Microtubules soften due to cross-sectional flattening

Journal article

Open access

Peer reviewed

Edvin Memet, Feodor Hilitski, Margaret A. Morris, Walter J. Schwenger, Zvonimir Dogic, L. Mahadevan and Harvard Univ., Cambridge, MA (United States)

eLife, Vol.7, e34695

06/01/2018

PMID: 29856317

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Title: Microtubules soften due to cross-sectional flattening
Creators: Edvin Memet - Harvard University
Feodor Hilitski - Brandeis University
Margaret A. Morris - Brandeis University
Walter J. Schwenger - Brandeis University
Zvonimir Dogic - Brandeis University, Martin A. Fisher School of Physics
L. Mahadevan - Harvard University
Harvard Univ., Cambridge, MA (United States)
Publication Details: eLife, Vol.7, e34695
Grant note: U.S. Department of Energy (http://data.elsevier.com/vocabulary/SciValFunders/100000015) NSF-DMR-1420382; NSF-MCB-1329623 / National Science Foundationthrough 1420382; 1329623; NSF DMR 14-20570; 1420382; 1329623; 1420382 / National Science Foundation (http://data.elsevier.com/vocabulary/SciValFunders/100000001) NSF DMR 14-20570 / National Science Foundation (100000001) NSF-MRSEC-1420382; DMR 14-20570 / Materials Research Science and Engineering Center, Harvard University (http://data.elsevier.com/vocabulary/SciValFunders/100013111) NSF-DMR-1420382 / National Science Foundation (100000001) NSF-MRSEC-1420382 / National Science Foundation (100000001) DE-SC0010432TDD / Basic Energy Sciences (http://data.elsevier.com/vocabulary/SciValFunders/100006151) DE-SC0010432TDD / U.S. Department of Energy (100000015) NSF-MCB-1329623 / National Science Foundation (100000001)
Identifiers: 9924552834101921
Academic Unit: Martin A. Fisher School of Physics
Language: English
Resource Type: Journal article