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https://www.selleckchem.com/ALK.html RNA G-quadruplexes (G4s) are secondary structures proposed to function as regulators of post-transcriptional mRNA localisation and translation. G4s within some neuronal mRNAs are known to control distal localisation and local translation, contributing to distinct local proteomes that facilitate the synaptic remodelling attributed to normal cellular function. In this study, we characterise the G4 formation of a (GGN)13 repeat found within the 5' UTR of the potassium 2-pore domain leak channel Task3 mRNA. Biophysical analyses show that this (GGN)13 repeat forms a parallel G4 in vitro exhibiting the stereotypical potassium specificity of G4s, remaining thermostable under physiological ionic conditions. Through mouse brain tissue G4-RNA immunoprecipitation, we further confirm that Task3 mRNA forms a G4 structure in vivo. The G4 is inhibitory to translation of Task3 in vitro and is overcome through activity of a G4-specific helicase DHX36, increasing K+ leak currents and membrane hyperpolarisation in HEK293 cells. Further, we observe that this G4 is fundamental to ensuring delivery of Task3 mRNA to distal primary cortical neurites. It has been shown that aberrant Task3 expression correlates with neuronal dysfunction, we therefore posit that this G4 is important in regulated local expression of Task3 leak channels that maintain K+ leak within neurons.Plants need efficient nitrate (NO3-) sensing systems and sophisticated signaling pathways to develop a wide range of adaptive responses to external fluctuations of NO3- supply. In Arabidopsis thaliana, numerous molecular regulators have been identified to participate in signaling pathways that respond specifically to NO3-. In contrast, only a single NO3- sensing system has been described to date, relying on the NRT1.1 (NPF6.3/CHL1) NO3- transceptor. NRT1.1 governs a wide range of responses to NO3-, from fast reprogramming of genome expression (the primary nitrate response) to longer-term d
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