About Us
Finding Inspiration in Every Turn
At ComformAlt, we specialize in cutting-edge structural mass spectrometry to visualize and quantify protein dynamics in real time. Our innovative techniques enable us to map conformational landscapes and identify disease-relevant intermediates, inspiring those passionate about advancing science and therapeutics to join us.
Misfolded and aggregated proteins are at the heart of neurodegenerative diseases, metabolic disorders, and many cancers. By understanding protein dynamics at the atomic level, we can develop smarter biologics, improve antibody stability, and discover allosteric modulators with unprecedented precision.
We are seeking passionate, skilled professionals—whether you are a mass spectrometrist, computational biologist, or student—to help us turn structural insights into real-world therapies. Your expertise can make a meaningful difference, and we would love to have you join our team.
Let’s shape the future of structural biology—together.
Our Sponsors:
Our Story
——Starting from London, then through UK and to the rest of the world.
At ConformAlt, we believe in the power of innovation and adaptability. Founded with a vision to redefine industry standards, strive to create solutions that cater to the ever-evolving needs of our clients. Our journey is rooted in commitment to excellence, collaboration, and a passion for pushing boundaries. Join us we pave the way for a brighter future, one innovative step at time.
Meet The Team
Our Clients
Our Future Collaborators
We might provide opportunities for postgraduates programs. If you are interested to learn or want to join our student programs. This year our case study programs includes:
1. Research on neurodegenerative diseases: analysis of misfolding and aggregation pathways of α 1-antitrypsin Z mutant.
2. Drug discovery: screening small molecules with stable protein conformation (such as GSK716 for its stabilizing effect on α 1-antitrypsin)
3. Complex structure analysis: aided by cryo electron microscopy data modeling, analyzing flexible regions (such as RNA polymerase II, TRiC/CT chaperone proteins)
4. Protein Engineering: Designing Mutations to Stabilize Proteins and Inhibit Aggregation
Please send an email to Prof. Kathy Lauren for more information.