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Literature DB >> 16620869

A physical model for galvanotaxis of Paramecium cell.

Naoko Ogawa¹, Hiromasa Oku, Koichi Hashimoto, Masatoshi Ishikawa.

Abstract

We propose a qualitative physical model of galvanotaxis of Paramecium cells using a bottom-up approach to link the microscopic ciliary motion and the macroscopic behavior of the cells. From the characteristic pattern of ciliary motion called the Ludloff phenomenon, the torque that orients the cell toward the cathode is derived mathematically. Dynamical equations of motion are derived and their stability is discussed. In numerical simulations using our model, cells exhibit realistic behavior, such as U-turns, like real cells.

Mesh：

Year: 2006 PMID： 16620869 DOI： 10.1016/j.jtbi.2006.02.021

Source DB: PubMed Journal: J Theor Biol ISSN： 0022-5193 Impact factor: 2.691

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A physical model for galvanotaxis of Paramecium cell.

1. When microbial conversations get physical.

2. A large-scale screen reveals genes that mediate electrotaxis in Dictyostelium discoideum.

3. A machine learning based model accurately predicts cellular response to electric fields in multiple cell types.

4. Restoration of DNA integrity and the cell cycle by electric stimulation in planarian tissues damaged by ionizing radiation.

5. Highly efficient galvanotaxis apparatus for cleaning and concentrating rumen ciliates.

6. KCNJ15/Kir4.2 couples with polyamines to sense weak extracellular electric fields in galvanotaxis.

7. Machine learning-driven electronic identifications of single pathogenic bacteria.