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Master plasmid fundamentals, CRISPR techniques, AAV serotype selection, and antibody applications. Written by scientists, for scientists.

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CRISPR

Cutting Once Is Harder Than It Sounds: Your Guide to Minimizing Off-Target Effects

Guest Blogger March 31, 2026

ByBalázs Csoma, Hungarian Research Network CRISPR nucleases are remarkably precise molecular tools for cutting DNA. But “remarkably precise” does not mean “perfectly specific.” In reality, CRISPR nucleases occasionally make mistakes and cleave DNA sequences that only resemble ...
A heatmap showing on-target activity of SpCas9 variants against various targets, with WT-like cleavage indicated by green, no cleavage indicated by red, and intermediate cleavages in middle shades of yellow-green, yellow, and orange. The variants are ranked by activity and the targets are ranked by cleavability, with the result that the top-left corner (high activity, high cleavability) is green to show high cleavage, the bottom right corner (low activity, low cleavability) is red to show no cleavage, and an approximate staircase pattern divides the two colors. In each row, a miniaturized graph of off-target cleavage, normalized from 0 to 1, is shown. In general, these graphs show declining off-target cleavage among SpCas9 variants of lower activity. In each row, representing a particular target, one cell of the heatmap has been outlined in black to emphasize it as belonging to the target-matched variant. Each target-matched cell is the last in its row to show moderate yellow-green color rather than an orange color, indicating some on-target cleavage activity. Each target-matched variant has very low off-target cleavage.
CRISPR

Deaminet 2026: Breakthroughs in Base Editing, Deaminase Biology, and Therapeutic Translation

Guest Blogger March 10, 2026

Deaminet 2026, held in Palm Springs in late January, brought together researchers studying deaminase enzymes across disciplines: from structural biologists resolving APOBEC proteins at atomic resolution, to cancer biologists dissecting mutational processes, to medical ...
A protein structure of ABE8e is shown, superimposed with cartoon representations of sgRNA and target DNA. Two TadA domains are highlighted. The catalytic domain contacts multiple bases of the non-target DNA strand, while the docking domain primarily contacts the other protein domains.
Plant Biology

Purple Plants that Report Pollutants

Emily P. Bentley March 3, 2026

Do you have a green thumb — or, perhaps, are you one of those people who kills every plant they touch? The whole trouble with houseplants is they can’t bark, meow, or cry when they need something. But what if we could equip plants with a way to warn us about concerning growing ...
A photo of three people holding and touching a tray of small plants that are either bright green or dark purple.
Hot Plasmids

Hot Plasmids: February 2026

Multiple Authors February 17, 2026

Every few months we highlight some of the new plasmids, antibodies, viral preps, and more in the repository through our Hot Plasmids articles. This month, check out hot new AAV packaging plasmids, CRISPR libraries, and more!
Addgene News

Strengthening Foundations: Reflections on 2025 and What's Ahead for 2026

Chonnettia Jones February 5, 2026

As 2025 closed, we received a request that perfectly embodies why Addgene exists: a researcher in Laos needed a unique set of plasmids to advance their research. Thanks to five different labs across the U.S. who deposited their plasmids with Addgene to share with the rest of the ...
CRISPR

Are Hybrid Guide RNAs Right for Your CRISPR Application?

Emily P. Bentley January 27, 2026

The genome-editing tool CRISPR is famously RNA-guided... except when it’s not. Turns out, carefully designed RNA-DNA hybrid strands work just as well—or maybe even better—at guiding Cas nucleases to specific genomic targets.
A cartoon showing a simplified Cas9 and gRNA binding to DNA. The 3’ end of the gRNA is the scaffold sequence, bound by Cas9, where some DNA substitution is tolerated. The 20 bases on the 5’ end of the gRNA are the spacer sequence, which hybridizes with the genomic DNA, base pairing to the target strand. The non-target strand of genomic DNA includes the same sequence as the spacer. The PAM consists of the three bases immediately 3’ of this spacer-matching sequence. Within the gRNA spacer, the 3’ half is the seed sequence, where no DNA substitution is tolerated. The 5’ half, also the 5’ end of the entire gRNA, is the tail sequence, where DNA substitution is tolerated.
Open Science

Addgene’s Expanding Collection of Research Tools for Industry Scientists

Andrew Hempstead January 13, 2026

Throughout its 20-year history, Addgene’s mission has been to empower scientists to advance discoveries by reducing barriers, facilitating access to high-quality research materials, tools, and resources, while also fostering scientific collaboration. The first request through ...
Blugene holding a plasmid and smiling.
CRISPR Pooled Libraries

A Tour of Addgene's Most Popular Pooled Libraries

Emily P. Bentley November 19, 2025

Who doesn’t love a library? A traditional library might contain thousands or millions of different books. Addgene’s pooled libraries are a little different: each is a collection of plasmids that share the same backbone and differ only in a small region. This makes them useful ...
A cartoon of four cells, all carrying a different plasmid. Each cell glows a different color, matching the plasmid it carries.

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