I am delighted to share our new publication in Cytoskeleton, led by Bat-Ider Tumenbayar and Khanh Pham, featuring our RNAseq data that uncovers the mechanobiological roles of FAK and p130Cas in early transcriptional regulation and biological processes.

I am pleased to share our latest study on cell motility, led by Thomas Mousso and Kalina Rice, titled "Survivin modulates stiffness-induced vascular smooth muscle cell motility." https://t.co/bbE6s5lfD3

Delighted to share our new study in Cytoskeleton, led by Bat-Ider Tumenbayar & Khanh Pham, featuring our RNAseq data that uncovers the mechanobiological roles of FAK & p130Cas in early transcriptional regulation and biological processes.

Congratulations, Thomas Mousso, on successfully passing your qualifying exam! You are now officially a PhD candidate.

Two PhD students, Rhonda Drewes and Thomas Mousso, from the Bae Lab will be giving podium presentations at the Biomedical Engineering Society (@BMESociety) meeting in Baltimore. Please stop by and check out our latest studies!

I am excited to share our latest genomics study, titled "Transcriptomic and multi-scale network analyses reveal key drivers of cardiovascular disease"

I'm a Survinin! New @APLBioeng paper from @YonghoBae2 and @UB_BME reveals survivin's impact on the modulation of cell phenotype & proliferation. #mechanobiology

Today, I've been promoted to a tenured Associate Professor. I deeply appreciate my students, collaborators, mentors, family, and friends for their support.

Excited to share that my tenure dossier got approved by the University at Buffalo (UB) President, making me a tenured Associate Professor at UB. Grateful to my past and present students, collaborators, and friends for their support.

Excited to share our latest genomics work! "FAK and p130Cas modulate stiffness-mediated early transcription and cellular metabolism"

Three lab members presenting at @ASCB meeting #cellbio2023 in Boston. Stop by and check them out!

Dr. Yongho Bae (@YonghoBae2) and team show that survivin is necessary for vascular smooth muscle cell cycling 🚴 and proliferation and plays a role in regulating stiffness-responsive phenotypes. 📃 Full story in @aplbioeng: https://t.co/Gj4HPvhHx3

"Survivin as a Mediator of Stiffness-Induced Cell Cycle Progression and Proliferation of Vascular Smooth Muscle Cells" has been published in APL Bioengineering, revealing survivin's impact on the modulation of cell phenotype & proliferation.

This paper is also featured in

I'm pleased to announce that "Survivin regulates intracellular stiffness and extracellular matrix production in vascular smooth muscle cells" is published in APL Bioengineering. Here, we show how ECM stiffness affects cellular tension and ECM synthesis.

Our co-authored paper, with Dr. Szigeti lab, has been published in eBioMedicine. Congrats to Szigeti & my students Yuna & Erik! I am happy our contributions to this paper, including research on lamellipodin, Rac, mechanotransduction, hydrogels, & AFM, have made a valuable impact.

Our paper, entitled "Key role for Rac in the early transcriptional response to ECM stiffness and the stiffness-dependent repression of ATF3" with Dr. Assoian lab has been accepted for publication in the Journal of Cell Science. Congrats to Irene & Joe !!! https://t.co/XWblnQ91MD

The Department of Pathology and Anatomical Sciences in the Jacobs School of Medicine at the University at Buffalo is currently seeking to hire a tenure-track Assistant or Associate Professor (Computational Anatomist). Applicants may apply at

Congratulations to my student, Kalina Rice, on successfully defending her MS thesis. It could have significant implications in the field of mechanobiology and vascular smooth muscle cell biology. Well done!!!

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