TC
T.J. Cui
7 records found
1
Author Correction
MRNA structural dynamics shape Argonaute-target interactions (Nature Structural & Molecular Biology, (2020), 27, 9, (790-801), 10.1038/s41594-020-0461-1)
In the version of this article initially published, the data in Fig. 6h and Extended Data Fig. 6j were incorrect due to errors in the simulation code. The correct figures are shown below. The Fig. 6h caption has been updated to “Arrows indicate unmasking time of the best fit.”, a
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Small interfering RNAs (siRNAs) promote RNA degradation in a variety of processes and have important clinical applications. siRNAs direct cleavage of target RNAs by guiding Argonaute2 (AGO2) to its target site. Target site accessibility is critical for AGO2-target interactions, b
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Super-resolution imaging allows for the visualization of cellular structures on a nanoscale level. DNA-PAINT (DNA point accumulation in nanoscale topology) is a super-resolution method that depends on the binding and unbinding of DNA imager strands. The current DNA-PAINT techniqu
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A Random Walk Towards the Golden Fleece
Single-molecule Investigations of Argonaute Target Search
In this thesis we used single-molecule FRET to investigate the kinetic properties of a protein called Argonaute. While traditionally one uses bulk methods to investigate the molecular properties of proteins, bulk methods do not confer information that is transient, since that is
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Prokaryotic Argonaute proteins (pAgos) constitute a diverse group of endonucleases of which some mediate host defense by utilizing small interfering DNA guides (siDNA) to cleave complementary invading DNA. This activity can be repurposed for programmable DNA cleavage. However, cu
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Argonaute (Ago) proteins are of key importance in many cellular processes. In eukaryotes, Ago can induce translational repression followed by deadenylation and degradation of mRNA molecules through base pairing of microRNAs (miRNAs) with a complementary target on a mRNA sequence.
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At the core of homologous DNA repair, RecA catalyzes the strand exchange reaction. This process is initiated by a RecA loading protein, which nucleates clusters of RecA proteins on single-stranded DNA. Each cluster grows to cover the single-stranded DNA but may leave 1- to 2-nucl
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