GenomeTDCC
@genometdcc.org
Technology Development Coordinating Center at NHGRI. Advancing innovation in genomic technology development through collaboration, promoting standards, and outreach in conjunction with The Jackson Laboratory 🧬💻🧪
Captify: A new platform to study chromatin readers in the nucleosome context 🧪💻🧬
Recently published in Nucleic Acids Research @narjournal.bsky.social, the folks at @epicypher.bsky.social discuss development & integration of these easily adoptable biochemical and genomic tools
doi.org/10.1093/nar/...
Recently published in Nucleic Acids Research @narjournal.bsky.social, the folks at @epicypher.bsky.social discuss development & integration of these easily adoptable biochemical and genomic tools
doi.org/10.1093/nar/...
Nucleosome context regulates chromatin reader preference
Abstract. Chromatin is more than a simple genome packaging system but rather locally distinguished by histone post-translational modifications (PTMs) that
doi.org
November 13, 2025 at 4:01 PM
Captify: A new platform to study chromatin readers in the nucleosome context 🧪💻🧬
Recently published in Nucleic Acids Research @narjournal.bsky.social, the folks at @epicypher.bsky.social discuss development & integration of these easily adoptable biochemical and genomic tools
doi.org/10.1093/nar/...
Recently published in Nucleic Acids Research @narjournal.bsky.social, the folks at @epicypher.bsky.social discuss development & integration of these easily adoptable biochemical and genomic tools
doi.org/10.1093/nar/...
🧪🧬💻
Congratulations on the recent publication from @jshendure.bsky.social, @troymcdiarmid.bsky.social, @uwgenome.bsky.social and colleagues!
👇
www.nature.com/articles/s41...
Congratulations on the recent publication from @jshendure.bsky.social, @troymcdiarmid.bsky.social, @uwgenome.bsky.social and colleagues!
👇
www.nature.com/articles/s41...
A parts list of promoters and gRNA scaffolds for mammalian genome engineering and molecular recording - @jshendure.bsky.social @troymcdiarmid.bsky.social @uwgenome.bsky.social go.nature.com/49eTPCu
A parts list of promoters and gRNA scaffolds for mammalian genome engineering and molecular recording - Nature Biotechnology
Prime editing in mammalian cells benefits from a comprehensive list of genetic parts.
go.nature.com
November 13, 2025 at 3:33 PM
🧪🧬💻
Congratulations on the recent publication from @jshendure.bsky.social, @troymcdiarmid.bsky.social, @uwgenome.bsky.social and colleagues!
👇
www.nature.com/articles/s41...
Congratulations on the recent publication from @jshendure.bsky.social, @troymcdiarmid.bsky.social, @uwgenome.bsky.social and colleagues!
👇
www.nature.com/articles/s41...
Reposted by GenomeTDCC
Super excited about first Shendure/Baker Lab collaboration & preprint on a multiplex sequencing-based strategy for screening de novo proteome editors in mammalian cells. Kudos to the brilliant Chase Suiter (not here) & @greenahn.bsky.social on the work! Preprint here:
www.biorxiv.org/content/10.1...
www.biorxiv.org/content/10.1...
October 14, 2025 at 6:45 PM
Super excited about first Shendure/Baker Lab collaboration & preprint on a multiplex sequencing-based strategy for screening de novo proteome editors in mammalian cells. Kudos to the brilliant Chase Suiter (not here) & @greenahn.bsky.social on the work! Preprint here:
www.biorxiv.org/content/10.1...
www.biorxiv.org/content/10.1...
New highlight video! 🧪🧬💻
RAEFISH from Steven Wang at Yale unlocks whole-transcriptome imaging at single-molecule resolution. See 20,000+ RNAs light up in cells and tissues. Plus get direct gRNA detection in high-content CRISPR screens. Spatial biology just leveled up
www.youtube.com/watch?v=P2j6...
RAEFISH from Steven Wang at Yale unlocks whole-transcriptome imaging at single-molecule resolution. See 20,000+ RNAs light up in cells and tissues. Plus get direct gRNA detection in high-content CRISPR screens. Spatial biology just leveled up
www.youtube.com/watch?v=P2j6...
