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1.
Nature ; 617(7959): 162-169, 2023 05.
Article in English | MEDLINE | ID: mdl-37100914

ABSTRACT

The approximately 120 MDa mammalian nuclear pore complex (NPC) acts as a gatekeeper for the transport between the nucleus and cytosol1. The central channel of the NPC is filled with hundreds of intrinsically disordered proteins (IDPs) called FG-nucleoporins (FG-NUPs)2,3. Although the structure of the NPC scaffold has been resolved in remarkable detail, the actual transport machinery built up by FG-NUPs-about 50 MDa-is depicted as an approximately 60-nm hole in even highly resolved tomograms and/or structures computed with artificial intelligence4-11. Here we directly probed conformations of the vital FG-NUP98 inside NPCs in live cells and in permeabilized cells with an intact transport machinery by using a synthetic biology-enabled site-specific small-molecule labelling approach paired with highly time-resolved fluorescence microscopy. Single permeabilized cell measurements of the distance distribution of FG-NUP98 segments combined with coarse-grained molecular simulations of the NPC allowed us to map the uncharted molecular environment inside the nanosized transport channel. We determined that the channel provides-in the terminology of the Flory polymer theory12-a 'good solvent' environment. This enables the FG domain to adopt expanded conformations and thus control transport between the nucleus and cytoplasm. With more than 30% of the proteome being formed from IDPs, our study opens a window into resolving disorder-function relationships of IDPs in situ, which are important in various processes, such as cellular signalling, phase separation, ageing and viral entry.


Subject(s)
Active Transport, Cell Nucleus , Cell Nucleus , Intrinsically Disordered Proteins , Nuclear Pore Complex Proteins , Animals , Artificial Intelligence , Cell Nucleus/metabolism , Intrinsically Disordered Proteins/chemistry , Intrinsically Disordered Proteins/metabolism , Nuclear Pore/metabolism , Nuclear Pore Complex Proteins/chemistry , Nuclear Pore Complex Proteins/metabolism , Microscopy, Fluorescence
3.
J Photochem Photobiol B ; 198: 111580, 2019 Sep.
Article in English | MEDLINE | ID: mdl-31394353

ABSTRACT

Heavy metal acclimation of bacteria is of particular interest in many aspects. It could add to our understanding of adaptation strategies applied by bacteria, as well as help us in devising ways to use such adaptive bacteria for bioremediation. In this study, we have explored the changes in the DNA of an aquatic Gordonia sp. acclimated to silver, cadmium, and lead. We have measured the changes in the DNA extracted from the acclimated bacteria by using ATR-FTIR coupled with unsupervised and supervised pattern recognition algorithms. Although whole-cell FTIR studies do reveal nucleic acid changes, the special care should be taken when considering marker nucleic acid bands in such spectra, as various other cell or tissue constituents also yield IR bands in the same region. An FTIR study on isolated DNA can be used to avoid this problem. The IR spectral profiles of the DNA molecules revealed significant changes in the backbone and sugar conformations of upon acclimation. We then further analyzed the DNA's global cytosine-methylation patterns of the heavy metal-acclimated bacteria. We aimed to find out whether epigenetic mechanisms operate in bacteria for survival and growth in inhibitory heavy metal concentrations or not. We found hypermethylation in Cd acclimation but hypomethylation for both Pb and Ag in Gordonia sp. Our results imply that changes in the conformational and methylation states of DNA seem to let bacteria to thrive in otherwise inhibitory conditions and mark the involvement of epigenetic modulation in acclimation processes.


Subject(s)
DNA Methylation , DNA, Z-Form/chemistry , Gordonia Bacterium/chemistry , Metals, Heavy/metabolism , Sugars/chemistry , Cadmium/chemistry , Cadmium/metabolism , Cadmium/toxicity , Cluster Analysis , Discriminant Analysis , Gordonia Bacterium/drug effects , Gordonia Bacterium/metabolism , Lead/chemistry , Lead/metabolism , Lead/toxicity , Metals, Heavy/chemistry , Metals, Heavy/toxicity , Microbial Sensitivity Tests , Principal Component Analysis , Silver/chemistry , Silver/metabolism , Silver/toxicity , Spectroscopy, Fourier Transform Infrared
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