High-throughput drug screening

The group of Tristan Bereau uses truly high-throughput Martini simulations to screen thermodynamic properties of drug-membrane interactions. They establish linear relationships between partitioning coefficients and key features of the potential of mean force, allowing them to predict the structure of the insertion from bulk experimental measurements for more than 400 000 (!!) compounds. Details can be found here:

And ... Tristan is looking for new PhD students and postdocs to work on this topic, so send him an email if you are interested (This email address is being protected from spambots. You need JavaScript enabled to view it.)

Setting up some coarse grain LPS systems

Journal cover image of LPS martini builder

This is the first paper of a fresh PhD student in our lab (Bart). We are proud to say that we made it to the cover! In this paper we show that we can build intial structures for all kind of membrane motives using the CHARMM-GUI interface and the Martini CG force field.

P.-C. HsuB. M. H. BruininksD. JefferiesP. Cesar Telles de SouzaJ. LeeD. S. PatelS. J. MarrinkY. QiS. KhalidW. ImJ. Comput. Chem20173823542363. DOI: 10.1002/jcc.24895

Go Martini

Looking for a way to model foldable Martini proteins? Try Go Martini, a clever combination of Martini and Go potentials developed by the group of Theodorakis. Further details on the method can be found in the publication:

A.B. Poma, M. Cieplak, P.E. Theodorakis, JCTC, 13:1366–1374, 2017. DOI:10.1021/acs.jctc.6b00986

Crowds slow you down

What happens to the famous Saffman-Delbruck model when your membrane is crowded with proteins ? Read all about it in this exciting new paper from the Vattulainen group, featuring Martini simulations of very crowded membranes:

M. Javanainen, H. Martinez-Seara, R. Metzler, I. Vattulainen, J. Phys. Chem. Lett. 2017, available online

Another fruitful Martini Workshop

Cherish this picture, for it will contain some nobel price winners in the future!group picture Martiniworkshop 2017