Sequencing-free whole-genome spatial transcriptomics at single-molecule resolution
YouTube video by GenomeTDCC
www.youtube.com
October 1, 2025 at 5:17 PM
New highlight video! 🧪🧬💻
RAEFISH from Steven Wang at Yale unlocks whole-transcriptome imaging at single-molecule resolution. See 20,000+ RNAs light up in cells and tissues. Plus get direct gRNA detection in high-content CRISPR screens. Spatial biology just leveled up
www.youtube.com/watch?v=P2j6...
RAEFISH from Steven Wang at Yale unlocks whole-transcriptome imaging at single-molecule resolution. See 20,000+ RNAs light up in cells and tissues. Plus get direct gRNA detection in high-content CRISPR screens. Spatial biology just leveled up
www.youtube.com/watch?v=P2j6...
New video! Discover how transcription factors find their way through tightly packed DNA. 🧪🧬💻👩🔬
www.youtube.com/watch?v=gOta...
Luca Mariani & Martha Bulyk introduce PIONEAR-seq, revealing how DNA flexibility shapes gene regulation.
Recently published in @natsmb.nature.com
www.youtube.com/watch?v=gOta...
Luca Mariani & Martha Bulyk introduce PIONEAR-seq, revealing how DNA flexibility shapes gene regulation.
Recently published in @natsmb.nature.com
DNA Bendability Regulates Transcription Factor Binding to Nucleosomes (PIONEAR-seq)
YouTube video by GenomeTDCC
www.youtube.com
September 18, 2025 at 2:21 PM
New video! Discover how transcription factors find their way through tightly packed DNA. 🧪🧬💻👩🔬
www.youtube.com/watch?v=gOta...
Luca Mariani & Martha Bulyk introduce PIONEAR-seq, revealing how DNA flexibility shapes gene regulation.
Recently published in @natsmb.nature.com
www.youtube.com/watch?v=gOta...
Luca Mariani & Martha Bulyk introduce PIONEAR-seq, revealing how DNA flexibility shapes gene regulation.
Recently published in @natsmb.nature.com
SO many great talks from leading scientists who develop and use various genomic technologies. 🧪🧬💻👩🔬
Genome architecture, RNA regulation + modification identification, nanopores, DNA writing, statistics, sequencing!
It's all there on the GenomeTDCC YouTube channel!
www.youtube.com/playlist?lis...
Genome architecture, RNA regulation + modification identification, nanopores, DNA writing, statistics, sequencing!
It's all there on the GenomeTDCC YouTube channel!
www.youtube.com/playlist?lis...
September 8, 2025 at 12:54 PM
SO many great talks from leading scientists who develop and use various genomic technologies. 🧪🧬💻👩🔬
Genome architecture, RNA regulation + modification identification, nanopores, DNA writing, statistics, sequencing!
It's all there on the GenomeTDCC YouTube channel!
www.youtube.com/playlist?lis...
Genome architecture, RNA regulation + modification identification, nanopores, DNA writing, statistics, sequencing!
It's all there on the GenomeTDCC YouTube channel!
www.youtube.com/playlist?lis...
Reposted by GenomeTDCC
Non-profits wade in where for-profit life science investment fears to tread nature.com/articles/s41...
rdcu.be/eyzXy
rdcu.be/eyzXy
Non-profits wade in where for-profit life science investment fears to tread - Nature Biotechnology
For decades, and in the exceptional instance of the Institut Pasteur for over a century, non-profit organizations have augmented R&D to advance scientific understanding and develop affordable and ...
nature.com
September 5, 2025 at 3:30 PM
Non-profits wade in where for-profit life science investment fears to tread nature.com/articles/s41...
rdcu.be/eyzXy
rdcu.be/eyzXy
Martha Bulyk & Shubham Khetan just dropped a @nature.com paper redefining how we think about transcription factor binding, noncoding variants, and disease.
PADIT-seq, reveals that multiple overlapping binding sites drive TF occupancy and gene expression 🧪🧬💻👩🔬
Highlight 📽️https://youtu.be/45hdZ6R9fX4
PADIT-seq, reveals that multiple overlapping binding sites drive TF occupancy and gene expression 🧪🧬💻👩🔬
Highlight 📽️https://youtu.be/45hdZ6R9fX4
PADIT-seq: Protein affinity to DNA by in vitro transcription and RNA sequencing
YouTube video by GenomeTDCC
www.youtube.com
September 3, 2025 at 5:11 PM
Martha Bulyk & Shubham Khetan just dropped a @nature.com paper redefining how we think about transcription factor binding, noncoding variants, and disease.
