Modern Trends in Structural and Solid Mechanics 3. Группа авторов

Чтение книги онлайн.

СКАЧАТЬ I am pleased to honor Isaac by presenting a summary of some interesting aspects of the functioning of the mitochondria, an organelle that exists in large numbers in most of our cells. It creates the energy that our bodies require in order to live, survive and think. This community has much to offer in helping to increase our understanding of these beyond-complicated processes. I am sure that Isaac would agree.

      Congratulations Isaac, for what you have achieved so far, and for what you will continue to contribute!

1.12. References

      Adiele, R.C. and Adiele, C.A. (2019). Metabolic defects in multiple sclerosis. Mitochondrion, 44, 7–14.

      Baker, N., Patel, J., Khacho, M. (2019). Linking mitochondrial dynamics, cristae remodeling and supercomplex formation: How mitochondrial structure can regulate bioenergetics. Mitochondrion, 49, 259–268.

      Beard, D.A. (2005). A biophysical model of the mitochondrial respiratory system and oxidative phosphorylation. PLoS Comput. Biol., 1(4), 252–264.

      Benard, G., Bellance, N., James, D., Parrone, P., Fernandez, H., Letellier, T., Rossignol, R. (2007). Mitochondrial bioenergetics and structural network organization. J. Cell Sci., 120(5), 838–848.

      Benaroya, H. (2020). Brain energetics, mitochondria, and traumatic brain injury. Rev. Neurosci. [Online]. Available at: https://doi.org/10.1515/revneuro-2019-0086.

      Bertram, R., Pedersen, M.G., Luciani, D.S., Sherman, A. (2006). A simplified model for mitochondrial ATP production. J. Theor. Biol., 243, 575–586.

      Buhlman, L.M. (2016). Mitochondrial Mechanisms of Degeneration and Repair in Parkinson’s Disease. Springer Nature, Cham, Switzerland.

      Castora, F.J. (2019). Mitochondrial function and abnormalities implicated in the pathogenesis of ASD. Prog. Neuropsychopharmacol. Biol. Psychiatry, 92, 83–108.

      Chan, F., Lax, N.Z., Voss, C.M., Aldana, B.I., Whyte, S., Jenkins, A., Nicholson, C., Nichols, S., Tilley, E., Powell, Z., Waagepetersen, H.S., Davies, C.H., Turnbull, D.M., Cunningham, M.O. (2019). The role of astrocytes in seizure generation: Insights from a novel in vitro seizure model based on mitochondrial dysfunction. Brain, 142, 391–411.

      Chauhan, A., Vera, J., Wolkenhauer, O. (2014). The systems biology of mitochondrial fission and fusion and implications for disease and aging. Biogerontology, 15, 1–12.

      Chen, Y., Meyer, J.N., Hill, H.Z., Lange, G., Condon, M.R., Klein, J.C., Ndirangul, D., Falvo, M.J. (2017). Role of mitochondrial DNA damage and dysfunction on veterans with Gulf War Illness. PLoS One, 12(9), e0184832.

      Correia, S.C. and Moreira, P.I. (2018). Role of mitochondria in neurodegenerative diseases: The dark side of the “energy factory”. In Mitochondrial Biology and Experimental Therapeutics, Oliviera, P.J. (ed.). Springer Nature, Cham, Switzerland.

Diogo, C.V., Yambire, K.F., Mosquera, L.F., Branco, T., Raimundo, N. (2018). Mitochondrial adventures at the organelle society. Biochem. Biophys. Res. Commun., 500, 87–93.

      Eisner, V., Picard, M., Hajnóczky, G. (2018). Mitochondrial dynamics in adaptive and maladaptive cellular stress responses. Nat. Cell Biol., 20, 755–765.

      Elfawy, H.A. and Das, B. (2019). Crosstalk between mitochondrial dysfunction, oxidative stress, and age related neurodegenerative disease: Etiologies and therapeutic strategies. Life Sci., 218, 165–184.

      Elishakoff, I. and Zingales, M. (2003). Contrasting probabilistic and anti-optimization approaches in an applied mechanics problem. Int. J. Solids Struct., 40, 4281–4297.

