Ned S. Wingreen

Research activity per year

If you made any changes in Pure these will be visible here soon.

Fingerprint

Dive into the research topics where Ned S. Wingreen is active. These topic labels come from the works of this person. Together they form a unique fingerprint.

1 Similar Profiles

2 Active
3 Finished

Learning principles from the pyrenoid, a phase-separated organelle
Wingreen, N. S.
NIH NIGMS
1/1/21 → 12/31/24
Project: Research project
Cell-cell Interactions and the Development of Bacterial Communities
Wingreen, N. S.
NIH NIGMS
9/1/17 → 7/31/22
Project: Research project
INSPIRE Track 1: Resolving and Optogenetically Perturbing Biofilms at the Single-Cell Level
Wingreen, N. S.
NSF - National Science Foundation
3/15/14 → 2/28/18
Project: Research project
Excitability in Dictyostelium Development
Wingreen, N. S.
NIH NIGMS
9/1/12 → 8/31/14
Project: Research project
History Dependence of Chemosensing Strategy in Escherichia Coli
Wingreen, N. S.
NIH NIGMS
9/1/12 → 8/31/17
Project: Research project

21823 Citations
66 h-Index
206 Article
8 Review article
3 Comment/debate
3 Short survey
More

A biophysical limit for quorum sensing in biofilms
Narla, A. V., Borenstein, D. B. & Wingreen, N. S., May 25 2021, In: Proceedings of the National Academy of Sciences of the United States of America. 118, 21, e2022818118.
Research output: Contribution to journal › Article › peer-review

Open Access
1 Scopus citations
Active phase separation by turning towards regions of higher density
Zhang, J., Alert, R., Yan, J., Wingreen, N. S. & Granick, S., Aug 2021, In: Nature Physics. 17, 8, p. 961-967 7 p.
Research output: Contribution to journal › Article › peer-review
2 Scopus citations
Chromatin mechanics dictates subdiffusion and coarsening dynamics of embedded condensates
Lee, D. S. W., Wingreen, N. S. & Brangwynne, C. P., Apr 2021, In: Nature Physics. 17, 4, p. 531-538 8 p.
Research output: Contribution to journal › Article › peer-review
8 Scopus citations
Competitive binding of independent extension and retraction motors explains the quantitative dynamics of type IV pili
Koch, M. D., Fei, C., Wingreen, N. S., Shaevitz, J. W. & Gitai, Z., Feb 23 2021, In: Proceedings of the National Academy of Sciences of the United States of America. 118, 8, e2014926118.
Research output: Contribution to journal › Article › peer-review
2 Scopus citations
Decoding the physical principles of two-component biomolecular phase separation
Zhang, Y., Xu, B., Weiner, B. G., Meir, Y. & Wingreen, N. S., Mar 2021, In: eLife. 10, e62403.
Research output: Contribution to journal › Article › peer-review

Open Access
2 Scopus citations

Ned S. Wingreen

Fingerprint

Network

Dive into details

Learning principles from the pyrenoid, a phase-separated organelle

Cell-cell Interactions and the Development of Bacterial Communities

INSPIRE Track 1: Resolving and Optogenetically Perturbing Biofilms at the Single-Cell Level

Excitability in Dictyostelium Development

History Dependence of Chemosensing Strategy in Escherichia Coli

A biophysical limit for quorum sensing in biofilms

Active phase separation by turning towards regions of higher density

Chromatin mechanics dictates subdiffusion and coarsening dynamics of embedded condensates

Competitive binding of independent extension and retraction motors explains the quantitative dynamics of type IV pili

Decoding the physical principles of two-component biomolecular phase separation

Ned S. Wingreen

Fingerprint

Network

Projects

Research output