Scientists build an atlas of the blood vessel in #diabetes and decipher crosstalk between “foamy” phagocytes and endothelial cells, showing that TREM2 drives vessel dysfunction in peripheral artery disease. @ZhenBoumanChen@NMalhi92@cityofhope https://t.co/apBhCW4aQA
So grateful for the amazing experience getting to present my postdoctoral research in the most beautiful venue @IVBM2024#IVBM2024! Completely worth the jetlag!
Mapping Endothelial-Macrophage Interactions in Diabetic Vasculature: Role of TREM2 in Vascular Inflammation and Ischemic Response https://t.co/BhKGJeeAki #biorxiv_cellbio
Integrating SRS microscopy and MALDI MSI offers a powerful imaging approach to investigate metabolites at the subcellular level in biological systems
NEW #Outlook by @DrLauraSanchez, Lu Wei & team
Read it here: https://t.co/kpfNIMx2As
Excited to share our new publication in @an_chem on SRS imaging of engineered living materials (ELMs) led fiercely by @chenxiqian and @dukehupas. 🦠🔬🧫
Very grateful to my PI @Lu_Wei8 for introducing me to the Raman world through this exciting project!
https://t.co/6NbW3vSQhT
#ICYMI
Our NEW issue is now live!
Read it here: https://t.co/vWVZEFYaxV
Supplementary cover story by @DrLauraSanchez & Lu Wei @UCSCscience https://t.co/5XFMVte9vC
Excited to share our new publication in @an_chem on SRS imaging of engineered living materials (ELMs) led fiercely by @chenxiqian and @dukehupas. 🦠🔬🧫
Very grateful to my PI @Lu_Wei8 for introducing me to the Raman world through this exciting project!
https://t.co/6NbW3vSQhT
(4/4) molecular profiling and metabolic phenotyping. 🔬🧫🧬
We're excited to see the impact of this integrative platform on the field of microscopy and metabolite research. Seeing truly is believing! 👁️
Excited to share our recent outlook on the development of an integrated platform for metabolic imaging using SRS microscopy and MALDI-MSI🔬🧬(1/4)
Seeing is Believing: Developing Multimodal Metabolic Insights at the Molecular Level | ACS Central Science https://t.co/Vg714GPT9J
(3/4) potential low abundance within limited sample volumes. 🔸🔺▪️🔹
Our solution? A multimodal platform using the complementarity of SRS microscopy and MALDI that enables the visualization of metabolites at the subcellular level across diverse biological samples, facilitating
(2/4) The problem: Metabolic changes underlie several pathophysiological conditions, making it crucial to study them. However, visualizing these metabolites at a single-cell resolution can be challenging due to their dynamic nature, structural diversity, high turnover rates, and