The Leigh phenotype resulting from C12orf65 variants

Finsterer, Josef

doi:10.1590/1678-4685-gmb-2020-0177

Cited by 2 publications

(2 citation statements)

References 5 publications

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“…Hence, the interruption of translation termination of COX1 induces the mtRQC system involving C12ORF65. This also underlines the central importance of the mtRQC system, since a growing number of patients with mutated C12orf65 have been described, developing Leigh syndrome [32–34]. However, as these patients with usually undetectable levels of C12ORF65 display a general translation defect, mtRQC mediated by C12ORF65 seems to be generally involved in ribosome rescue and not selectively responsible for the release of stalled COX1‐translating ribosomes.…”

Section: Termination Of Cox1 Translationmentioning

confidence: 99%

Cytochrome c oxidase biogenesis – from translation to early assembly of the core subunit COX1

2023

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Mitochondria are the powerhouses of the cell as they produce the majority of ATP with their oxidative phosphorylation (OXPHOS) machinery. The OXPHOS system is composed of the F1Fo ATP synthase and four mitochondrial respiratory chain complexes, the terminal enzyme of which is the cytochrome c oxidase (complex IV) that transfers electrons to oxygen, generating water. Complex IV comprises of 14 structural subunits of dual genetic origin: while the three core subunits are mitochondrial encoded, the remaining constituents are encoded by the nuclear genome. Hence, the assembly of complex IV requires the coordination of two spatially separated gene expression machinery. Recent efforts elucidated an increasing number of proteins involved in mitochondrial gene expression, which are linked to complex IV assembly. Additionally, several COX1 biogenesis factors have been intensively biochemically investigated and an increasing number of structural snapshots shed light on the organization of macromolecular complexes such as the mitoribosome or the cytochrome c oxidase. Here, we focus on COX1 translation regulation and highlight the advanced understanding of early steps during COX1 assembly and its link to mitochondrial translation regulation.

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Section: Termination Of Cox1 Translationmentioning

confidence: 99%

Cytochrome c oxidase biogenesis – from translation to early assembly of the core subunit COX1

2023

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“…As for stretchable/flexible electronics, recent developments in materials and mechanics create a number of other approaches to expand the well‐conformal situations. [ 52 ] Significant works have been developed in the area of new structure design (e.g., buckled, [ 53 ] serpentine, [ 54,55 ] fractal structures, [ 56,57 ] corrugated structures, [ 58 ] multistage corrugated structures, [ 59–61 ] and island bridges [ 13,62,63 ] ) and highly stretchable material development (e.g., elastic conductors [ 64,65 ] and liquid metal [ 66–68 ] ).…”

Section: Techniques For Fabrication Of Deformable Curved Electronicsmentioning

confidence: 99%

Fabrication Techniques for Curved Electronics on Arbitrary Surfaces

Tian

Luo

et al. 2020

Adv Materials Technologies

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Curved electronics, which are better coordinated and blended with the natural world due to the characteristics of large contact area, high space adaptability, etc., have been widely used in a quantity of areas ranging from conformal curved antennas and sensors in detection and measurement, to artificial smart skin of aerospace. Recent developments in curved electronics have made an increasing progress to the historic drawbacks of conventional planar electronics, however significant challenges still exist. Here, the main kinds of conformal fabrication technologies, including transfer printing, assembly techniques, curved lithography, conformal inkjet printing, 3D printing, and laser direct writing, are reviewed to realize manufacturing deformable/undeformable electronics on curved or arbitrary surfaces. The processes and features of each technology are comprehensively summarized together with their progress and potential values. Finally, the challenges and opportunities for fabricating conformal electronics on arbitrary surfaces are also discussed.

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The Leigh phenotype resulting from C12orf65 variants

Cited by 2 publications

References 5 publications

Cytochrome c oxidase biogenesis – from translation to early assembly of the core subunit COX1

Cytochrome c oxidase biogenesis – from translation to early assembly of the core subunit COX1

Fabrication Techniques for Curved Electronics on Arbitrary Surfaces

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