PADIT-seq, reveals that multiple overlapping binding sites drive TF occupancy and gene expression 🧪🧬💻👩🔬
Highlight 📽️https://youtu.be/45hdZ6R9fX4
PADIT-seq, reveals that multiple overlapping binding sites drive TF occupancy and gene expression 🧪🧬💻👩🔬
Highlight 📽️https://youtu.be/45hdZ6R9fX4
🧪
Join us Oct. 2, 2025, for this year's Biotech Innovation Summit—featuring keynotes, fireside chats and one-on-one networking with investigators pioneering early-stage breakthroughs.
Spots are limited! Register now: ow.ly/rcGM50WN8Uc or contact biotechsummit@scripps.edu for more info.
Spots are limited! Register now: ow.ly/rcGM50WN8Uc or contact biotechsummit@scripps.edu for more info.
August 29, 2025 at 6:02 PM
🧪
What if doing something poorly could lead to something great?
Rob Mitra, @washugenetics.bsky.social, dives into the evolution of genome tech, short-read sequencing, and how his lab is fighting rising drug costs with innovation. 🧪🧬💻 #STS
📺 Watch the keynote: youtu.be/C8U5WDA9ri4
#genomics #Biotech
Rob Mitra, @washugenetics.bsky.social, dives into the evolution of genome tech, short-read sequencing, and how his lab is fighting rising drug costs with innovation. 🧪🧬💻 #STS
📺 Watch the keynote: youtu.be/C8U5WDA9ri4
#genomics #Biotech
Technology Development for Genome Analysis - Rob Mitra, PhD
YouTube video by GenomeTDCC
youtu.be
August 27, 2025 at 7:27 PM
What if doing something poorly could lead to something great?
Rob Mitra, @washugenetics.bsky.social, dives into the evolution of genome tech, short-read sequencing, and how his lab is fighting rising drug costs with innovation. 🧪🧬💻 #STS
📺 Watch the keynote: youtu.be/C8U5WDA9ri4
#genomics #Biotech
Rob Mitra, @washugenetics.bsky.social, dives into the evolution of genome tech, short-read sequencing, and how his lab is fighting rising drug costs with innovation. 🧪🧬💻 #STS
📺 Watch the keynote: youtu.be/C8U5WDA9ri4
#genomics #Biotech
What if DNA didn’t use ACGT, but had PZSB instead? UW and FfAME researchers describe how they were able to sequence a synthetic DNA molecule made from 4 artificial bases in @natcomms.nature.com 🧪🧬🖥️
Check out the publication highlight on “ALIEN DNA” 👇
www.youtube.com/watch?v=S6tE...
Check out the publication highlight on “ALIEN DNA” 👇
www.youtube.com/watch?v=S6tE...
Sequencing a DNA analog composed of artificial bases
YouTube video by GenomeTDCC
www.youtube.com
August 25, 2025 at 4:07 PM
What if DNA didn’t use ACGT, but had PZSB instead? UW and FfAME researchers describe how they were able to sequence a synthetic DNA molecule made from 4 artificial bases in @natcomms.nature.com 🧪🧬🖥️
Check out the publication highlight on “ALIEN DNA” 👇
www.youtube.com/watch?v=S6tE...
Check out the publication highlight on “ALIEN DNA” 👇
www.youtube.com/watch?v=S6tE...
RNA isn’t just a messenger. It’s a modified masterpiece! 🧪
Over 10,000 sites in mRNA are chemically tagged, and we’re only beginning to understand why.
Kristin Koutmou @umich.edu explores the tools that reveal this hidden layer of gene regulation. Must-watch! 🎥👇
www.youtube.com/watch?v=s5Bt...
👩🔬🧬🖥️
Over 10,000 sites in mRNA are chemically tagged, and we’re only beginning to understand why.
Kristin Koutmou @umich.edu explores the tools that reveal this hidden layer of gene regulation. Must-watch! 🎥👇
www.youtube.com/watch?v=s5Bt...
