Needleman, D. & Dogic, Z. Active matter at the interface between materials science and cell biology. Nat. Rev. Mater 217048 (2017).
Ramaswamy, S. The mechanics and statistics of active matter. Annu. Rev. Condens. Matter Phys. 1323-345 (2010).
Marchetti, M. et al. Hydrodynamics of soft active matter. Rev. Mod. Fiz. 851143-1189 (2013).
Bowick, M., Fakhri, N., Marchetti, M. & Ramaswamy, S. Symmetry, thermodynamics, and topology in active matter. Fiz. Rev. X 12010501 (2022).
Yang, X. et al. Physical bioenergetics: energy fluxes, budgets, and constraints in cells. Proc. Natl Acad. Sci. ZDA 118, e2026786118 (2021).
Tan, T. et al. Self-organized stress patterns drive state transitions in actin cortices. Sci. Adv. 4, eaar2847 (2018).
Gladrow, J., Fakhri, N., MacKintosh, F. C., Schmidt, C. F. & Broedersz, C. P. Broken detailed balance of filament dynamics in active networks. Fiz. Rev. Lett. 116248301 (2016).
Landau, L., Lifshitz, E., Sykes, J., & Reid, W. Theory of Elasticity (Addison-Wesley 1959).
Brangwynne, C. P., Koenderink, G. H., MacKintosh, F. C. & Weitz, D. A. Nonequilibrium microtubule fluctuations in a model cytoskeleton. Fiz. Rev. Lett. 100118104 (2008).
England, J. L. Dissipative adaptation in driven self-assembly. Nat. Nanotehnol. 10919-923 (2015).
Mizuno, D., Tardin, C., Schmidt, C. F. & MacKintosh, F. C. Nonequilibrium mechanics of active cytoskeletal networks. Znanost 315370-373 (2007).
Battle, C. et al. Broken detailed balance at mesoscopic scales in active biological systems. Znanost 352604-607 (2016).
Egolf, D. A. Equilibrium regained: from nonequilibrium chaos to statistical mechanics. Znanost 287101-104 (2000).
Prost, J., Jülicher, F. & Joanny, J-F. Active gel physics. Nat. Fiz. 11111-117 (2015).
O’Byrne, J., Kafri, Y., Tailleur, J. & van Wijland, F. Time irreversibility in active matter, from micro to macro. Nat. Rev. Phys. 4167-183 (2022).
Gnesotto, F. S., Mura, F., Gladrow, J. & Broedersz, C. P. Broken detailed balance and non-equilibrium dynamics in living systems: a review. Rep. Phys. 81066601 (2018).
Fakhri, N. et al. High-resolution mapping of intracellular fluctuations using carbon nanotubes. Znanost 3441031-1035 (2014).
Fakhri, N., Tsyboulski, D. A., Cognet, L., Weisman, R. B. & Pasquali, M. Diameter-dependent bending dynamics of single-walled carbon nanotubes in liquids. Proc. Natl Acad. Sci. ZDA 10614219-14223 (2009).
Fakhri, N., MacKintosh, F. C., Lounis, B., Cognet, L. & Pasquali, M. Brownian motion of stiff filaments in a crowded environment. Znanost 3301804-1807 (2010).
Murrell, M. P. & Gardel, M. L. F-actin buckling coordinates contractility and severing in a biomimetic actomyosin cortex. Proc. Natl Acad. Sci. ZDA 10920820-20825 (2012).
Weiss, J. B. Coordinate invariance in stochastic dynamical systems. Tellus A 55208-218 (2003).
Crooks, G. E. Entropy production fluctuation theorem and the nonequilibrium work relation for free energy differences. Fiz. Rev. E 602721-2726 (1999).
Ro, S. et al. Model-free measurement of local entropy production and extractable work in active matter. Fiz. Rev. Lett. 129220601 (2022).
Harunari, P. E., Dutta, A., Polettini, M. & Roldán, É. What to learn from a few visible transitions’ statistics? Fiz. Rev. X 12041026 (2022).
van der Meer, J., Ertel, B. & Seifert, U. Thermodynamic inference in partially accessible Markov networks: a unifying perspective from transition-based waiting time distributions. Preprint at https://arxiv.org/abs/2203.07427 (2022).
van der Meer, J., Degünther, J. & Seifert, U. Time-resolved statistics of snippets as general framework for model-free entropy estimators. Preprint at https://arxiv.org/abs/2211.17032 (2022).
Roldán, E., Barral, J., Martin, P., Parrondo, J. M. R. & Jülicher, F. Quantifying entropy production in active fluctuations of the hair-cell bundle from time irreversibility and uncertainty relations. New J. Phys. 23083013 (2021).
Tucci, G. et al. Modeling active non-Markovian oscillations. Fiz. Rev. Lett. 129030603 (2022).
Skinner, D. J. & Dunkel, J. Improved bounds on entropy production in living systems. Proc. Natl Acad. Sci. ZDA 118, e2024300118 (2021).
