Maylin Fu
@maylinfu.bsky.social
Bioengineering PhD candidate in Stanley Qi’s lab at Stanford
Reposted by Maylin Fu
We’re excited to share that Maylin Fu, Ph.D. student in the Qi Lab, has been accepted into the NIH-funded Pathways to Neurosciences program at Stanford, supported by the Wu Tsai Neurosciences Institute. #Neuroscience #QiLab #WuTsaiNeuroscienceInstitute
neuroscience.stanford.edu/programs/pro...
neuroscience.stanford.edu/programs/pro...
Pathways to Neurosciences
The Pathways to Neurosciences program fosters belonging, excellence, and leadership in the next
neuroscience.stanford.edu
September 2, 2025 at 10:24 PM
We’re excited to share that Maylin Fu, Ph.D. student in the Qi Lab, has been accepted into the NIH-funded Pathways to Neurosciences program at Stanford, supported by the Wu Tsai Neurosciences Institute. #Neuroscience #QiLab #WuTsaiNeuroscienceInstitute
neuroscience.stanford.edu/programs/pro...
neuroscience.stanford.edu/programs/pro...
Reposted by Maylin Fu
Reposted by Maylin Fu
Thrilled to share our paper in
@nature.com led by @MengtingHan123
on CRISPR-TO technology, which paves the way for treatments for neurodegenerative diseases by precisely delivering therapeutic RNA to the damaged sites. A 🧵@Stanford_ChEMH, @bioe_stanford, @Stanford
@nature.com led by @MengtingHan123
on CRISPR-TO technology, which paves the way for treatments for neurodegenerative diseases by precisely delivering therapeutic RNA to the damaged sites. A 🧵@Stanford_ChEMH, @bioe_stanford, @Stanford
May 26, 2025 at 1:02 AM
Thrilled to share our paper in
@nature.com led by @MengtingHan123
on CRISPR-TO technology, which paves the way for treatments for neurodegenerative diseases by precisely delivering therapeutic RNA to the damaged sites. A 🧵@Stanford_ChEMH, @bioe_stanford, @Stanford
@nature.com led by @MengtingHan123
on CRISPR-TO technology, which paves the way for treatments for neurodegenerative diseases by precisely delivering therapeutic RNA to the damaged sites. A 🧵@Stanford_ChEMH, @bioe_stanford, @Stanford
Reposted by Maylin Fu
Glad to share our paper, in collaboration with Prof W.E. Moerner lab and Prof. Andrew Spakowitz lab on developing a high-resolution DNA imaging technology Oligo-LiveFISH, which is online in Cell this week.
Thrilled to share our paper, led by Dr. Yanyu Zhu @yanyuzhu.bsky.social in collaboration with Prof. W.E. Moerner and Prof. Andrew J. Spakowitz, on developing Oligo-LiveFISH technology, in Cell @cellcellpress.bsky.social. A🧵
@stanford-chemh.bsky.social @bioe-stanford.bsky.social
@stanford-chemh.bsky.social @bioe-stanford.bsky.social
April 19, 2025 at 6:18 PM
Glad to share our paper, in collaboration with Prof W.E. Moerner lab and Prof. Andrew Spakowitz lab on developing a high-resolution DNA imaging technology Oligo-LiveFISH, which is online in Cell this week.
Reposted by Maylin Fu
Losing sleep over #iPSC transgene silencing after differentiation?
Same here — too many times😭
So we built a PiggyBac construct that resists silencing.
Expression stays ON, even after differentiation.
Our #preprint is out👇
🔗 www.biorxiv.org/content/10.1...
Supported by @cziscience.bsky.social
Same here — too many times😭
So we built a PiggyBac construct that resists silencing.
Expression stays ON, even after differentiation.
Our #preprint is out👇
🔗 www.biorxiv.org/content/10.1...
Supported by @cziscience.bsky.social
Prevention of Transgene Silencing During Human Pluripotent Stem Cell Differentiation
While high and stable transgene expression can be achieved in undifferentiated pluripotent stem cells, conventional transgene expression systems are often silenced upon differentiation. Silencing occu...
www.biorxiv.org
April 15, 2025 at 3:37 PM
Losing sleep over #iPSC transgene silencing after differentiation?
Same here — too many times😭
So we built a PiggyBac construct that resists silencing.
Expression stays ON, even after differentiation.
Our #preprint is out👇
🔗 www.biorxiv.org/content/10.1...
Supported by @cziscience.bsky.social
Same here — too many times😭
So we built a PiggyBac construct that resists silencing.
Expression stays ON, even after differentiation.
Our #preprint is out👇
🔗 www.biorxiv.org/content/10.1...
