Add to ORKGA recent class of mathematical models of the immune network is reviewed. The models in this class are based upon the bell-shaped activation function that is known to be characteristic for receptor cross-linking. These network models have a large number of self-regulatory properties. This review discusses of number of these properties, i.e. immunological memory, suppression, and repertoire selection
We analyse a mathematical model specifying profound networks of idyotypic interactions amongst B ce...
Two types of behavior have been previously reported in models of immune networks. The typical behavi...
We consider the problem of self-tolerance in the frame of a minimalistic model of the idiotypic netw...
The regulation of the immune response is a complex phenomenon whose details are not yet well known. ...
Within the network hypothesis proposed by Jerne, the immune response is interpreted as a collective ...
Most recent models of the immune network are based upon a phenomenological log bell-shaped interacti...
The selection of B and T cell repertoires is known to be influence by idiotypic interactions during ...
Immune systems function by means of complex "networks" of interactions between various cell types a...
According to the network theory of the immune response, the various B and T lymphocyte clones that c...
We study a model of an idiotypic immune network which was introduced by N. K. Jerne. It is known tha...
We present a network model that incorporates: 1) symmetric idiotypic interactions, 2) an explicit a...
Some time ago Jerne proposed a new theory to explain the basis of the behaviour of the immune system...
In this work we introduce and analyze the stochastic dynamics obeyed by a model of an immune network...
Experimental immunology is a rapidly developing field in which an everincreasing number of cell typ...
We consider the problem of self-tolerance in the frame of a minimalistic model of the idiotypic netw...
We analyse a mathematical model specifying profound networks of idyotypic interactions amongst B ce...
Two types of behavior have been previously reported in models of immune networks. The typical behavi...
We consider the problem of self-tolerance in the frame of a minimalistic model of the idiotypic netw...
The regulation of the immune response is a complex phenomenon whose details are not yet well known. ...
Within the network hypothesis proposed by Jerne, the immune response is interpreted as a collective ...
Most recent models of the immune network are based upon a phenomenological log bell-shaped interacti...
The selection of B and T cell repertoires is known to be influence by idiotypic interactions during ...
Immune systems function by means of complex "networks" of interactions between various cell types a...
According to the network theory of the immune response, the various B and T lymphocyte clones that c...
We study a model of an idiotypic immune network which was introduced by N. K. Jerne. It is known tha...
We present a network model that incorporates: 1) symmetric idiotypic interactions, 2) an explicit a...
Some time ago Jerne proposed a new theory to explain the basis of the behaviour of the immune system...
In this work we introduce and analyze the stochastic dynamics obeyed by a model of an immune network...
Experimental immunology is a rapidly developing field in which an everincreasing number of cell typ...
We consider the problem of self-tolerance in the frame of a minimalistic model of the idiotypic netw...
We analyse a mathematical model specifying profound networks of idyotypic interactions amongst B ce...
Two types of behavior have been previously reported in models of immune networks. The typical behavi...
We consider the problem of self-tolerance in the frame of a minimalistic model of the idiotypic netw...