👩🔬🧬🖥️
Peeking Behind the Curtain: Technologies to Unveil RNA Modification Landscape - Kristin Koutmou, PhD
YouTube video by GenomeTDCC
www.youtube.com
August 22, 2025 at 12:58 PM
RNA isn’t just a messenger. It’s a modified masterpiece! 🧪
Over 10,000 sites in mRNA are chemically tagged, and we’re only beginning to understand why.
Kristin Koutmou @umich.edu explores the tools that reveal this hidden layer of gene regulation. Must-watch! 🎥👇
www.youtube.com/watch?v=s5Bt...
👩🔬🧬🖥️
Over 10,000 sites in mRNA are chemically tagged, and we’re only beginning to understand why.
Kristin Koutmou @umich.edu explores the tools that reveal this hidden layer of gene regulation. Must-watch! 🎥👇
www.youtube.com/watch?v=s5Bt...
👩🔬🧬🖥️
DNA beyond ACGT? But how do you sequence? 🧬 🖥️
youtu.be/GN6_Hc9tYow
Andrew Laszlo explains how #nanopore sequencing reads modified and synthetic bases like Z, P, B, and S by measuring ion current shifts instead of chemical pairing.
This technology could reshape synthetic biology and epigenetics. 🧪
youtu.be/GN6_Hc9tYow
Andrew Laszlo explains how #nanopore sequencing reads modified and synthetic bases like Z, P, B, and S by measuring ion current shifts instead of chemical pairing.
This technology could reshape synthetic biology and epigenetics. 🧪
Nanopore Sequencing Beyond ACGT - Andrew Laszlo, PhD
YouTube video by GenomeTDCC
youtu.be
August 21, 2025 at 5:00 PM
DNA beyond ACGT? But how do you sequence? 🧬 🖥️
youtu.be/GN6_Hc9tYow
Andrew Laszlo explains how #nanopore sequencing reads modified and synthetic bases like Z, P, B, and S by measuring ion current shifts instead of chemical pairing.
This technology could reshape synthetic biology and epigenetics. 🧪
youtu.be/GN6_Hc9tYow
Andrew Laszlo explains how #nanopore sequencing reads modified and synthetic bases like Z, P, B, and S by measuring ion current shifts instead of chemical pairing.
This technology could reshape synthetic biology and epigenetics. 🧪
Winston Timp @timp0.bsky.social explains how single-molecule seq is transforming our understanding of gene regulation and epigenetic complexity 🧪🖥️🧬
www.youtube.com/watch?v=fj1_...
Direct detection of 5mC and 5hmC, supports cell-type deconvolution, and reveals tissue-specific regulatory features
www.youtube.com/watch?v=fj1_...
Direct detection of 5mC and 5hmC, supports cell-type deconvolution, and reveals tissue-specific regulatory features
Decoding the Centra Dogma with Single Molecule Sequencing - Winston Timp, Ph.D.
YouTube video by GenomeTDCC
www.youtube.com
August 20, 2025 at 2:36 PM
Winston Timp @timp0.bsky.social explains how single-molecule seq is transforming our understanding of gene regulation and epigenetic complexity 🧪🖥️🧬
www.youtube.com/watch?v=fj1_...
Direct detection of 5mC and 5hmC, supports cell-type deconvolution, and reveals tissue-specific regulatory features
www.youtube.com/watch?v=fj1_...
