meng wang (@mengwang939) 's Twitter Profile
meng wang

@mengwang939

ID: 3273062522

calendar_today09-07-2015 14:26:40

54 Tweet

598 Followers

129 Following

Lasker Foundation (@laskerfdn) 's Twitter Profile Photo

Scientists uncover “fat-to-neuron” communication that regulates longevity. DGLA, a fatty acid derived from intestinal lysosomal lipolysis, binds to the lipid chaperone protein LBP-3 to induce neuropeptide signaling and promote longevity. meng wang ow.ly/F8lg50Jvus5

Scientists uncover “fat-to-neuron” communication that regulates longevity. DGLA, a fatty acid derived from intestinal lysosomal lipolysis, binds to the lipid chaperone protein LBP-3 to induce neuropeptide signaling and promote longevity. <a href="/mengwang939/">meng wang</a> 
ow.ly/F8lg50Jvus5
Hongjie Li (@hongjieli5) 's Twitter Profile Photo

Inhibiting mTor or IGF/Insulin and improving lysosome function extend lifespan. But how? How do they affect different cell type at single-cell level? Very surprising findings as we perform single-nucleus RNAseq of the whole worm with ⁦meng wang⁩ biorxiv.org/content/10.110…

HHMI | Janelia (@hhmijanelia) 's Twitter Profile Photo

🔥New research led by Janelia Sr. Group Leader Meng Wang (meng wang) identifies a mitochondrial enzyme that regulates reproductive health in C. elegans, a novel finding that could help scientists better understand human reproductive aging. 🧵(1/6) janelia.org/news/researche…

bioRxiv Cell Biology (@biorxiv_cellbio) 's Twitter Profile Photo

Quantitative Profiling of Lysosomal pH Heterogeneity using Fluorescence Lifetime Imaging Microscopy biorxiv.org/cgi/content/sh… #biorxiv_cellbio

Advanced Portfolio News (@advportfolio) 's Twitter Profile Photo

New findings uncover the role mitochondria play in female reproductive aging. Scientists HHMI | Janelia led by Meng Wang (meng wang) gain important insights that they hope will lead to improved fertility and IVF outcomes. Read the full post: ow.ly/zxaR50PUAJC

New findings uncover the role mitochondria play in female reproductive aging. 

Scientists <a href="/HHMIJanelia/">HHMI | Janelia</a> led by Meng Wang (<a href="/mengwang939/">meng wang</a>) gain important insights that they hope will lead to improved fertility and IVF outcomes.

Read the full post: ow.ly/zxaR50PUAJC
HHMI | Janelia (@hhmijanelia) 's Twitter Profile Photo

🧪Research led by Sr. Group Leader Meng Wang (meng wang) details how lysosomes change their protein composition as organisms become long-lived, providing insight into the role these organelles & their associated proteins play in regulating longevity. 🔗janelia.org/news/researche…

biorxiv_devbio (@biorxiv_devbio) 's Twitter Profile Photo

Chemical Induction of Longevity-Promoting Colanic Acid in the Host's Microbiota biorxiv.org/cgi/content/sh… #biorxiv_devbio

The Nobel Prize (@nobelprize) 's Twitter Profile Photo

"Diversity is really important in science. First of all, I think that if you want to have the best scientific outcomes, you need a lot of different brains working on it." - Chemistry laureate @doudna_lab on diversity in science. Read the interview: bit.ly/2M82Chu

"Diversity is really important in science. First of all, I think that if you want to have the best scientific outcomes, you need a lot of different brains working on it." - Chemistry laureate @doudna_lab on diversity in science. 

Read the interview: bit.ly/2M82Chu
meng wang (@mengwang939) 's Twitter Profile Photo

A fun learning experience through working on this review article. The interactions between bacteria and host organelles unfolds at various levels.

Dario Riccardo Valenzano🐟🦠🤌🏽 (@dariovalenzano_) 's Twitter Profile Photo

🔬 Join us at the Aging & Microbiome Conference in Jena! 🌟 A first-ever event to discuss cutting-edge science and clinical applications in aging and the microbiome. Don’t miss out—register today! 👉 indico.leibniz-fli.de/event/2/ #AgingResearch #Microbiome #microverse #AMC2024

Janelia Conferences (@janeliaconf) 's Twitter Profile Photo

📢 Applications are open! Join us at the intersection of cellular physiology & #AI to discuss how AI technologies can help unravel the mysteries of genomes & cell structures & answer biological questions Learn more + apply by Nov. 5 @ janelia.news/4DCP25 #cellbio #AI

📢 Applications are open!

Join us at the intersection of cellular physiology &amp; #AI to discuss how AI technologies can help unravel the mysteries of genomes &amp; cell structures &amp; answer biological questions

Learn more + apply by Nov. 5 @ janelia.news/4DCP25

#cellbio #AI