@PNASNews: Myosin VI oligomerises on cardiolipin membranes and transports vesicles processively, linking it to mitophagy!
Using dynamic #MassPhotometry, we track Myo6 assembly states directly on lipid bilayers.
https://t.co/jcqSzBWrmc
@LMU_Muenchen@JohannesDietri7@AronVenczel
Our latest publication is now live in @NatureNano! Very excited to be part of this amazing work with @kinasekid@MeloMCR @rafaelcbernardi @LipfertLab where we investigated the force-stability and kinetics of SARS-CoV-2 VOCs. Details here: https://t.co/uGBgVfng1P
Wir sind sprachlos! Ferenc Krausz vom Max-Planck-Institut für Quantenoptik in München erhält zusammen mit Pierre Agostini und Anne L’Huillier den Physik-Nobelpreis 2023. Wir gratulieren! 👏🍾😊https://t.co/3S5W6wWZuy #Nobelpreis#Physik@NobelPrize@MPI_Quantum
01. Today we report the computational design of highly efficient enzymes. Lab testing confirms that these novel luciferases can recognize specific synthetic substrates and efficiently catalyze the emission of light.
https://t.co/IeGKoGhc2g
In this article, we speak with Dr. Nikolas Hundt, a Ludwig Maximilian University of Munich researcher, to discover the benefits of a #massphotometry approach to shed new light on fundamental biological processes: https://t.co/1tw2sEZfnQ
@refeynit @HundtNikolas@LMU_Muenchen
We show that considering the *variance* of the extension fluctuations of supercoiled DNA, in addition to their mean (the famous rotation or "hat curves" that everyone in the magnetic tweezers community knowns and loves), provides critical additional information. (2/n)
The third (final?) chapter of my gliding trilogy is out: after "gliding on a membrane" and "on a sphere", I offer you our new paper on *gliding in a nematic*! https://t.co/kT9V1sd95m Huge thanks to Lukas @BauschLab, Ivan&Timo @PhysOfLifeLMU & Tetsu @TU_Muenchen. Here's a🧵(1/15)
💊 The 2nd top tweet of 2022 highlights Dr. Gaurav Bhardwaj (@GBhardwaj8) at @UWProteinDesign and a #DrugDesign breakthrough that may lead to new medications for a wide variety of health disorders!
https://t.co/KBtB25jRHo
A new era of biological engineering is emerging in which living cells are used as building blocks to address therapeutic challenges.
Read more in a new #ScienceReview: https://t.co/9TK8I8jdv2
A Review in @NatRevNeurol reviews our current understanding of the mechanisms underlying synaptic degeneration in Alzheimer disease and highlights key questions that still need to be answered. https://t.co/6C5JzYmuQH
Tuneable Diffusion: @IbonSantiago @SimmelLab and team use cholesterol-modified #DNAorigami that change their binding behavior to lipid bilayers in a salt-dependent manner to create a customizable 2D diffusion sandbox. https://t.co/tTBrRCw7Wb