Direct detection of 5mC and 5hmC, supports cell-type deconvolution, and reveals tissue-specific regulatory features
DNA has become programmable. 🧬🖥️
Sasha Levy (BacStitch DNA) discusses how #DNA engineering has evolved from basic cut-and-paste to programmable systems. Learn how enzymatic synthesis and in vivo assembly are shaping the future of synthetic biology 🧪 #STS
youtu.be/kSAm-2FbNus
Sasha Levy (BacStitch DNA) discusses how #DNA engineering has evolved from basic cut-and-paste to programmable systems. Learn how enzymatic synthesis and in vivo assembly are shaping the future of synthetic biology 🧪 #STS
youtu.be/kSAm-2FbNus
From Typewriters to Code Editors: The History and Future of DNA Writing Tools - Sasha Levy, PhD
YouTube video by GenomeTDCC
youtu.be
August 13, 2025 at 1:39 PM
DNA has become programmable. 🧬🖥️
Sasha Levy (BacStitch DNA) discusses how #DNA engineering has evolved from basic cut-and-paste to programmable systems. Learn how enzymatic synthesis and in vivo assembly are shaping the future of synthetic biology 🧪 #STS
youtu.be/kSAm-2FbNus
Sasha Levy (BacStitch DNA) discusses how #DNA engineering has evolved from basic cut-and-paste to programmable systems. Learn how enzymatic synthesis and in vivo assembly are shaping the future of synthetic biology 🧪 #STS
youtu.be/kSAm-2FbNus
Jingyi Jessica Li @jsb-ucla.bsky.social (@fredhutch.bsky.social) (formerly @ UCLA) explains how statistics can make genomics more reliable
From RNAseq to single-cell data, she shows how permutation testing reveals flaws in popular methods and can help make better decisions 🧪🖥️🧬👩🔬
youtu.be/t2pxOsJ9mgE
From RNAseq to single-cell data, she shows how permutation testing reveals flaws in popular methods and can help make better decisions 🧪🖥️🧬👩🔬
youtu.be/t2pxOsJ9mgE
Making Genomics More Reliable with Statistics - Jingyi Jessica Li, PhD
YouTube video by GenomeTDCC
youtu.be
August 8, 2025 at 3:31 PM
Jingyi Jessica Li @jsb-ucla.bsky.social (@fredhutch.bsky.social) (formerly @ UCLA) explains how statistics can make genomics more reliable
From RNAseq to single-cell data, she shows how permutation testing reveals flaws in popular methods and can help make better decisions 🧪🖥️🧬👩🔬
youtu.be/t2pxOsJ9mgE
From RNAseq to single-cell data, she shows how permutation testing reveals flaws in popular methods and can help make better decisions 🧪🖥️🧬👩🔬
youtu.be/t2pxOsJ9mgE
Not that kind of Alien!👽
De novo #nanopore sequencing of ALIEN (ALternative Isoinformational ENgineered) #DNA. Direct, label-free, single-molecule sequencing. @natcomms.nature.com
www.nature.com/articles/s41...
Funded in part by an NHGRI Opportunity Fund (genometdcc.org/opportunity-...)
🧪🧬🖥️ #STS
De novo #nanopore sequencing of ALIEN (ALternative Isoinformational ENgineered) #DNA. Direct, label-free, single-molecule sequencing. @natcomms.nature.com
www.nature.com/articles/s41...
Funded in part by an NHGRI Opportunity Fund (genometdcc.org/opportunity-...)
🧪🧬🖥️ #STS
Sequencing a DNA analog composed of artificial bases - Nature Communications
The ability to sequence oligonucleotides which consist entirely of artificial bases will facilitate their ongoing development and use. Here authors demonstrate de novo nanopore sequencing of DNA oligo...
www.nature.com
August 7, 2025 at 8:04 PM
Not that kind of Alien!👽
De novo #nanopore sequencing of ALIEN (ALternative Isoinformational ENgineered) #DNA. Direct, label-free, single-molecule sequencing. @natcomms.nature.com
www.nature.com/articles/s41...
Funded in part by an NHGRI Opportunity Fund (genometdcc.org/opportunity-...)
🧪🧬🖥️ #STS
De novo #nanopore sequencing of ALIEN (ALternative Isoinformational ENgineered) #DNA. Direct, label-free, single-molecule sequencing. @natcomms.nature.com
www.nature.com/articles/s41...
Funded in part by an NHGRI Opportunity Fund (genometdcc.org/opportunity-...)
