Mj. Nauta et Rf. Hoekstra, VEGETATIVE INCOMPATIBILITY IN ASCOMYCETES - HIGHLY POLYMORPHIC BUT SELECTIVELY NEUTRAL, Journal of theoretical biology, 183(1), 1996, pp. 67-76
Vegetative incompatibility, the prevention of somatic fusion between i
ndividuals, occurs frequently in ascomycetes. In all species studied,
a large number of Vegetative Compatibility Groups (VCGs) is found. In
this study the role of mutation rate, random genetic drift and selecti
on for the evolution of these large numbers of VCGs are investigated,
both analytically and by computer simulation. We find that, irrespecti
ve of selection, the product of population size and mutation rate for
new VCGs has to be larger than one to get realistic numbers of VCGs in
asexual populations. If the number of VCGs is large, selection does n
ot lead to a significant increase in the number of VCGs. Sexual reprod
uction, however, may enlarge the number of VCGs, due to recombination
of incompatibility genes. Here strong selective pressure does give an
extra increase in VCG numbers. These results suggest that vegetative i
ncompatibility may be a selectively neutral trait, although that does
not explain its ubiquity. Finally, it can be crucial that fungi can li
ve in extremely large populations. An extremely large population size
may offer an alternative explanation for a high degree of polymorphism
. This explanation does not apply for incompatibility systems of highe
r organisms. (C) 1996 Academic Press Limited.