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TANGO2 binds crystallin alpha B and its loss causes desminopathy

Here the authors show that loss of TANGO2, a gene linked to an autosomal recessive disorder characterised by developmental delay, rhabdomyolysis, cardiac arrhythmias and metabolic disturbances, disrupts mitochondrial and cytoskeletal structure by impairing its interaction with CRYAB, leading to desmin aggregation and desminopathy, causing cardiomyopathy, muscle weakness, and metabolic dysfunction in mice and human cells.

Maike Stentenbach
Laetitia A. Hughes
Aleksandra Filipovska
ResearchOpen Access06 Jun 2025
Nature Communications

Volume: 16, P: 1-17
LC3/GABARAPs drive ubiquitin-independent recruitment of Optineurin and NDP52 to amplify mitophagy

Selective autophagy receptors are thought to selectively recruit Atg8 positive membranes to cargo via their LIR motif. Here, the authors show the LIR motifs in OPTN and NDP52 are dispensable for selectivity, functioning instead to recruit additional receptors and amplify mitophagy.

Benjamin Scott Padman
Thanh Ngoc Nguyen
Michael Lazarou
ResearchOpen Access24 Jan 2019
Nature Communications

Volume: 10, P: 1-13
Control of mitophagy initiation and progression by the TBK1 adaptors NAP1 and SINTBAD

Mitophagy is an important quality control pathway. Here, the authors identify the mechanisms enabling the TBK1 adaptors NAP1 and SINTBAD to prevent hyperactivation of PINK1/Parkin mitophagy while promoting the pathway once set in motion.

Elias Adriaenssens
Thanh Ngoc Nguyen
Sascha Martens
ResearchOpen Access25 Jun 2024
Nature Structural & Molecular Biology

Volume: 31, P: 1717-1731
Quantitative subcellular reconstruction reveals a lipid mediated inter-organelle biogenesis network

Lee et al. use three-dimensional cell reconstruction of focused ion beam scanning electron microscopy data and multi-omics to show that ether-lipid metabolism regulates inter-organelle biogenesis and dynamics.

Richard G. Lee
Danielle L. Rudler
Aleksandra Filipovska
Research21 Dec 2023
Nature Cell Biology

Volume: 26, P: 57-71
Intrinsic processes drive variability in basal melting of the Totten Glacier Ice Shelf

Low frequency intrinsic ocean variability has an unknown impact on Antarctic ice shelves, yet can arise even in the absence of varying climate forcing. Here, the authors show that this variability significantly affects modelled basal melting under the Totten Ice Shelf, with implications for the attribution of change.

David E. Gwyther
Terence J. O’Kane
Jamin S. Greenbaum
ResearchOpen Access07 Aug 2018
Nature Communications

Volume: 9, P: 1-8

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TANGO2 binds crystallin alpha B and its loss causes desminopathy

LC3/GABARAPs drive ubiquitin-independent recruitment of Optineurin and NDP52 to amplify mitophagy

Control of mitophagy initiation and progression by the TBK1 adaptors NAP1 and SINTBAD

Quantitative subcellular reconstruction reveals a lipid mediated inter-organelle biogenesis network

Intrinsic processes drive variability in basal melting of the Totten Glacier Ice Shelf

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