Thrilled to share that my first REVIEW is online @NatRevNeurosci today! We highlighted the molecular and functional diversity of brain-to-body autonomic pathways 📖
Hope you enjoy reading it and find the resources helpful 🤗👇
https://t.co/1o6bXxhNDr
https://t.co/ueeUM8bDl8
Striking findings opposite with what textbook says. It's a better model to understand how ISC are sitted between Paneth cells. Now question: why crypt cells need more protection than isthmus cells?
🔎 Check out this study led by Drs. Capdevila & Yan!
✅ Their findings support a model in which tissue regeneration originates from upper crypt cells that generate progeny propagating 🔃 bi-directionally along the crypt-villus axis.
@CellCellPress | https://t.co/BKf7NPpJup
In a pair of studies published in Cell today, we used interspecies blastocyst complementation to study brain function and evolution. https://t.co/v7oFHBp6oz.
https://t.co/5Eb4h7ktnw.
Proud to share our groundbreaking research on the gut microbiota's role in brain aging. Following 500+ publications in Nature Aging, our work ranks 7th in mentions and 5th in citations @NatureAging@Pharmabiotic@jfcryan@ktguzz@Thomazsan et al.
https://t.co/p3CySMvraR
Discovery of a brain-heart pathway mechanism for syncope (fainting), underpinning the reflex first described by Bezold in 1867 (later known as Bezold-Jarisch reflex)
https://t.co/VpxJQeBidv
https://t.co/H6mdnAKWxO
elegant work w/ scRNA-seq, #optogenetics@vinnyaug1@UCSD
MD/PhD student @k00kumar & colleagues introduce CAZyLingua, an AI tool to annotate Carbohydrate Active Enzymes. We uncovered several CAZymes linked with fibrosis prone diseases, and infant growth.
#IBD#IgG4RD#plm
https://t.co/UkXSoOLJzs
Check our latest review for 'vagal-gut-brain axis' We summarized the history of this filed and proposed exciting future directions. I'm glad to join this work with Rui Li at Bai Lab! https://t.co/3RgxwzxNHr
🤔 What is the relationship between bacterial & animal immunity? In our new manuscript, we look across diverse eukaryotes, uncovering the evolutionary origins of three families of antiviral proteins: CD-NTases (including cGAS), STINGs, and Viperins. 1/ https://t.co/GV38dzvgsj
Thrilled to share our latest work on @ImmunityCP that lipid sensing regulates peripheral 5-HT release via #enterochromaffin cell. Great collaboration with @WeiLuLab and Dr. Dingding An @BostonChildrens https://t.co/AuCjlK9G96
CD8+ T cells are not the whole story in cancer immunotherapy. In this @Nature article, CD4+ T cells (with the help of some myeloid cells) can eradicate MHC-deficient tumors not targeted by CD8+ T cells.
https://t.co/HHJOTydz6A