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Latest Articles

A retro compass on a map to abstractly represent a plasmid map.

DNA / RNA Manipulation and Analysis

The Beginner’s Guide to Reading Plasmid Maps

Plasmid maps are a cornerstone of biology, but they are confusing to read for beginners. Our easy guide tells you how to read them, where to look for essential information, and how to avoid common mistakes.

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Image Larger Volumes with the UltraMicroscope Choros™

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

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Improve Your Research Reproducibility

Basic Lab Skills and Know-how

 8 Tips to Improve Your Research Reproducibility

Performing reproducible research is critical in science. This article discusses eight steps you can take to make your research more reproducible.

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A cartoon of a plasmid to represent DNA molecular cloning methods

Cloning and Expression

 A Crash Course in Molecular Cloning

Explore the pros and cons of key DNA Cloning techniques such as TA, Golden Gate, and Gateway cloning, and find out how to manage DNA complexities in our guide to Molecular Cloning.

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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!

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An image of snow crystals to depict protein crystallization seeding

Protein Expression and Analysis

 5 Protein Crystallization Seeding Techniques for Bigger and Better Crystals

Protein crystals are crucial for structure solution via X-ray crystallography but are notoriously hard to grow. We’ve got you covered with 5 clever protein crystallization seeding methods to grow impressive protein crystals.

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Microscopy & Imaging

DNA / RNA Manipulation & Analysis

A retro compass on a map to abstractly represent a plasmid map.

DNA / RNA Manipulation and Analysis

 The Beginner’s Guide to Reading Plasmid Maps

Plasmid maps are a cornerstone of biology, but they are confusing to read for beginners. Our easy guide tells you how to read them, where to look for essential information, and how to avoid common mistakes.

By

A picture of a child's hand with a smiley face drawn on in sunscreen to represent how UV light damages DNA
How UV Light Damages DNA and the Havoc it Can Cause to Your Experiments

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An image of beer bottles and mugs denoting ethanol used for ethanol precipitation
Ethanol Precipitation of DNA and RNA: How it Works

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optimize nuclei extraction
Single Cell Sequencing: Tips to Optimize Nuclei Extraction and Counting

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Black boxes denoting nucleic acid extraction kits
A Complete Guide to How Nucleic Acid Extraction Kits Work

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Cartoon Scientist holding a test tube next to an oversized DNA molecule to represent plasmid vs genomic DNA extraction
Plasmid vs. Genomic DNA Extraction: The Difference

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A chick inspecting a broken shell to represent lysed cells after using a good cell lysis method.
8 Cell Lysis Methods to Break Cell Walls

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A person having their hair cut with straight edges to illustrate blunt-end cloning
A Beginner’s Guide to How Blunt-End Cloning Works

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Checklist to depict RNA quality control in the lab
How to Perform RNA Quality Control in the Lab: 3 Key Considerations

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Multicolored linked paper rings inviting you to read our article on multiple fragment ligation.
Multiple Fragment Ligation: The Why and How

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