🧪🧬🖥️ #STS
RNA is never naked 🧪🖥️🧬
Gene Yeo @ucsandiego.bsky.social reveals how RNA-binding proteins (RBPs) shape gene expression, drive disease, and can unlock new therapies. From splicing to synthetic RBPs, this talk is packed with insights
youtu.be/AnhbGp-pA-w
#RNA #AcademicSky
@sanfordstemcell.bsky.social
Gene Yeo @ucsandiego.bsky.social reveals how RNA-binding proteins (RBPs) shape gene expression, drive disease, and can unlock new therapies. From splicing to synthetic RBPs, this talk is packed with insights
youtu.be/AnhbGp-pA-w
#RNA #AcademicSky
@sanfordstemcell.bsky.social
RNAs are not naked - Gene Yeo, PhD, MBA
YouTube video by GenomeTDCC
youtu.be
August 5, 2025 at 5:15 PM
RNA is never naked 🧪🖥️🧬
Gene Yeo @ucsandiego.bsky.social reveals how RNA-binding proteins (RBPs) shape gene expression, drive disease, and can unlock new therapies. From splicing to synthetic RBPs, this talk is packed with insights
youtu.be/AnhbGp-pA-w
#RNA #AcademicSky
@sanfordstemcell.bsky.social
Gene Yeo @ucsandiego.bsky.social reveals how RNA-binding proteins (RBPs) shape gene expression, drive disease, and can unlock new therapies. From splicing to synthetic RBPs, this talk is packed with insights
youtu.be/AnhbGp-pA-w
#RNA #AcademicSky
@sanfordstemcell.bsky.social
📢Job Opening! 🧪🖥️🧬👩🔬
Ready to hire qualified candidates to map #RNA modifications in human transcriptomes using #nanopore direct sequencing.
Dr. Ya-Ming Hou at Thomas Jefferson University
houlaboratory.com/research
#HigherEd #EDUSky #AcademicSky #STS
Ready to hire qualified candidates to map #RNA modifications in human transcriptomes using #nanopore direct sequencing.
Dr. Ya-Ming Hou at Thomas Jefferson University
houlaboratory.com/research
#HigherEd #EDUSky #AcademicSky #STS
August 4, 2025 at 2:28 PM
📢Job Opening! 🧪🖥️🧬👩🔬
Ready to hire qualified candidates to map #RNA modifications in human transcriptomes using #nanopore direct sequencing.
Dr. Ya-Ming Hou at Thomas Jefferson University
houlaboratory.com/research
#HigherEd #EDUSky #AcademicSky #STS
Ready to hire qualified candidates to map #RNA modifications in human transcriptomes using #nanopore direct sequencing.
Dr. Ya-Ming Hou at Thomas Jefferson University
houlaboratory.com/research
#HigherEd #EDUSky #AcademicSky #STS
Happy #RNADay!
What happens to RNA after transcription?
@stirlingchurchman.bsky.social tracks RNA flow through the cell, revealing key insights into gene regulation, nuclear degradation & RNA kinetics. A fascinating look into #RNA biology! 🧪🧬🖥️👩🔬
youtu.be/XAKMASk_fc4
What happens to RNA after transcription?
@stirlingchurchman.bsky.social tracks RNA flow through the cell, revealing key insights into gene regulation, nuclear degradation & RNA kinetics. A fascinating look into #RNA biology! 🧪🧬🖥️👩🔬
youtu.be/XAKMASk_fc4
The Many Lives of mRNA
YouTube video by GenomeTDCC
youtu.be
August 1, 2025 at 3:08 PM
Happy #RNADay!
What happens to RNA after transcription?
@stirlingchurchman.bsky.social tracks RNA flow through the cell, revealing key insights into gene regulation, nuclear degradation & RNA kinetics. A fascinating look into #RNA biology! 🧪🧬🖥️👩🔬
youtu.be/XAKMASk_fc4
What happens to RNA after transcription?
@stirlingchurchman.bsky.social tracks RNA flow through the cell, revealing key insights into gene regulation, nuclear degradation & RNA kinetics. A fascinating look into #RNA biology! 🧪🧬🖥️👩🔬
youtu.be/XAKMASk_fc4
🧪👩🔬
In this interview, I explain how university research, when funded by independent #NIH #NSF federal grants, brings oversight to biotech to fuel innovation while keeping science transparent, reliable, and in service of the public good: hub.jhu.edu/2025/07/30/j...
#ResearchMatters
#ResearchMatters
University labs help power America's biotech innovation ecosystem
Hopkins researcher Jean Fan and her team create open-source tools that help bridge the gap between academic discoveries and life-saving treatments. Cuts to federal funding threaten to break this criti...
hub.jhu.edu
July 31, 2025 at 3:13 PM
🧪👩🔬
How does 6ft of #DNA fit inside a cell only 10 microns wide?
