Exploring life at the nanoscale
Yes! Federico is Dr. Fanalista now. Here’s the proud young doctor with the committee, right after his excellent defence.
A great day for the #CDlab. https://t.co/DLZCE4xWvh 
Quiet nice:
Since 2015, our very international #CDlab group maintains a ‘Dutch word of the week’ which is featured in our office corner. A tradition started by @DrJorine and maintained by @jacobkers https://t.co/Hg53gDYGaG 
“Comparing Current Noise in Biological and Solid-State Nanopores” Our latest #CDlab paper out now in @acsnano: https://t.co/Dhx3Obe4He We review the types of noise in nanopores and how to optimise signal-to-noise ratio. By @AlessioFragasso and @sciSonja and yours truly. https://t.co/KQjlR5G5rh 
As promised, here is a thread on the simulations in our preprint on the artificial FG-Nucleoporin “NupX”. Together with @AlessioFragasso & @cees_dekker from #CDLab (1/n) https://t.co/j0ZionJRYZ
The preprint of our upcoming paper is out! #bioRxiv #CDlab Here we reconstituted the basic functionality of nuclear transport using a bottom-up designed protein ‘NupX’. https://t.co/cVhwEKc6Ku
Latest paper of #CDlab on @biorxivpreprint:
A designer FG-Nup that reconstitutes the selective transport barrier of the Nuclear Pore Complex https://t.co/Nm78NZzrJa Title says it all:
We design a protein ‘NupX’ from scratch that can constitute the essentials of the NPC.
#amazing https://t.co/r4uPfHRkee 
Final speaker coming straight from @Boehringer : Andreas Gollner! #skylounge @univienna #cdlab https://t.co/CmTseUvEcE 
Our latest #CDlab paper on SMCs now on @biorxivpreprint: https://t.co/7bWAFHtHXu ‘AFM images of open and collapsed states of yeast condensin suggest a scrunching model for DNA loop extrusion’ AFM thus reveals the intriguing motor mechanism of SMCs that drive DNA loop extrusion https://t.co/n7ijmHx0B4 
Our latest #CDlab preprint:
a review comparing noise in biological and solid-state nanopores,
by #AlessioFragasso, @sciSonja and myself: https://t.co/SiiNR0KhxJ Surprising conclusions:
MspA biological pores have lowest noise but solid-state SiN pores have best signal-to-noise. https://t.co/M4MaOA4Loy 
ParB proteins loading SMCs on a Bacillus subtilis genome. A macro version of my project as a gift for the Sinterklaas at #CDlab https://t.co/63Y9Bz1t5r 
@cees_dekker I miss the #CDlab sinterklaas.
We just did the Hans Roslinga factfulness quiz with our #CDlab – very informative and fun! https://t.co/RploNlC2ZM https://t.co/S4MZUOCSv1 
Here’s our #CDlab perspective on synthetic life on a chip: https://t.co/p0dx7dxRef https://t.co/wvPFapI8Pa
Latest paper online in @MolecularCell:
Distinct Roles for Condensin’s Two ATPase Sites in Chromosome Condensation https://t.co/f2zMHMKGtM Great collaboration led by #RowlandLab, to which #HaeringLab and our #CDlab contributed https://t.co/n7jZoe120i 
Our latest #CDlab paper online in @NanoLetters : https://t.co/MjZLkyL9nl Label-free detection of post-translational modifications with a nanopore Great work by @laurarpo1 in collaboration with Joo and Maglia labs. https://t.co/Uc82cC5U87 
‘State of the #CDlab’ talk – here’s a visual impression of me presenting to the group, sketched live by the amazing painter & research scientist @jacobkers https://t.co/aXTlekW08G 
Last day of our #CDlab retreat: Intervision reflections, my ‘state of the lab’ talk, and travelling home https://t.co/H9SsLd5hLX 
Viewing the #CDlab from the perspective of a glass of portugese white wine #beeldvandedag https://t.co/yrYCSGjjsv 
