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Jiarui Wang
Stanford University
10Publications
3H-index
82Citations
Publications 10
Newest
Xiaofeng Zhou (Stanford University), Jiarui Wang3
Estimated H-index: 3
(Stanford University)
+ 2 AuthorsLucy Shapiro72
Estimated H-index: 72
(Stanford University)
The cell cycle-regulated methylation state of Caulobacter DNA mediates the temporal control of transcriptional activation of several key regulatory proteins. Temporally controlled synthesis of the CcrM DNA methyltransferase and Lon-mediated proteolysis restrict CcrM to a specific time in the cell cycle, thereby allowing the maintenance of the hemimethylated state of the chromosome during the progression of DNA replication. We determined that a chromosomal DNA-based platform stimulates CcrM degra...
Published on Oct 3, 2018in Journal of the American Chemical Society 14.70
Peter D. Dahlberg12
Estimated H-index: 12
(Stanford University),
Annina M. Sartor1
Estimated H-index: 1
(Stanford University)
+ 3 AuthorsW. E. Moerner71
Estimated H-index: 71
(Stanford University)
Single-molecule super-resolution fluorescence microscopy conducted in vitrified samples at cryogenic temperatures offers enhanced localization precision due to reduced photobleaching rates, a chemical-free and rapid fixation method, and the potential of correlation with cryogenic electron microscopy. Achieving cryogenic super-resolution microscopy requires the ability to control the sparsity of emissive labels at cryogenic temperatures. Obtaining this control presents a key challenge for the dev...
Camille Bayas1
Estimated H-index: 1
(Stanford University),
Jiarui Wang3
Estimated H-index: 3
(Stanford University)
+ -3 AuthorsW. E. Moerner71
Estimated H-index: 71
(Stanford University)
We report the dynamic spatial organization of Caulobacter crescentus RNase E (RNA degradosome) and ribosomal protein L1 (ribosome) using 3D single-particle tracking and superresolution microscopy. RNase E formed clusters along the central axis of the cell, while weak clusters of ribosomal protein L1 were deployed throughout the cytoplasm. These results contrast with RNase E and ribosome distribution in Escherichia coli , where RNase E colocalizes with the cytoplasmic membrane and ribosomes accum...
Published on Feb 1, 2018in Biophysical Journal 3.67
Camille Bayas1
Estimated H-index: 1
,
Jiarui Wang3
Estimated H-index: 3
+ 3 AuthorsW. E. Moerner71
Estimated H-index: 71
Published on Feb 1, 2018in Biophysical Journal 3.67
Jiarui Wang3
Estimated H-index: 3
,
Lucy Shapiro72
Estimated H-index: 72
,
W. E. Moerner71
Estimated H-index: 71
Published on Feb 1, 2018in Biophysical Journal 3.67
Annina M. Sartor1
Estimated H-index: 1
,
Peter D. Dahlberg12
Estimated H-index: 12
+ 2 AuthorsW. E. Moerner71
Estimated H-index: 71
Published on Nov 11, 2015in Journal of the American Chemical Society 14.70
Krishna C. Suddala8
Estimated H-index: 8
(UM: University of Michigan),
Jiarui Wang3
Estimated H-index: 3
(UM: University of Michigan)
+ 1 AuthorsNils G. Walter44
Estimated H-index: 44
Bacterial riboswitches couple small-molecule ligand binding to RNA conformational changes that widely regulate gene expression, rendering them potential targets for antibiotic intervention. Despite structural insights, the ligand-mediated folding mechanisms of riboswitches are still poorly understood. Using single-molecule fluorescence resonance energy transfer (smFRET), we have investigated the folding mechanism of an H-type pseudoknotted preQ1 riboswitch in dependence of Mg2+ and three ligands...
Published on May 1, 2015in Biopolymers 1.84
Rebecca M. Bartke , Elizabeth L. Cameron2
Estimated H-index: 2
+ 23 AuthorsJ. Damon Hoff2
Estimated H-index: 2
Four days after the announcement of the 2014 Nobel Prize in Chemistry for “the development of super-resolved fluorescence microscopy” based on single molecule detection, the Single Molecule Analysis in Real-Time (SMART) Center at the University of Michigan hosted a “Principles of Single Molecule Techniques 2014” course. Through a combination of plenary lectures and an Open House at the SMART Center, the course took a snapshot of a technology with an especially broad and rapidly expanding range o...
Published on May 1, 2015in Biopolymers 1.84
Rebecca M. Bartke (UM: University of Michigan), Elizabeth L. Cameron2
Estimated H-index: 2
(UM: University of Michigan)
+ 23 AuthorsJ. Damon Hoff2
Estimated H-index: 2
(UM: University of Michigan)
Four days after the announcement of the 2014 Nobel Prize in Chemistry for “the development of super-resolved fluorescence microscopy” based on single molecule detection, the Single Molecule Analysis in Real-Time (SMART) Center at the University of Michigan hosted a “Principles of Single Molecule Techniques 2014” course. Through a combination of plenary lectures and an Open House at the SMART Center, the course took a snapshot of a technology with an especially broad and rapidly expanding range o...
12