Vincent Noireaux
University of Minnesota
124 Papers
462 Citations
Vincent Noireaux is an academic researcher from University of Minnesota. The author has contributed to research in topics: Synthetic biology & Biology. The author has an hindex of 36, co-authored 112 publications. Previous affiliations of Vincent Noireaux include Rockefeller University & Curie Institute.
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Papers
In Vivo Imaging of Quantum Dots Encapsulated in Phospholipid Micelles
Benoit Dubertret,Paris A. Skourides,David J. Norris,David J. Norris,Vincent Noireaux,Ali H. Brivanlou,Albert Libchaber +6 more
TL;DR: C encapsulated individual nanocrystals in phospholipid block–copolymer micelles acted as in vitro fluorescent probes to hybridize to specific complementary sequences and were followed to the tadpole stage, allowing lineage-tracing experiments in embryogenesis.
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A vesicle bioreactor as a step toward an artificial cell assembly
TL;DR: The alpha-hemolysin pore protein from Staphylococcus aureus is expressed inside the vesicle to create a selective permeability for nutrients to solve the energy and material limitations and increase the capacity of the reactor.
An E. coli Cell-Free Expression Toolbox: Application to Synthetic Gene Circuits and Artificial Cells
Jonghyeon Shin,Vincent Noireaux +1 more
TL;DR: The construction and the phenomenological characterization of synthetic gene circuits engineered with a cell-free expression toolbox that works with the seven E. coli sigma factors are reported, revealing the importance of the global mRNA turnover rate and of passive competition-induced transcriptional regulation.
The All E. coli TX-TL Toolbox 2.0: A Platform for Cell-Free Synthetic Biology.
TL;DR: The performance and properties of a recently developed, all Escherichia coli, cell-free transcription and translation system, which is entirely based on the endogenous translation components and transcription machinery provided by an E. coli cytoplasmic extract, are reported on.
427
Programmable on-chip DNA compartments as artificial cells
TL;DR: A highly miniaturized cell-free system on a silicon chip that recreated oscillating protein expression patterns and protein gradients, and provides a stepping stone to creating “artificial cells” on a chip.
277