How can you profile chromatin accessibility, DNA methylation, and protein footprints in a single assay?
🔗 Read more: https://www.epicypher.com/resources/blog/fiber-seq-101/
#Epigenomics #Chromatin #ATACseq #Multiomics #Fiberseq #EpiCypher
Coming to #PAG2026? Drop by booth 329 to chat with EpiCypher about Fiber-seq – a powerful new way to see chromatin architecture at the single-molecule level.
Ask us how it works (and get some swag).
#Fiberseq #Chromatin
That’s a wrap on #SfN2025! 🧠
Grateful for all the great chats on Fiber-seq, CUTANA™ Cloud, and FFPE-based chromatin profiling in the brain.
#Epigenetics #Neuroscience #FiberSeq
Huge thanks to everyone who visited us on Day 1 of #ASHG2025! 👏 If you haven’t yet, swing by Booth 530 today to explore Fiber-seq – a multiomic long-read tech to co-profile chromatin accessibility, DNA methylation, and protein footprints.
#Epigenetics #FiberSeq #ASHG
Heading to #ASHG2025? Don’t miss Emily Madden’s talk:
🧬 “Unraveling Regulatory Architecture in Complex Genomic Regions Using Fiber-seq”
🗓️ Fri, Oct 17 | 10:15am ET
📍 CoLab Theater 1 (PacBio)
#Epigenetics #Fiberseq #Chromatin
How can you profile chromatin accessibility, DNA methylation, & protein footprints in ONE assay?
💡 In our new Fiber-seq 101 blog, we break down how this platform is transforming epigenomics.
🔗 Read more: www.epicypher.com/resources/bl...
#Epigenomics #ATACseq #Multiomics #Fiberseq
Today at #AGBT: 4–5 PM PT — Keith Maier presents Poster #507
Standardizing Fiber-seq for direct multi-omic chromatin profiling at single-molecule resolution 🧬
📥 Grab the poster: explore.epicypher.com/posters/agbt...
#Epigenetics #Fiberseq #Multiomics
Just announced: CUTANA™ Fiber-seq — a game-changing platform for multiomic profiling of chromatin accessibility, DNA methylation, protein footprints, and genetic variants in a single assay.
🔗 www.epicypher.com/resources/bl...
#Epigenetics #Fiberseq #Chromatin
Are you attending Epigenetic Variation: Mechanisms and Impact across Systems in Barcelona? 🧬
Catch Dr. James Anderson’s talk on Fiber-seq 🧬, a multi-omic LRS method revealing chromatin, TFs, DNAme and haplotypes in one assay.
📍 Aug 14 | 🕘 9am CEST
#Epigenetics #FiberSeq #LRS
We’re excited to see what new insights emerge from these advances! 🚀
Want to know more about using Jasmine and Fiber-seq in your projects? Let’s chat!
📧 edgenomics-admin@ed.ac.uk
#FiberSeq #Genomics #Epigenetics #LongReadSequencing #Bioinformatics
🧵6/6
With @pacbio.bsky.social’s Jasmine software, we can now offer 6-base calling (ATCG+5mC+6mA) on the #Revio platform—at no extra cost in sequencing consumables. 🔬🙌
Learn more about Jasmine: github.com/PacificBiosc...
#FiberSeq #Genomics #Epigenetics #LongReadSequencing #Bioinformatics
🧵5/6
📚 Case Study:
A new paper uncovers how repeat-region instability disrupts nearby regulatory elements, revealing a disease mechanism and potential therapeutic target in #MyotonicDystrophy
Read more: biorxiv.org/content/10.1...
#FiberSeq #GeneRegulation #Genomics #Epigenetics
🧵4/6
In the Fiber-seq protocol, chromatin accessibility is revealed by treating the DNA with non-specific N6-adenine methytransferase to create an m6A fingerprint on the DNA itself.
Learn more: stergachislab.org/research
#FiberSeq #GeneRegulation #Epigenetics
🧵2/6
"Fiber-seq continues to transform our understanding of gene regulation" — as @pacbio.bsky.social recently highlighted. Let’s dive into how this innovative tech works and why it’s a game-changer. 🔬✨🧬🖥️
pacb.com/blog/powered...
#FiberSeq #PacBio #GeneRegulation #Epigenetics
🧵1/6
