent computer-aided pathway design
Advances to SYNTHIA™ Retrosynthesis Software and How They Have Accelerated Chemical Development at GlaxoSmithKline (GSK)
Visualising protein degradation and aggregation in the living cell
Visualising protein degradation and aggregation in the living cell
Life beyond the pixels: deep learning methods for single cell analysis
Life beyond the pixels: deep learning methods for single cell analysis
See The Hidden: Virtual Neurosciences Workshop
See The Hidden: Virtual Neurosciences Workshop
Multichannel pipette filling a microplate to depict new CRISPR screening technologies
Screening in the Modern CRISPR Era
UltraMicroscope Blaze™ live instrument demonstration
UltraMicroscope Blaze™ live instrument demonstration
The UltraMicroscope Blaze™: Automated 3D imaging on an unprecedented scale
The UltraMicroscope Blaze™: Automated 3D imaging on an unprecedented scale

View all webinars

Article Categories

DNA / RNA Manipulation and Analysis

Lab Basics: How Alkaline Lysis Works
A Complete Guide to How Nucleic Acid Extraction Kits Work
How to Identify Supercoils, Nicks and Circles in DNA Plasmid Preps
Which Type of Ethanol Should I Use?
5 Ways to Clean Up A DNA Sample
Ethanol Precipitation of DNA and RNA: How it Works
How to Get a Picture-Perfect Agarose Gel
Preparing Metaphase Spreads: The Breakdown on Broken-Down Cells
Five Ways to Modify Your siRNA for Improved RNAi 
3′ mRNA-Seq is Transforming Gene Expression Analysis
Scroll To Top
Share via
Facebook
Twitter
LinkedIn
Mix
Pinterest
Tumblr
Skype
Buffer
Pocket
VKontakte
Parler
Xing
Reddit
Flipboard
MySpace
Delicious
Amazon
Digg
Evernote
Blogger
LiveJournal
Baidu
MeWe
NewsVine
Yummly
Yahoo
WhatsApp
Viber
SMS
Telegram
Facebook Messenger
Like
Email
Print
Copy Link
Copy link
CopyCopied