leo_hua_zhang (@huazhang88) 's Twitter Profile
leo_hua_zhang

@huazhang88

ID: 1681893149566705664

calendar_today20-07-2023 05:07:30

8 Tweet

16 Followers

62 Following

Lingjun Li Research Group (@liresearch) 's Twitter Profile Photo

We're happy to share our latest review article on chemical tagging mass spectrometry for single cell omics published on Anal Bioanal Chem. Big congrats to HAIYAN LU and Dr. Hua Zhang!!! You can review here: link.springer.com/article/10.100…

UW–Madison School of Pharmacy (@uwmadpharmacy) 's Twitter Profile Photo

The Li Research Group Lingjun Li Research Group is recognized internationally for their innovative research that is advancing the scientific community's understanding of neuropeptides through the use of mass spectrometry. Take a look at the people behind the work here: pharmacy.wisc.edu/leading-lab-in…

The Li Research Group <a href="/LiResearch/">Lingjun Li Research Group</a> is recognized internationally for their innovative research that is advancing the scientific community's understanding of neuropeptides through the use of mass spectrometry. Take a look at the people behind the work here: pharmacy.wisc.edu/leading-lab-in…
Lingjun Li Research Group (@liresearch) 's Twitter Profile Photo

Read the full informative interview with our PI, Lingjun Li, named a Human Health Hero in The Analytical Scientist's 2024 Power List of the world's top analytical scientists 🥳🥳 She shares her insights on the challenges and future of disease diagnostic and treatment👇👇 theanalyticalscientist.com/fields-applica…

Lingjun Li Research Group (@liresearch) 's Twitter Profile Photo

Exciting paper in Nature Methods that pushes the boundaries of MSI and spatially-resolved omics🥳TEMI reaches single-cell spatial resolution and enables the profiling of hundreds of lipids, metabolites, peptides, and N-glycans in complex tissue. Check out: rdcu.be/eiIWy

Exciting paper in <a href="/naturemethods/">Nature Methods</a> that pushes the boundaries of MSI and spatially-resolved omics🥳TEMI reaches single-cell spatial resolution and enables the profiling of hundreds of lipids, metabolites, peptides, and N-glycans in complex tissue. Check out: rdcu.be/eiIWy
leo_hua_zhang (@huazhang88) 's Twitter Profile Photo

Breakthrough Technique Enhances Tissue Expansion, Revealing Hundreds of Biomolecules Within Cells bioengineer.org/breakthrough-t…

Nature Methods (@naturemethods) 's Twitter Profile Photo

Tissue-expansion method compatible with mass-spectrometry imaging (TEMI) enables the profiling of lipids, metabolites, peptides, proteins, and N-glycans in complex tissues with high spatial resolution, advancing spatially resolved multi-omics mapping. nature.com/articles/s4159…

Tissue-expansion method compatible with mass-spectrometry imaging (TEMI) enables the profiling of lipids, metabolites, peptides, proteins, and N-glycans in complex tissues with high spatial resolution, advancing spatially resolved multi-omics mapping. nature.com/articles/s4159…
The Analytical Scientist (@tanasci) 's Twitter Profile Photo

By 2050, precision medicine may be driven by AI and ultra-sensitive biomarker detection. But we’re not there yet. Professor Lingjun Li explains what needs to happen next in The Analytical Scientist: 🔗 ow.ly/mKwt50VFu2L #PrecisionMedicine #Biomarkers #AnalyticalScience

By 2050, precision medicine may be driven by AI and ultra-sensitive biomarker detection.

But we’re not there yet.

Professor Lingjun Li explains what needs to happen next in The Analytical Scientist:
đź”— ow.ly/mKwt50VFu2L

#PrecisionMedicine #Biomarkers #AnalyticalScience
Lingjun Li Research Group (@liresearch) 's Twitter Profile Photo

Big news in ACS Analytical Chemistry Journals 🥳🥳 A novel ultralow-flow-rate DESI-MSI platform enables subcellular spatial resolution for in situ biomolecule mapping of single cells. No complex hardware or extensive sample prep needed‼️ Congrats leo_hua_zhang and all coauthors 🎉🎉 pubs.acs.org/doi/full/10.10…