I am pleased to share the new study related to my PhD in the World Journal of Gastroenterology. Thanks to Amandine Lashermes, @Neurodol, Andrew T Gewirtz, @BenoitChassaing, and especially Frederic A Carvalho. Enjoy :)
https://t.co/UaFOoqRWJ2
#gutbrainaxis#microbiota#behaviour
Thrilled to share our second paper in two days, published today in #NatureMetabolism!
Yesterday, we explored food memory. Today, we reveal something entirely different: peripheral vagal circuits can induce a torpor-like state in mice. 🧵
https://t.co/37kz6PHnUH
In #AnimalMicrobiome
🔎Investigating the efficacy of #probiotics in enhancing #DiseaseResistance & promoting growth in #GreyMullet
🚨Probiotic-fed fish showed significant improvements in weight gain ratio, feed efficiency, and specific growth rate🐟
👉https://t.co/HIp0CXrMAA
#midweekmicro 🔬🦠
Prenatal antibiotics reduce breast milk IgA and induce dysbiosis in mouse offspring, increasing neonatal susceptibility to bacterial sepsis
@cellhostmicrobe
https://t.co/aWuawScmYY
#WeekendRead! #LocationLocationLocation! @TouficMayassi@TheXavierLab &co show @Nature the regional specialization of the gut at the spatial (single cell) level: strong resilience after inflammation & ILC2 are key in middle colon to adapt to the microbiota https://t.co/9IXkMinzri
Une étude publiée dans la revue Science indique que de nombreuses espèces d’#abeilles sauvages, sont exposées à des résidus de #pesticides dans le #sol mettant ainsi en péril une fois de plus la #pollinisation et la production alimentaire
🐝🌱🚜👩🔬🔬
https://t.co/TsPzycLhIu
Even though lab and wild mice harbour drastically distinct gut microbiotas in many ways, several patterns of early-life microbiota assembly are common across these two systems. Read more in our new paper below
@AuraRaulo @sclknowles
https://t.co/t8yd0DEoQX
Our perspective on the frontiers of neuroscience beyond the nervous system. Thank you, @CellCellPress, for the opportunity to collaborate with our partners @NadineGogolla and @SLiberles. Thanks Chi Jingyi and Popescu, Miranda. My special thanks to Megan Sammons.
New study in: https://t.co/ZFy5mC1JjQ Using nanopore sequencing, we identified microbial traits linked to severe brain injury in preterm infants. Enterobacteriaceae predominance ties to poor neurodevelopment, revealing potential therapeutic targets! 🧠 #Microbiome#Brain
Activated sympathetic nerve post stroke downregulates Toll-like receptor 5 and disrupts the gut mucosal barrier: Cell Reports Medicine
https://t.co/gv2KGAShiA