FEBS Journal Editor’s choice: the research article about peptide modulator of ASIC1a with a unique structure

Researchers from Laboratory of Neuroreceptors and Neuroregulators and Laboratory of Biomolecular NMR-Spectroscopy of IBCh RAS, together with the Laboratory of Biological Testing of the BIBCh, isolated and characterized Ms13-1, a new peptide of the sea anemone Metridium senile with a unique 3D-structure and a pronounced selective effect on acid-sensing ion channels ASIC1a. Ms13-1 has a spatial fold named the "Cys-ladder" by the authors, and is a member of a novel structural class. In the nanomolar range, Ms 13-1 acts as a positive allosteric modulator of ASIC1a, and the injection of the peptide into the mouse hind paw causes pain, which is suppressed by the selective antagonist of ASIC1. The work was published in the FEBS Journal and was marked as the Editors' choice for the May issue. Learn more

News

  • Why is the bush cricket green? science news V.30

    A team of scientists with the participation of researchers from the Institute of Bioorganic Chemistry RAS has revealed the nature of the green pigment in the bush cricket Tettigonia cantans. It turned out that the bush cricket owes its protective coloration to a chromoprotein with a unique fold that contains two chromophores simultaneously. One of them is a yellow carotenoid, and the other is a blue bilin. The mixture of the two colors results in a bright green coloration, practically indistinguishable from grass and allowing the animal to cleverly hide. The work has been published in PNAS.

  • FEBS Journal Editor’s choice: the research article about peptide modulator of ASIC1a with a unique structure science news V.29

    Researchers from Laboratory of Neuroreceptors and Neuroregulators and Laboratory of Biomolecular NMR-Spectroscopy of IBCh RAS, together with the Laboratory of Biological Testing of the BIBCh, isolated and characterized Ms13-1, a new peptide of the sea anemone Metridium senile with a unique 3D-structure and a pronounced selective effect on acid-sensing ion channels ASIC1a. Ms13-1 has a spatial fold named the "Cys-ladder" by the authors, and is a member of a novel structural class. In the nanomolar range, Ms 13-1 acts as a positive allosteric modulator of ASIC1a, and the injection of the peptide into the mouse hind paw causes pain, which is suppressed by the selective antagonist of ASIC1. The work was published in the FEBS Journal and was marked as the Editors' choice for the May issue.

  • Redox differences between neurons and astrocytes in vivo in ischemic brain tissues of rodents science news V.21

    Combinations of novel in vivo approaches allow to detail redox events with high spatiotemporal resolution in the brain tissues of laboratory animals. We demonstrated redox differences between neurons and astrocytes in damaged brain areas of rodents in vivo during ischemic stroke in model of middle cerebral artery occlusion in rats and photothrombosis model in mice. Using highly sensitive genetically encoded biosensor HyPer7 and a fiber-optic neurointerface technology, we demonstrated that astrocytes differ from neurons in elevated hydrogen peroxide levels in the ischemic brain area of rats. Raman microspectroscopy also revealed the overloading of the mitochondrial electron transport chain precisely in astrocytes in the brain tissues of awake mice during acute ischemia. The results are published in Antioxidants & Redox Signaling.