: The paper demonstrates that neuronal signals can "shape" the gut environment, altering bacterial populations which in turn affects neural signaling back to the brain.
: The interaction between the enteric nervous system and microbial communities. g356.mp4
: The file g356.mp4 (listed as NIHMS1988700-supplement-6.mp4 in some repositories) typically provides visual evidence of these interactions, such as imaging of neuronal activity or intestinal motility. : The paper demonstrates that neuronal signals can
The file is a supplementary video for the research paper titled " Peripheral neuronal activation shapes the microbiome and alters gut-to-brain signaling ," published in Nature Communications in 2024 . Paper Overview The file is a supplementary video for the
The full text and associated supplementary materials are available via PubMed Central and the National Center for Biotechnology Information (NCBI) .
The study, led by researchers such as and S. K. Mazmanian , explores how activating specific neurons in the peripheral nervous system can influence the composition of the gut microbiome and subsequent communication between the gut and the brain. Key Scientific Context