Supported by @cziscience.bsky.social
Reposted by Maylin Fu
Thrilled to share our paper, led by Dr. Yanyu Zhu @yanyuzhu.bsky.social in collaboration with Prof. W.E. Moerner and Prof. Andrew J. Spakowitz, on developing Oligo-LiveFISH technology, in Cell @cellcellpress.bsky.social. A🧵
@stanford-chemh.bsky.social @bioe-stanford.bsky.social
@stanford-chemh.bsky.social @bioe-stanford.bsky.social
April 16, 2025 at 11:38 PM
Thrilled to share our paper, led by Dr. Yanyu Zhu @yanyuzhu.bsky.social in collaboration with Prof. W.E. Moerner and Prof. Andrew J. Spakowitz, on developing Oligo-LiveFISH technology, in Cell @cellcellpress.bsky.social. A🧵
@stanford-chemh.bsky.social @bioe-stanford.bsky.social
@stanford-chemh.bsky.social @bioe-stanford.bsky.social
Reposted by Maylin Fu
Thrilled to share our preprint led by @xinyi-chen.bsky.social on programmable molecule delivery via engineered trogocytosis called TRANSFER! a 🧵 @stanford-chemh.bsky.social @bioe-stanford.bsky.social
March 20, 2025 at 5:59 PM
Thrilled to share our preprint led by @xinyi-chen.bsky.social on programmable molecule delivery via engineered trogocytosis called TRANSFER! a 🧵 @stanford-chemh.bsky.social @bioe-stanford.bsky.social
Reposted by Maylin Fu
We are excited to make #CRISPR accessible to high school education. 🧬 Go check out the article in The Stanford Daily to read about our frugal CRISPRkits.
#democratizingscience #scienceaccessibility
@bioe-stanford.bsky.social @stanford-chemh.bsky.social
stanforddaily.com/2025/02/03/c...
#democratizingscience #scienceaccessibility
@bioe-stanford.bsky.social @stanford-chemh.bsky.social
stanforddaily.com/2025/02/03/c...
Bioengineering lab provides affordable gene-editing kits
Stanford researchers introduced affordable gene-editing kits ready for the classroom, aiming to make the field more accessible for high school students.
stanforddaily.com
February 6, 2025 at 5:44 PM
We are excited to make #CRISPR accessible to high school education. 🧬 Go check out the article in The Stanford Daily to read about our frugal CRISPRkits.
#democratizingscience #scienceaccessibility
@bioe-stanford.bsky.social @stanford-chemh.bsky.social
stanforddaily.com/2025/02/03/c...
#democratizingscience #scienceaccessibility
@bioe-stanford.bsky.social @stanford-chemh.bsky.social
stanforddaily.com/2025/02/03/c...
Amazing publication from our talented postdoc Emmy Li’s previous work! 🎊
Thank you Alzforum for featuring our work!
CRISPRi-based screens in iAssembloids to elucidate neuron-glia interactions - project led by @emmyli.bsky.social
www.alzforum.org/news/researc...
CRISPRi-based screens in iAssembloids to elucidate neuron-glia interactions - project led by @emmyli.bsky.social
www.alzforum.org/news/researc...
January 26, 2025 at 6:35 AM
Amazing publication from our talented postdoc Emmy Li’s previous work! 🎊
Amazing work from the Viana da Silva lab! 🎉
📢Exciting data alert!📢 First Pre-print of our Labs! @haberlmatt.bsky.social @dzne.science & Charité
www.biorxiv.org/content/10.1...
www.biorxiv.org/content/10.1...
cfos principal cells and interneurons are strongly reactivated by sharp wave ripples
The hippocampal formation is central for the learning and consolidation of spatial memories. While it is known that the high-frequency oscillations, called sharp wave ripples, play a critical role for...
www.biorxiv.org
January 25, 2025 at 5:25 PM
Amazing work from the Viana da Silva lab! 🎉
Reposted by Maylin Fu
📢Exciting data alert!📢 First Pre-print of our Labs! @haberlmatt.bsky.social @dzne.science & Charité
www.biorxiv.org/content/10.1...
www.biorxiv.org/content/10.1...
cfos principal cells and interneurons are strongly reactivated by sharp wave ripples
The hippocampal formation is central for the learning and consolidation of spatial memories. While it is known that the high-frequency oscillations, called sharp wave ripples, play a critical role for...
www.biorxiv.org
December 20, 2024 at 4:43 PM
📢Exciting data alert!📢 First Pre-print of our Labs! @haberlmatt.bsky.social @dzne.science & Charité
www.biorxiv.org/content/10.1...
www.biorxiv.org/content/10.1...
Phenomenal work by the one and only Ipshita Zutshi! 😍
It’s an incredible feeling to see something you’ve poured your heart into come to life. This work was born from my curiosity about hippocampal “cognitive tuning.”
Our interpretation of the environment depends on our actions, constantly evolving as we pursue our goals
www.nature.com/articles/s41...
Our interpretation of the environment depends on our actions, constantly evolving as we pursue our goals
www.nature.com/articles/s41...
Hippocampal neuronal activity is aligned with action plans - Nature
Using high-density electrophysiological recordings, how internally generated cell assemblies are updated by action plans to meet external goals is explored.
www.nature.com
January 25, 2025 at 4:51 PM
Phenomenal work by the one and only Ipshita Zutshi! 😍