Explore how multiomics reveals the gut-brain axis in honeybees. Learn how genomics, transcriptomics, and metabolomics uncover interactions between microbes and neural pathways.
Read more: https://bit.ly/3VNMang
#Multiomics #HoneybeeResearch #GutBrainAxis #MicrobialInteractions #Innovation
Explore how multiomics reveals the gut-brain axis in honeybees. Learn how genomics, transcriptomics, and metabolomics uncover interactions between microbes and neural pathways.
Read more: bit.ly/3VNMang
#Multiomics #HoneybeeResearch #GutBrainAxis #MicrobialInteractions #Innovation
Explore how multiomics reveals the gut-brain axis in honeybees. Learn how genomics, transcriptomics, and metabolomics uncover interactions between microbes and neural pathways.
Read more: bit.ly/3VNMang
#Multiomics #HoneybeeResearch #GutBrainAxis #MicrobialInteractions #Innovation
Explore how multiomics reveals the gut-brain axis in honeybees. Learn how genomics, transcriptomics, and metabolomics uncover interactions between microbes and neural pathways.
Read more: bit.ly/3VNMang
#Multiomics #HoneybeeResearch #GutBrainAxis #MicrobialInteractions #Innovation
Hundreds of thin, transparent tubes branch off in all directions that cover the screen view. We are seeing the transport system of fungi! Each tube contains small glowing green cells that transport nutrients and other things along to add to the hyphae growth and allow the fungal pathogen to move through its environment.
One of my most favourite scientific words to say: hyphae!
These are from the mycelium of Ascosphaera apis, aka chalkbrood, a fungal pathogen of honey bees. I will never not be blown away by looking down a microscope at tiny things 🥰 #WomenInStem #Entomologist #HoneyBeeResearch 🧪
