In evolutionary biology, the GARD model is a general kinetic model for homeostatic-growth and fission of compositional-assemblies, with specific application towards lipids. In the context of abiogenesis, the lipid-world suggests assemblies of simple molecules, such as lipids, can store and propagate information, thus undergo evolution. These 'compositional assemblies' have been suggested to play a role in the origin of life. The idea is the information being transferred throughout the generations is compositional information – the different types and quantities of molecules within an assembly. This is different from the information encoded in RNA or DNA, which is the specific sequence of bases in such molecule. Thus, the model is viewed as an alternative or an ancestor to the RNA world hypothesis.
The model
The composition vector of an assembly is written as:. Where are the molecular counts of lipidtypei within the assembly, and NG is how many different lipid types exist. The change in the count of molecule type i is described by: and are the basel forward and backward rate constants, βij is a non-negative rate enhancement exerted by molecule type j within the assembly on type i from the environment, and ρ is the environmental concentration of each molecule type. β is viewed as a directed, weighted, complex network. The assembly current size is. The system is kept away from equilibrium by imposing a fission action once the assembly reaches a maximal size, Nmax, usually in the order of NG. This splitting action produces two progeny of same size, and one of which is grown again. The model is subjected to a Monte Carlo algorithm based simulations, using Gillespie algorithm.
Selection
In 2010, Eors Szathmary and collaborators have chosen GARD as an archetypal metabolism-first realization. They have introduced selection coefficient into the model, which increase or decrease the growth rate of assemblies, depending on how similar or dis-similar they are to a given target. They found that the ranking of the assemblies are un-affected by the selection pressure, and concluded that GARD does not exhibit Darwinian evolution. In 2012 it was shown that this criticism is erroneous and was refuted. Two major drawbacks of the 2010 paper were: they have focused on a general assembly and not on a composome or compotype ; they have performed only a single, random, simulation to test the selectability.
Quasispecies
The quasispecies model describes a population of replicators that replicate with relatively high mutations. Due to mutations and back mutations the population eventually centres around a master-replicator. GARD's populations were shown to form a quasispecies around a master-compotype and to exhibit an Error catastrophe, similarly to classical quasispecis such as RNA viruses.