鱿鱼神经元突触前末端hnRNPA/ b样蛋白的选择性RNA相互作用。

Q4 Neuroscience Invertebrate Neuroscience Pub Date : 2020-08-25 DOI:10.1007/s10158-020-00248-0
Gabriel S Lopes, Janaina Brusco, José C Rosa, Roy E Larson, Diego T P Lico
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引用次数: 3

摘要

在之前的工作中,我们在鱿鱼神经元的突触前末端发现了一个rna结合蛋白,该蛋白可能参与了局部mRNA的加工。有证据表明,这种被称为p65的强碱性蛋白是一种sds稳定的二聚体蛋白,由~ 37 kDa的hnRNPA/ b样亚基组成。p65在突触前区的功能尚不清楚。在这项工作中,我们发现p65及其亚基p37集中在突触体的rna富集区域。我们用重组蛋白进行了体外结合研究,发现其倾向于选择性地结合鱿鱼突触前末端的肌动蛋白mRNA。利用裂解的突触体进行生化分析表明,RNA完整性可能影响p65和p37的功能。质谱分析显示,鱿鱼hnRNPA1、hnRNPA1样蛋白2、hnRNPA3和elav样蛋白可与p65和p37相互作用,形成核糖核蛋白复合物,提示鱿鱼hnRNPA/ b样蛋白在位点特异性RNA加工中发挥作用。
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Selectively RNA interaction by a hnRNPA/B-like protein at presynaptic terminal of squid neuron.

In previous works, we identified a RNA-binding protein in presynaptic terminal of squid neurons, which is likely involved in local mRNA processing. Evidences indicate this strongly basic protein, called p65, is an SDS-stable dimer protein composed of ~ 37 kDa hnRNPA/B-like subunits. The function of p65 in presynaptic regions is not well understood. In this work, we showed p65 and its subunit p37 are concentrated in RNA-enriched regions in synaptosomes. We performed in vitro binding studies with a recombinant protein and showed its propensity to selectively bind actin mRNA at the squid presynaptic terminal. Biochemical analysis using lysed synaptosomes suggested RNA integrity may affect p65 and p37 functions. Mass spectrometry analysis of oligo(dT) pull down indicated squid hnRNPA1, hnRNPA1-like 2, hnRNPA3 and ELAV-like proteins as candidates to interact with p65 and p37 forming a ribonucleoprotein complex, suggesting a role of squid hnRNPA/B-like proteins in site-specific RNA processing.

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来源期刊
Invertebrate Neuroscience
Invertebrate Neuroscience NEUROSCIENCES-
自引率
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>12 weeks
期刊介绍: Invertebrate Neurosciences publishes peer-reviewed original articles, reviews and technical reports describing recent advances in the field of invertebrate neuroscience. The journal reports on research that exploits the simplicity and experimental tractability of the invertebrate preparations to underpin fundamental advances in neuroscience. Articles published in Invertebrate Neurosciences serve to highlight properties of signalling in the invertebrate nervous system that may be exploited in the field of antiparisitics, molluscicides and insecticides. Aspects of particular interest include: Functional analysis of the invertebrate nervous system; Molecular neuropharmacology and toxicology; Neurogenetics and genomics; Functional anatomy; Neurodevelopment; Neuronal networks; Molecular and cellular mechanisms of behavior and behavioural plasticity.
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