Artikel dengan mandat akses publik - Stephanie MajkutPelajari lebih lanjut
Tersedia di suatu tempat: 7
Mechanosensing by the lamina protects against nuclear rupture, DNA damage, and cell-cycle arrest
S Cho, M Vashisth, A Abbas, S Majkut, K Vogel, Y Xia, IL Ivanovska, ...
Developmental cell 49 (6), 920-935. e5, 2019
Mandat: US National Science Foundation, US National Institutes of Health
Heart-specific stiffening in early embryos parallels matrix and myosin expression to optimize beating
S Majkut, T Idema, J Swift, C Krieger, A Liu, DE Discher
Current biology 23 (23), 2434-2439, 2013
Mandat: US National Institutes of Health
Stress sensitivity and mechanotransduction during heart development
S Majkut, PCDP Dingal, DE Discher
Current Biology 24 (10), R495-R501, 2014
Mandat: US National Institutes of Health
Mechanical signaling coordinates the embryonic heartbeat
KK Chiou, JW Rocks, S Cho, KE Merkus, P Robison, M Tewari, K Vogel, ...
Biophysical Journal 110 (3), 120a, 2016
Mandat: US National Science Foundation, US National Institutes of Health, American …
Substrate stiffness-modulated registry phase correlations in cardiomyocytes map structural order to coherent beating
K Dasbiswas, S Majkut, DE Discher, SA Safran
Nature communications 6 (1), 6085, 2015
Mandat: US National Institutes of Health
Cardiomyocytes from late embryos and neonates do optimal work and striate best on substrates with tissue-level elasticity: metrics and mathematics
SF Majkut, DE Discher
Biomechanics and modeling in mechanobiology 11, 1219-1225, 2012
Mandat: US National Institutes of Health
Optimal development of matrix elasticity
S Majkut, T Idema, J Swift, C Krieger, A Liu, DE Discher
Current biology: CB 23 (23), 2434, 2013
Mandat: US National Institutes of Health
Informasi terbitan dan pendanaan ditentukan secara otomatis oleh program komputer