Structural insights into oligomerization and mitochondrial remodelling of dynamin 1‐like protein |
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| Authors: | Chris Fröhlich Stefan Grabiger David Schwefel Katja Faelber Eva Rosenbaum Jason Mears Oliver Rocks Oliver Daumke |
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| Affiliation: | 1. Crystallography, Max‐Delbrück‐Center for Molecular Medicine, , Berlin, Germany;2. Institute for Chemistry and Biochemistry, Free University Berlin, , Berlin, Germany;3. Department of Pharmacology, Center for Mitochondrial Disease, Case Western Reserve University School of Medicine, , Cleveland, OH, USA;4. Institute of Medical Physics and Biophysics, Charité, , Berlin, Germany |
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| Abstract: | ![]()
Dynamin 1‐like protein (DNM1L) mediates fission of mitochondria and peroxisomes, and dysfunction of DNM1L has been implicated in several neurological disorders. To study the molecular basis of mitochondrial remodelling, we determined the crystal structure of DNM1L that is comprised of a G domain, a bundle signalling element and a stalk. DNM1L assembled via a central stalk interface, and mutations in this interface disrupted dimerization and interfered with membrane binding and mitochondrial targeting. Two sequence stretches at the tip of the stalk were shown to be required for ordered assembly of DNM1L on membranes and its function in mitochondrial fission. In the crystals, DNM1L dimers further assembled via a second, previously undescribed, stalk interface to form a linear filament. Mutations in this interface interfered with liposome tubulation and mitochondrial remodelling. Based on these results and electron microscopy reconstructions, we propose an oligomerization mode for DNM1L which differs from that of dynamin and might be adapted to the remodelling of mitochondria. |
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| Keywords: | dynamin 1‐like protein dynamin superfamily GTPases membrane remodelling mitochondrial fission protein structure |
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