Weiss, J. B., Fox-Kemper, B., Mandal, D., Nelson, A. D. & Zia, R. K. P. Nonequilibrium oscillations, probability angular momentum, and the climate system. J. Stat. Phys. 1791010-1027 (2020).
Gonzalez, J. P., Neu, J. C. & Teitsworth, S. W. Experimental metrics for detection of detailed balance violation. Fiz. Rev. E 99022143 (2019).
Zia, R. K. P., Weiss, J. B., Mandal, D. & Fox-Kemper, B. Manifest and subtle cyclic behavior in nonequilibrium steady states. J. Phys. konf. Ser. 750012003 (2016).
Li, J., Horowitz, J. M., Gingrich, T. R. & Fakhri, N. Quantifying dissipation using fluctuating currents. Nat. Komun. 101666 (2019).
Guo, M. et al. Probing the stochastic, motor-driven properties of the cytoplasm using force spectrum microscopy. Celica 158822-832 (2014).
MacKintosh, F. C. & Levine, A. J. Nonequilibrium mechanics and dynamics of motor-activated gels. Fiz. Rev. Lett. 100018104 (2008).
Malik-Garbi, M. et al. Scaling behaviour in steady-state contracting actomyosin networks. Nat. Fiz. 15509-516 (2019).
MacKintosh, F. C., Käs, J. & Janmey, P. A. Elasticity of semiflexible biopolymer networks. Fiz. Rev. Lett. 754425-4428 (1995).
Valentine, M. T., Perlman, Z. E., Mitchison, T. J. & Weitz, D. A. Mechanical properties of Xenopus egg cytoplasmic extracts. Biofiza. J. 88680-689 (2005).
Field, C. M., Pelletier, J. F. & Mitchison, T. J. in Methods in Cell Biology: Cytokinesis Vol. 137 (ed. Echard, A.) 395–435 (Academic, 2017).
Riedl, J. et al. Lifeact: a versatile marker to visualize F-actin. Nat. Metode 5605-607 (2008).
Chen, D. T., Heymann, M., Fraden, S., Nicastro, D. & Dogic, Z. ATP consumption of eukaryotic flagella measured at a single-cell level. Biofiza. J. 1092562-2573 (2015).
Ruhnow, F., Zwicker, D. & Diez, S. Tracking single particles and elongated filaments with nanometer precision. Biofiza. J. 1002820-2828 (2011).
- Distribucija vsebine in PR s pomočjo SEO. Okrepite se še danes.
- PlatoAiStream. Podatkovna inteligenca Web3. Razširjeno znanje. Dostopite tukaj.
- Kovanje prihodnosti z Adryenn Ashley. Dostopite tukaj.
- Kupujte in prodajajte delnice podjetij pred IPO s PREIPO®. Dostopite tukaj.
- vir: https://www.nature.com/articles/s41565-023-01395-2
- ][str
- 1
- 10
- 100
- 11
- 116
- 12
- 13
- 14
- 15%
- 1999
- 20
- 2011
- 2012
- 2014
- 2015
- 2016
- 2017
- 2018
- 2019
- 2020
- 2021
- 2022
- 22
- 23
- 24
- 250
- 26
- 27
- 28
- 30
- 39
- 40
- 7
- 8
- 9
- a
- akademsko
- dostopen
- aktivna
- dejavnost
- prilagoditev
- AL
- in
- Kotna
- članek
- AS
- At
- Ravnovesje
- med
- biologija
- Broken
- Proračuni
- Sveženj
- ogljika
- ogljikove nanocevke
- Celice
- Chaos
- klik
- Podnebne
- omejitve
- poraba
- pogodbeno
- koordinate
- podrobno
- Odkrivanje
- razlike
- Distribucije
- pogon
- vozi
- dinamika
- e
- E&T
- ed
- energija
- okolje
- Equilibrium
- Eter (ETH)
- Izvlečki
- Nekaj
- nihanje
- nihanja
- za
- moč
- Okvirni
- brezplačno
- iz
- splošno
- visoka ločljivost
- Horowitz
- http
- HTTPS
- izboljšalo
- in
- vmesnik
- UČITE
- Stopnja
- LINK
- živi
- lokalna
- Makro
- kartiranje
- marker
- Martin
- materiali
- Matter
- Merjenje
- mehanska
- mehanika
- Meritve
- Mikroskopija
- Model
- modeliranje
- Momentum
- motion
- Narava
- omrežij
- of
- on
- vzorci
- perspektiva
- fizično
- Fizika
- platon
- Platonova podatkovna inteligenca
- PlatoData
- Precision
- verjetnost
- proizvodnja
- Lastnosti
- Razmerje
- Odnosi
- pregleda
- s
- luske
- skaliranje
- SCI
- Znanost
- sam
- Soft
- Spectrum
- Država
- Države
- Statistično
- Statistika
- dinamičnega ravnovesja
- stres
- sistem
- sistemi
- O
- čas
- do
- Sledenje
- prehodi
- Negotovost
- uporabo
- vsestranski
- POVREDA
- vidna
- W
- Čakam
- Weiss
- Kaj
- z
- delo
- X
- zefirnet