Nadia Shivji scite author profile

Protein aggregation plays a key role in neurodegenerative disease, giving rise to small oligomers that may become cytotoxic to cells. The fundamental microscopic reactions taking place during aggregation, and their rate constants, have been difficult to determine due to lack of suitable methods to identify and follow the low concentration of oligomers over time. Here we use single-molecule fluorescence to study the aggregation of the repeat domain of tau (K18), and two mutant forms linked with familial frontotemporal dementia, the deletion mutant ΔK280 and the point mutant P301L. Our kinetic analysis reveals that aggregation proceeds via monomeric assembly into small oligomers, and a subsequent slow structural conversion step before fibril formation. Using this approach, we have been able to quantitatively determine how these mutations alter the aggregation energy landscape.

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Individual aggregates of amyloid beta induce temporary calcium influx through the cell membrane of neuronal cells

Drews

Flint

Shivji

et al. 2016

Sci Rep

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Local delivery of amyloid beta oligomers from the tip of a nanopipette, controlled over the cell surface, has been used to deliver physiological picomolar oligomer concentrations to primary astrocytes or neurons. Calcium influx was observed when as few as 2000 oligomers were delivered to the cell surface. When the dosing of oligomers was stopped the intracellular calcium returned to basal levels or below. Calcium influx was prevented by the presence in the pipette of the extracellular chaperone clusterin, which is known to selectively bind oligomers, and by the presence a specific nanobody to amyloid beta. These data are consistent with individual oligomers larger than trimers inducing calcium entry as they cross the cell membrane, a result supported by imaging experiments in bilayers, and suggest that the initial molecular event that leads to neuronal damage does not involve any cellular receptors, in contrast to work performed at much higher oligomer concentrations.

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Detecting RNA base methylations in single cells by in situ hybridization

et al. 2018

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Methylated bases in tRNA, rRNA and mRNA control a variety of cellular processes, including protein synthesis, antimicrobial resistance and gene expression. Currently, bulk methods that report the average methylation state of ~104–107 cells are used to detect these modifications, obscuring potentially important biological information. Here, we use in situ hybridization of Molecular Beacons for single-cell detection of three methylations (m62A, m1G and m3U) that destabilize Watson–Crick base pairs. Our method—methylation-sensitive RNA fluorescence in situ hybridization—detects single methylations of rRNA, quantifies antibiotic-resistant bacteria in mixtures of cells and simultaneously detects multiple methylations using multicolor fluorescence imaging.

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Detecting RNA base methylations in single cells by in situ hybridization (datasets)

Ranasinghe¹,

Challand²,

Ganzinger³

et al. 2017

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Gene expression in migrating GnRH-GFP neurons harvested by flow cytometry

Shivji

Karunadasa

Bicknell

2006

Frontiers in Neuroendocrinology

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Nadia Shivji

A mechanistic model of tau amyloid aggregation based on direct observation of oligomers

Individual aggregates of amyloid beta induce temporary calcium influx through the cell membrane of neuronal cells

Detecting RNA base methylations in single cells by in situ hybridization

Detecting RNA base methylations in single cells by in situ hybridization (datasets)

Gene expression in migrating GnRH-GFP neurons harvested by flow cytometry

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