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Biotechnology / Microfluidics / Nanotechnology / Cell growth / Bacterial growth / Bacteria / Biology / Bacteriology / Microbiology


Biomechanical ordering of dense cell populations Dmitri Volfson*†‡§, Scott Cookson*‡, Jeff Hasty*†, and Lev S. Tsimring†¶ *Department of Bioengineering and †Institute for Nonlinear Science, University of Ca
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Document Date: 2013-10-11 13:34:13

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File Size: 1,68 MB

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City

La Jolla / San Diego / Oxford / /

Company

Vincent Associates / Oxford Univ Press / ITT Visual Information Solutions / ABC / Dow Corning / Nikon / San Diego Integrated Technology Laboratory / HP / Sequenom Inc. / Corning / /

Currency

pence / /

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Event

Natural Disaster / /

Facility

University of California Mexus-Consejo Nacional de Ciencia / University of California / /

IndustryTerm

experimental protocol / microfluidic device / image segmentation software suite / organized systems / thermal systems / aqueous media / aquatic systems / /

MedicalCondition

Pseudomonas / /

MusicAlbum

L.S.T. / /

Organization

Institute for Nonlinear Science / National Science Foundation / Department of Bioengineering / National Academy of Sciences / University of California at San Diego / /

Person

Denis Boyer / Jeff Hasty / Narayan V / Dmitri Volfson / Natalie Ostroff / Jian Liu / Lev S. Tsimring / Scott Cookson / Charles R. Cantor / Pzz / Rosetta Inpharmatics / /

Position

cell Author / Model / /

ProgrammingLanguage

LabVIEW / /

ProvinceOrState

South Carolina / California / /

Technology

Electrophoresis / gene expression / ATM / cell signaling / lithography / experimental protocol / simulation / microfluidics / CAD / /

URL

www.pnas.org兾cgi兾doi兾10.1073兾pnas.0706805105 / www.pnas.org/cgi/content/full / /

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