Godula Tomas, Sevcikova Hana, Merkin John H
Center for Nonlinear Dynamics of Chemical and Biological Systems, Prague Institute of Chemical Technology, Technicka 5, 16628 Prague 6, Czech Republic.
J Theor Biol. 2006 May 7;240(1):136-48. doi: 10.1016/j.jtbi.2005.09.003. Epub 2005 Oct 19.
The response of an excitable biological medium to a double local stimulus is considered within the context of a mathematical model for a layer of starving cells of Dictyostelium discoideum, with both spatially one- and two-dimensional (1D and 2D) system being investigated. In contrast to the response usually seen in excitable media, whereby each superthreshold stimulus delivered to the relaxed medium results in the initiation of just one travelling wave, a source emitting a sequence of waves can develop in the present excitable medium after the second stimulus. In a 1D system, only transient wave sources forming a limited number of waves are found. In 2D systems, a permanent wave sources consisting in a pair of spirals are observed as well as the transient wave sources forming circular wave patterns. The general features of the medium dynamics that underlie the observed responses to the double stimulus are discussed.
在一个关于盘基网柄菌饥饿细胞层的数学模型背景下,研究了可兴奋生物介质对双局部刺激的响应,同时对一维和二维空间系统进行了研究。与通常在可兴奋介质中看到的响应不同,即传递到松弛介质的每个阈上刺激只会引发一个行波,在本可兴奋介质中,第二次刺激后会出现一个发射波序列的源。在一维系统中,只发现形成有限数量波的瞬态波源。在二维系统中,观察到由一对螺旋组成的永久波源以及形成圆形波模式的瞬态波源。讨论了介质动力学的一般特征,这些特征是观察到的对双刺激响应的基础。