@sstevenwang.bsky.social provides a brief history of contemporary 3D #genomics technologies. Learn how spatial organization of DNA plays a vital role in gene regulation, development, and disease. 🧬🖥️🧪 #STS
www.youtube.com/watch?v=gXCO...
@sstevenwang.bsky.social provides a brief history of contemporary 3D #genomics technologies. Learn how spatial organization of DNA plays a vital role in gene regulation, development, and disease. 🧬🖥️🧪 #STS
www.youtube.com/watch?v=gXCO...
A Brief History of Contemporary 3D Genomics Technologies
YouTube video by GenomeTDCC
www.youtube.com
July 30, 2025 at 3:53 PM
How does 6ft of #DNA fit inside a cell only 10 microns wide?
@sstevenwang.bsky.social provides a brief history of contemporary 3D #genomics technologies. Learn how spatial organization of DNA plays a vital role in gene regulation, development, and disease. 🧬🖥️🧪 #STS
www.youtube.com/watch?v=gXCO...
@sstevenwang.bsky.social provides a brief history of contemporary 3D #genomics technologies. Learn how spatial organization of DNA plays a vital role in gene regulation, development, and disease. 🧬🖥️🧪 #STS
www.youtube.com/watch?v=gXCO...
Reposted by GenomeTDCC
Many proteins bind RNA, yet we still don’t know what RNAs most bind because methods map one RBP at a time. In @cp-cell.bsky.social, with the Jovanovic lab, we describe SPIDR – a method for mapping the RNA binding sites of dozens of RBPs in a single experiment. www.sciencedirect.com/science/arti...
July 26, 2025 at 7:15 PM
Many proteins bind RNA, yet we still don’t know what RNAs most bind because methods map one RBP at a time. In @cp-cell.bsky.social, with the Jovanovic lab, we describe SPIDR – a method for mapping the RNA binding sites of dozens of RBPs in a single experiment. www.sciencedirect.com/science/arti...
📅 June 9 - Genomic Technologies Open Science Day at @washu.bsky.social and online
www.jax.org/scienceday25
Register for Free by:
May 30: In-Person
June 8: Virtual
Learn how emerging tech is used to manipulate RNA & DNA, study genome function and structure, and navigate multi-omic analysis 🧪👩🔬🧬🖥️
www.jax.org/scienceday25
Register for Free by:
May 30: In-Person
June 8: Virtual
Learn how emerging tech is used to manipulate RNA & DNA, study genome function and structure, and navigate multi-omic analysis 🧪👩🔬🧬🖥️
May 28, 2025 at 3:24 PM
📅 June 9 - Genomic Technologies Open Science Day at @washu.bsky.social and online
www.jax.org/scienceday25
Register for Free by:
May 30: In-Person
June 8: Virtual
Learn how emerging tech is used to manipulate RNA & DNA, study genome function and structure, and navigate multi-omic analysis 🧪👩🔬🧬🖥️
www.jax.org/scienceday25
Register for Free by:
May 30: In-Person
June 8: Virtual
Learn how emerging tech is used to manipulate RNA & DNA, study genome function and structure, and navigate multi-omic analysis 🧪👩🔬🧬🖥️
Reposted by GenomeTDCC
🔬 Excited about the future of genomic tech?
Join NHGRI & @genometdcc.bsky.social's hybrid forum to explore how new tools and technologies are used, as well as the potential opportunities and challenges ahead.
📅 Open to grad students, postdocs & researchers!
Register: www.jax.org/education-an...
Join NHGRI & @genometdcc.bsky.social's hybrid forum to explore how new tools and technologies are used, as well as the potential opportunities and challenges ahead.
📅 Open to grad students, postdocs & researchers!
Register: www.jax.org/education-an...
May 9, 2025 at 6:16 PM
🔬 Excited about the future of genomic tech?
Join NHGRI & @genometdcc.bsky.social's hybrid forum to explore how new tools and technologies are used, as well as the potential opportunities and challenges ahead.
📅 Open to grad students, postdocs & researchers!
Register: www.jax.org/education-an...
Join NHGRI & @genometdcc.bsky.social's hybrid forum to explore how new tools and technologies are used, as well as the potential opportunities and challenges ahead.
📅 Open to grad students, postdocs & researchers!
Register: www.jax.org/education-an...