Spatiotemporal regulation of GSK3? levels by miRNA-26a controls axon development in cortical neurons

Lucci, Cristiano; Mesquita-Ribeiro, Raquel; Rathbone, Alex; Dajas-Bailador, Federico

doi:10.1242/dev.180232

All Outputs (3)

PDCD4 regulates axonal growth by translational repression of neurite growth-related genes and is modulated during nerve injury responses (2020)
Journal Article
Di Paolo, A. P., Eastman, G., Mesquita Ribeiro, R., Farias, J., Macklin, A., Kislinger, T., …Sotelo Silveira, J. R. (2020). PDCD4 regulates axonal growth by translational repression of neurite growth-related genes and is modulated during nerve injury responses. RNA, 26(11), 1637-1653. https://doi.org/10.1261/rna.075424.120

© 2020 Di Paolo et al. Programmed cell death 4 (PDCD4) protein is a tumor suppressor that inhibits translation through the mTOR-dependent initiation factor EIF4A, but its functional role and mRNA targets in neurons remain largely unknown. Our work id... Read More about PDCD4 regulates axonal growth by translational repression of neurite growth-related genes and is modulated during nerve injury responses.

Self-activated photoblinking of nitrogen vacancy centers in nanodiamonds (sandSTORM): A method for rapid single molecule localization microscopy with unlimited observation time (2020)
Working Paper
Narayanasamy, K. K., Price, J. C., Mesquita-Riberio, R., Mather, M. L., & Jayasinghe, I. Self-activated photoblinking of nitrogen vacancy centers in nanodiamonds (sandSTORM): A method for rapid single molecule localization microscopy with unlimited observation time

Stochastic optical reconstruction microscopy (STORM) is one of the most commonly used super-resolution microscopy techniques. Popular implementations of STORM utilize aromatic fluorophores and consist of a number of intrinsic limitations such the fin... Read More about Self-activated photoblinking of nitrogen vacancy centers in nanodiamonds (sandSTORM): A method for rapid single molecule localization microscopy with unlimited observation time.

Spatiotemporal regulation of GSK3? levels by miRNA-26a controls axon development in cortical neurons (2020)
Journal Article
Lucci, C., Mesquita-Ribeiro, R., Rathbone, A., & Dajas-Bailador, F. (2020). Spatiotemporal regulation of GSK3? levels by miRNA-26a controls axon development in cortical neurons. Development, 147(3), https://doi.org/10.1242/dev.180232

© 2020. Published by The Company of Biologists Ltd. Both the establishment of neuronal polarity and axonal growth are crucial steps in the development of the nervous system. The local translation of mRNAs in the axon provides precise regulation of pr... Read More about Spatiotemporal regulation of GSK3? levels by miRNA-26a controls axon development in cortical neurons.