Dorota Muth-Pawlak scite author profile

The flavodiiron proteins (FDPs) Flv1 and Flv3 in cyanobacteria function in photoreduction of O2 to H2O, without concomitant formation of reactive oxygen species, known as the Mehler-like reaction. Both Flv1 and Flv3 are essential for growth under fluctuating light (FL) intensities, providing protection for PSI. Here we compared the global transcript profiles of the wild type (WT), Δflv1 and Δflv1/Δflv3 grown under constant light (GL) and FL. In the WT, FL induced the largest down-regulation in transcripts involved in carbon-concentrating mechanisms (CCMs), while those of the nitrogen assimilation pathways increased as compared with GL. Already under GL the Δflv1/Δflv3 double mutant demonstrated a partial down-regulation of transcripts for CCM and nitrogen metabolism, while in FL conditions the transcripts for nitrogen assimilation were strongly down-regulated. Many alterations were specific only for Δflv1/Δflv3, and not detected in Δflv1, suggesting that certain transcripts are affected primarily because of the lack of flv3. By constructing the strains overproducing solely either Flv1 or Flv3, we demonstrate that the homo-oligomers of these proteins also function in acclimation of cells to FL, by catalyzing reactions with as yet unidentified components, while the presence of both Flv1 and Flv3 is a prerequisite for the Mehler-like reaction and thus the electron transfer to O2. Considering the low expression of flv1, it is unlikely that the Flv1 homo-oligomer is present in the WT.

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Selenoprotein biosynthesis defect causes progressive encephalopathy with elevated lactate

Anttonen

Hilander

Linnankivi

et al. 2015

Neurology

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Objective: We aimed to decipher the molecular genetic basis of disease in a cohort of children with a uniform clinical presentation of neonatal irritability, spastic or dystonic quadriplegia, virtually absent psychomotor development, axonal neuropathy, and elevated blood/CSF lactate. Methods:We performed whole-exome sequencing of blood DNA from the index patients. Detected compound heterozygous mutations were confirmed by Sanger sequencing. Structural predictions and a bacterial activity assay were performed to evaluate the functional consequences of the mutations. Mass spectrometry, Western blotting, and protein oxidation detection were used to analyze the effects of selenoprotein deficiency.Results: Neuropathology indicated laminar necrosis and severe loss of myelin, with neuron loss and astrogliosis. In 3 families, we identified a missense (p.Thr325Ser) and a nonsense (p.Tyr429*) mutation in SEPSECS, encoding the O-phosphoseryl-tRNA:selenocysteinyl-tRNA synthase, which was previously associated with progressive cerebellocerebral atrophy. We show that the mutations do not completely abolish the activity of SEPSECS, but lead to decreased selenoprotein levels, with demonstrated increase in oxidative protein damage in the patient brain. Conclusions:These results extend the phenotypes caused by defective selenocysteine biosynthesis, and suggest SEPSECS as a candidate gene for progressive encephalopathies with lactate elevation. Neurology ® 2015;85:306-315 GLOSSARY PCH2D 5 pontocerebellar hypoplasia type 2D; PEHO 5 progressive encephalopathy with edema, hypsarrhythmia, and optic atrophy; RC 5 respiratory chain; SRM-MS 5 selected reaction monitoring-mass spectrometry; T 4 5 thyroxine; tRNA 5 transfer RNA; TSH 5 thyroid-stimulating hormone; T 3 5 triiodothyronine.Mitochondrial dysfunction is a frequent cause of childhood encephalopathy. Besides the typical multisystemic disorders, an increasing number of mitochondrial defects are shown to cause a CNS-specific phenotype.1-5 Lactate elevation raises suspicion of mitochondrial involvement and may be observed even in encephalopathies in which muscle biopsies show normal mitochondrial respiratory chain (RC) function. [1][2][3]6 Within our cohort of pediatric patients, we identified patients with an undefined cause of cerebellocerebral atrophy, seizures, severe spasticity, and axonal neuropathy with lactate elevation. We report that despite many of the clinical and neuropathologic signs pointing toward mitochondrial impairment, the patients had novel mutations in the SEPSECS gene, which functions in cytoplasmic transfer RNA (tRNA)-charging in the selenoprotein biosynthesis pathway. We describe the uniform clinical, neuroradiologic, and neuropathologic features of this entity and a detailed mutation *These authors contributed equally to this work.From the

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