Geng-Jen Jang (@geng_jen) 's Twitter Profile
Geng-Jen Jang

@geng_jen

A postdoctoral scientist at MPI-IE
(previously worked at JIC)
Biomolecular condensates/RNA granules/Epigenetic memory and co-transcriptional mechanisms

ID: 1297177647995400193

calendar_today22-08-2020 14:24:19

351 Tweet

394 Followers

426 Following

Chih-Hang Wu (@adamwu9527) 's Twitter Profile Photo

Please retweet!🚨 We're hiring! 🚨 My lab IPMB Academia Sinica (中研院植微所) is looking for postdocs and research assistants to join us in studying NLR resistosomes in plant immunity, with opportunities in both fundamental and translational research. 🌱🔬 Learn more: sites.google.com/view/chwlab/ho… or DM me!

Please retweet!🚨 We're hiring! 🚨 My lab <a href="/IPMBSinica/">IPMB Academia Sinica (中研院植微所)</a> is looking for postdocs and research assistants to join us in studying NLR resistosomes in plant immunity, with opportunities in both fundamental and translational research. 🌱🔬 

Learn more: sites.google.com/view/chwlab/ho… or DM me!
Eduardo Mateo / @emateobonmati.bsky.social (@emateobonmati) 's Twitter Profile Photo

So happy to see this story from my buddy Geng-Jen Jang out in The EMBO Journal Well done mate! Modular in vivo assembly of Arabidopsis FCA oligomers into condensates competent for RNA 3’ processing | The EMBO Journal embopress.org/doi/full/10.10…

Yen-Ping Hsueh (@fungi_worms) 's Twitter Profile Photo

We are ready to recruit new postdocs to join our team at MPI Biology Tübingen! Please help us spread the words. Thank you!!! 😊

We are ready to recruit new postdocs to join our team at MPI Biology Tübingen! Please help us spread the words. Thank you!!! 😊
Eduardo Mateo / @emateobonmati.bsky.social (@emateobonmati) 's Twitter Profile Photo

Happy to share my latest publication 😊 A suitable strategy to find IAA metabolism mutants - Casanova‐Sáez - 2025 - Physiologia Plantarum - Wiley Online Library onlinelibrary.wiley.com/doi/10.1111/pp…

Suyang Zhang (@zhang_suyang) 's Twitter Profile Photo

Excited to share our new preprint on co-transcriptional splicing! U1 snRNP is recruited to RNA polymerase II through multiple interaction sites, with elongation factor SPT6 binding directly to the U1 snRNP protein. biorxiv.org/content/10.110… #cryoEM #transcription #splicing

Nature Metabolism (@natmetabolism) 's Twitter Profile Photo

✨New issue! ✨ Check out the latest in #metabolism research from across all disciplines. Read about #Macrophages, #Tcells, #Circadian biology, the effects of #Diet on #Body and #Brain - and many more topics! nature.com/natmetab/volum…

✨New issue! ✨

Check out the latest in #metabolism research from across all disciplines.

Read about #Macrophages, #Tcells, #Circadian biology, the effects of #Diet on #Body and #Brain - and many more topics!

nature.com/natmetab/volum…
Nature Biotechnology (@naturebiotech) 's Twitter Profile Photo

Two new CLIP-based technologies enable the characterization of multiprotein assemblies on RNA in living cells nature.com/articles/s4158… #NBThighlight

Katsuhiko Minami (@katsu_s_minami) 's Twitter Profile Photo

(1/2) Our work, with my Ph.D. project, is finally published in Science Advances! Our Repli-Histo labeling revealed the distinct physical properties of euchromatin (liquid-like) and heterochromatin (gel-like) and their implications for replication timing. doi.org/10.1126/sciadv…

Wolf Prize (@wolfprize_) 's Twitter Profile Photo

A true “lab” story in full bloom: Jonathan D. G. Jones, Wolf Prize Laureate in Agriculture 2025, and Caroline Dean, Wolf Prize Laureate in Agriculture 2020, are more than just partners in life — they’re also partners in discovery. Jonathan’s pioneering work revealed how plants

A true “lab” story in full bloom:  
Jonathan D. G. Jones, Wolf Prize Laureate in Agriculture 2025, and Caroline Dean, Wolf Prize Laureate in Agriculture 2020, are more than just partners in life — they’re also partners in discovery.
Jonathan’s pioneering work revealed how plants
Lucia Strader (@labstrader) 's Twitter Profile Photo

Biomolecular condensates organize cellular contents. Most studies focus on passive phase separation, driven by salt, pH, or temperature. But what if intracellular movement also matters? science.org/doi/10.1126/sc… Here, we explore motility-induced condensation in a cellular context.

Hsuan Pai 白暄 (@hsuanpai1) 's Twitter Profile Photo

Humongous honour to be involved in drafting the design and to have it presented by Lord Sainsbury! Looking forward to seeing the final print. (🤫 a chocolate coin version has even been suggested)

Humongous honour to be involved in drafting the design and to have it presented by Lord Sainsbury! Looking forward to seeing the final print.
(🤫 a chocolate coin version has even been suggested)
Cheng-Ruei Lee (@chengruei_lee) 's Twitter Profile Photo

Finally published~! science.org/doi/10.1126/sc… 1. Strong evidence of adzuki domestication in Japan 2. The Jomons are not merely hunter-gatherers 3. Tracing evolutionary changes in domestication traits difficult to observe from archaeological evidence

Avilash Singh Yadav (@avilash_12345) 's Twitter Profile Photo

Had a ton of fun discussing "dispersed temperature sensing" model of how plants sense temperature, in my recent interview with Cornell University chronicle ( news.cornell.edu/stories/2025/0…), based on our Science Magazine review. Tried explaining as simply as I could!

Kazuhiro Maeshima (@kazu_maeshima) 's Twitter Profile Photo

Our new review paper is out @ JMB! 🧬 Katsuhiko Minami Adilgazy Semeigazin, MSc よしこりあん discuss DNA accessibility in euchromatin and heterochromatin in living cells. 📘 Free access: authors.elsevier.com/a/1lHgb54HFZNbb 🔗 Also, check our previous paper on nucleosome motion: science.org/doi/10.1126/sc…

Our new review paper is out @ JMB! 🧬
<a href="/katsu_s_minami/">Katsuhiko Minami</a> <a href="/semeigazin/">Adilgazy Semeigazin, MSc</a> <a href="/a_mond_future/">よしこりあん</a> discuss DNA accessibility in euchromatin and heterochromatin in living cells.
📘 Free access: authors.elsevier.com/a/1lHgb54HFZNbb
 🔗 Also, check our previous paper on nucleosome motion: science.org/doi/10.1126/sc…
Nature Portfolio (@natureportfolio) 's Twitter Profile Photo

.nature reports on how scientists have found a way to jam the inner workings of biomolecular condensates. A synthetic ‘killswitch’ protein gives researchers a previously unattainable handle on difficult-to-study cellular structures. go.nature.com/3FXt0Xk