Johnny (Hsiao-Chun) Chen
@hcjohnnychen.bsky.social
PhD student at Plant Pathology @universityofga; Microbe-Plant interactions; Taipei Taiwan is 🏠
Glad to share a little bit of plant science and P. syringae to the @cmdi.bsky.social group seminar at the Georgia Institute of Technology 🌱
November 12, 2025 at 11:04 AM
Glad to share a little bit of plant science and P. syringae to the @cmdi.bsky.social group seminar at the Georgia Institute of Technology 🌱
Reposted by Johnny (Hsiao-Chun) Chen
Single Cell Multiomics of Potato Stolons Reveals Parallels to Shoot Apical Meristems in Arabidopsis
From: onlinelibrary.wiley.com/doi/10.1111/...
#PlantScience
From: onlinelibrary.wiley.com/doi/10.1111/...
#PlantScience
November 11, 2025 at 7:13 PM
Single Cell Multiomics of Potato Stolons Reveals Parallels to Shoot Apical Meristems in Arabidopsis
From: onlinelibrary.wiley.com/doi/10.1111/...
#PlantScience
From: onlinelibrary.wiley.com/doi/10.1111/...
#PlantScience
Reposted by Johnny (Hsiao-Chun) Chen
Gram-positive bacterial MAMP sensed by a plant cysteine rich receptor kinase. I've been waiting for this preprint to drop. Nice story!
www.biorxiv.org/content/10.1...
www.biorxiv.org/content/10.1...
Cysteine-rich receptor-like kinases mediate Wall Teichoic Acid perception in Arabidopsis
Plants and animals detect microbe-associated molecular patterns (MAMPs) to initiate defense responses. Both lineages employ pattern recognition receptors (PRRs), yet plant mechanisms for sensing Gram-...
www.biorxiv.org
September 22, 2025 at 5:25 PM
Gram-positive bacterial MAMP sensed by a plant cysteine rich receptor kinase. I've been waiting for this preprint to drop. Nice story!
www.biorxiv.org/content/10.1...
www.biorxiv.org/content/10.1...
It was truly a convenient way to access reporter expression, protein-protein interaction, and so much more in plants without microscope or something fancy!
Lucky enough to have a chance to try out this tool in Nbemthi and Arabidopsis with the REEU summer intern in our lab last year!
Lucky enough to have a chance to try out this tool in Nbemthi and Arabidopsis with the REEU summer intern in our lab last year!
Profile of @plantphys.bsky.social EIC Yunde Zhao & RUBY reporter his lab developed; free for use in academic labs & classrooms. “RUBY is making a difference in so many ways because we opened it up to all of science".
"Fundamental research is crucial because it can lead to unexpected discoveries.”
"Fundamental research is crucial because it can lead to unexpected discoveries.”
Seeing Red: A UC San Diego Invention is Transforming the Way Scientists Track Genes
UC San Diego biologists have created a transformative new way to monitor genes. The game-changing tool known as RUBY is an inexpensive, easy-to-use technology that allows researchers to visualize gene...
today.ucsd.edu
October 1, 2025 at 6:57 AM
It was truly a convenient way to access reporter expression, protein-protein interaction, and so much more in plants without microscope or something fancy!
Lucky enough to have a chance to try out this tool in Nbemthi and Arabidopsis with the REEU summer intern in our lab last year!
Lucky enough to have a chance to try out this tool in Nbemthi and Arabidopsis with the REEU summer intern in our lab last year!
Reposted by Johnny (Hsiao-Chun) Chen
New week, new tool: Find our Protein Domain Designer tool to generate publication-ready protein domain diagrams here: domaindesigner.farnunglab.com
September 29, 2025 at 3:01 PM
New week, new tool: Find our Protein Domain Designer tool to generate publication-ready protein domain diagrams here: domaindesigner.farnunglab.com
Reposted by Johnny (Hsiao-Chun) Chen
Please share! I'm looking for a postdoc. The position is to lead one of the following projects: 1) regulation of plant specialized metabolism by cell fate, or 2) foliar embryogenesis in the succulent plant Kalanchoe.
Learn more abt projects: cxli233.github.io/cxLi_lab/res...
Learn more abt projects: cxli233.github.io/cxLi_lab/res...
Plant cells are totipotent, meaning individual cells have the potential to develop into a full organism, a property unique to the zygote for animals. However, in most species for most cells, plant cells are not spontaneously totipotent, since they must be treated with specific hormone combinations to unlock their totipotency. Species within the Kalanchoe genus is unique as they spontaneously develop foliar embryos that are fully realized plantlets with shoot and root from notches along the edges of leaves. We speculate that the progenitor cells that give rise to these foliar embryos are totipotent, and we are using single cell techniques to identify & characterize them. In addition to being a fundamental process for plant biology, we foresee unlocking totipotency has many biotechnological applications, such as faciliating genetic transformation and the development of synthetic organs of biomanufacturing.
cxli233.github.io
September 4, 2025 at 2:00 PM
Please share! I'm looking for a postdoc. The position is to lead one of the following projects: 1) regulation of plant specialized metabolism by cell fate, or 2) foliar embryogenesis in the succulent plant Kalanchoe.
Learn more abt projects: cxli233.github.io/cxLi_lab/res...
Learn more abt projects: cxli233.github.io/cxLi_lab/res...
Reposted by Johnny (Hsiao-Chun) Chen
Our review on disease resistance gene diversity in Triticeae is finally online 🌾🌾! Gained so many insights writing it with Yinghui Li & Liubov Govta and from the guidance of gittacoaker.bsky.social & Tzion Fahima. Fascinated by plant resistance gene diversity—excited to share!
September 17, 2025 at 1:14 AM
Our review on disease resistance gene diversity in Triticeae is finally online 🌾🌾! Gained so many insights writing it with Yinghui Li & Liubov Govta and from the guidance of gittacoaker.bsky.social & Tzion Fahima. Fascinated by plant resistance gene diversity—excited to share!