      Elishakoff, I., Haftka, R.T., Fang, J. (1994). Structural design under bounded uncertainty – Optimization with anti-optimization. Comp. Struct., 53(6), 1401–1405.

      Feng, Q. and Kornmann, B. (2018). Mechanical forces on cellular organelles. J. Cell Sci., 131, 1–9.

      Ghochani, M., Nulton, J.D., Salamon, P., Frey, T.G., Rabinovitch, A., Baljon, A.R.C. (2010). Tensile forces and shape entropy explain observed crista structure in mitochondria. Biophys. J., 99, 3244–3254.

      Giorgi, C., De Stefani, D., Bononi, A., Rizzuto, R., Pinton, P. (2009). Structural and functional link between the mitochondrial networks and the endoplasmic reticulum. Int. J. Biochem. Cell Biol., 41(10), 1817–1827.

      Kembro, J.M., Aon, M.A., Winslow, R.L., O’Rourke, B., Cortassa, S. (2013). Integrating mitochondrial energetics, Redox and ROS metabolic networks: A two-compartment model. Biophys. J., 104, 332–343.

      Koslik, H.J., Hamilton, G., Golomb, B.A. (2014). Mitochondrial dysfunction in Gulf War Illness revealed by 31Phosphorus magnetic resonance spectroscopy: A case-control study. PLoS One, 9(3), e92887.

      Kurt, B. and Topal, T. (2013). Mitochondrial disease. Dis. Mol. Med., 1(1), 11–14.

      Lackner, L.L. (2014). Shaping the dynamic mitochondrial network. BMC Biol., 12, 35.

      Lemonde, H. and Rahman, S. (2014). Inherited mitochondrial disease. Pediatr. Child Health, 25(3), 133–138.

      Lim, C.T., Zhou, E.H., Quek, S.T. (2006). Mechanical models for living cells – A review. J. Biomech., 39, 195–216.

      Mannella, C.A., Lederer, W.J., Jafri, M.S. (2013). The connection between inner membrane topology and mitochondrial function. J. Mol. Cell Cardiol., 62, 51–57.

      Marchi, S., Patergnani, S., Pinton, P. (2014). The endoplasmic reticulum–mitochondria connection: One touch multiple functions. Biochim. Biophys. Acta, 1837, 461–469.

      Moeendarbary, E. and Harris, A.R. (2014). Cell mechanics: Principles, practices, and prospects. WIRE’s Sys. Bio. Med., 6, 371–388.

Pagliuso, A., Cossart, P., Stavru, F. (2018). The ever-growing complexity of the mitochondrial fission machinery. Cell Mol. Life Sci., 75, 355–374.

      Panchal, K. and Tiwari, A.K. (2019). Mitochondrial dynamics, a key executioner in neurodegenerative diseases. Mitochondrion, 47, 151–173.

      Patel, P.K., Shirihai, O., Huang, K.C. (2013). Optimal dynamics for quality control in spatially distributed mitochondrial networks. PLOS Comput. Biol., 9(e1003108), 1–11.

      Petridou, N.I., Spiró, Z., Heisenberg, C.-P. (2017). Multiscale force sensing in development. Nat. Cell Biol., 19(6), 581–588.

      Qi, H., Li, L., Shuai, J. (2015). Optimal microdomain crosstalk between endoplasmic reticulum and mitochondria for Ca²⁺ oscillations. Scientific Reports, 5(7984). DOI:10.1038/srep07984.

      Qiu, Z. and Elishakoff, I. (2001). Anti-optimization technique – A generalization of interval analysis for nonprobabilistic treatment of uncertainty. Chaos Soliton Fract., 12, 1747–1759.

      Rossi, M.J. and Pekkurnaz, G. (2019). Powerhouse of the mind: Mitochondrial plasticity at the synapse. Curr. Opin. Neurobiol., 57, 149–155.

      Saa, A. and Siqueira, K.M. (2013). Modeling ATP production in mitochondria. Bull. Math. Biol., 75, 1636–1651.

СКАЧАТЬ