Elide Formentin scite author profile

PDZ motifs are modular protein–protein interaction domains, consisting of 80–120 amino acid residues, whose function appears to be the direction of intracellular proteins to multiprotein complexes. In skeletal muscle, there are a few known PDZ-domain proteins, which include neuronal nitric oxide synthase and syntrophin, both of which are components of the dystrophin complex, and actinin-associated LIM protein, which binds to the spectrin-like repeats of α-actinin-2. Here, we report the identification and characterization of a new skeletal muscle protein containing a PDZ domain that binds to the COOH-terminal region of α-actinin-2. This novel 31-kD protein is specifically expressed in heart and skeletal muscle. Using antibodies produced to a fragment of the protein, we can show its location in the sarcomere at the level of the Z-band by immunoelectron microscopy. At least two proteins, 32 kD and 78 kD, can be detected by Western blot analysis of both heart and skeletal muscle, suggesting the existence of alternative forms of the protein. In fact, several forms were found that appear to be the result of alternative splicing. The transcript coding for this Z-band alternatively spliced PDZ motif (ZASP) protein maps on chromosome 10q22.3-10q23.2, near the locus for infantile-onset spinocerebellar ataxia.

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A Thylakoid-Located Two-Pore K ⁺ Channel Controls Photosynthetic Light Utilization in Plants

Carraretto

Formentin

Teardo

et al. 2013

Science

144

120

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The size of the light-induced proton motive force (pmf) across the thylakoid membrane of chloroplasts is regulated in response to environmental stimuli. Here, we describe a component of the thylakoid membrane, the two-pore potassium (K(+)) channel TPK3, which modulates the composition of the pmf through ion counterbalancing. Recombinant TPK3 exhibited potassium-selective channel activity sensitive to Ca(2+) and H(+). In Arabidopsis plants, the channel is found in the thylakoid stromal lamellae. Arabidopsis plants silenced for the TPK3 gene display reduced growth and altered thylakoid membrane organization. This phenotype reflects an impaired capacity to generate a normal pmf, which results in reduced CO2 assimilation and deficient nonphotochemical dissipation of excess absorbed light. Thus, the TPK3 channel manages the pmf necessary to convert photochemical energy into physiological functions.

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Innovation, conservation, and repurposing of gene function in root cell type development

Kajala

Gouran

Shaar-Moshe

et al. 2021

Cell

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Innovation, conservation, and repurposing of gene function in root cell type development Graphical abstract Highlights d Tomato cell type-resolution translatome atlas reveals cell type function d Conservation and repurposing in gene regulation between Arabidopsis and tomato d The tomato exodermis is lignified, suberized, and enriched for nitrogen regulation d The root meristem is molecularly homologous across plant species

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Nitric oxide affects plant mitochondrial functionality in vivo

et al. 2002

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In this report, we show that nitric oxide affects mitochondrial functionality in plant cells and reduces total cell respiration due to strong inhibition of the cytochrome pathway. The residual respiration depends on the alternative pathway and novel synthesis of alternative oxidase occurs. These modifications are associated with depolarisation of the mitochondrial membrane potential and release of cytochrome c from mitochondria, suggesting a conserved signalling pathway in plants and animals. This signal cascade is triggered at the mitochondrial level and induces about 20% of cell death. In order to achieve a higher level of cell death, the addition of H 2 O 2 is necessary.

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Elide Formentin

ZASP: A New Z-band Alternatively Spliced PDZ-motif Protein

A Thylakoid-Located Two-Pore K ⁺ Channel Controls Photosynthetic Light Utilization in Plants

Innovation, conservation, and repurposing of gene function in root cell type development

Nitric oxide affects plant mitochondrial functionality in vivo

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Resources

About

Elide Formentin

ZASP: A New Z-band Alternatively Spliced PDZ-motif Protein

A Thylakoid-Located Two-Pore K + Channel Controls Photosynthetic Light Utilization in Plants

Innovation, conservation, and repurposing of gene function in root cell type development

Nitric oxide affects plant mitochondrial functionality in vivo

Contact Info

Product

Resources

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A Thylakoid-Located Two-Pore K ⁺ Channel Controls Photosynthetic Light Utilization in Plants