Mechanisms and models of movement of protocells and bacteria in the early stages of evolution
A review of the physicochemical models of the movement of protocells and bacteria was performed. The mechanisms of gliding and movement based on flagella are considered. Based on the models, the average speed of movement of protocells and bacteria was calculated. A physicochemical model of bacterial...
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| Veröffentlicht in: | Progress in biophysics and molecular biology 2022-11, Vol.175, p.3-13 |
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| container_title | Progress in biophysics and molecular biology |
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| creator | Melkikh, A.V. Bondar, V.V. |
| description | A review of the physicochemical models of the movement of protocells and bacteria was performed. The mechanisms of gliding and movement based on flagella are considered. Based on the models, the average speed of movement of protocells and bacteria was calculated. A physicochemical model of bacterial gliding was constructed. The efficiency of the process of converting the energy of ATP into the energy of motion is estimated. A review of models of movement with the help of flagella was performed. A model has been constructed for converting ATP energy into proton and sodium motive forces, which, in turn, are converted into energy of rotor rotation. The problem of the accuracy of operation of nanomachines, on the basis of which the directed movement of bacteria occurs, is discussed. The considered models can be applied to create nanomotors for medical purposes. |
| doi_str_mv | 10.1016/j.pbiomolbio.2022.08.003 |
| format | Article |
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The mechanisms of gliding and movement based on flagella are considered. Based on the models, the average speed of movement of protocells and bacteria was calculated. A physicochemical model of bacterial gliding was constructed. The efficiency of the process of converting the energy of ATP into the energy of motion is estimated. A review of models of movement with the help of flagella was performed. A model has been constructed for converting ATP energy into proton and sodium motive forces, which, in turn, are converted into energy of rotor rotation. The problem of the accuracy of operation of nanomachines, on the basis of which the directed movement of bacteria occurs, is discussed. 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| ispartof | Progress in biophysics and molecular biology, 2022-11, Vol.175, p.3-13 |
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| subjects | Flagella Gliding Proton-motive force |
| title | Mechanisms and models of movement of protocells and bacteria in the early stages of evolution |
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