I. Tenzer et al., Identification of microsatellite markers and their application to population genetics of Venturia inaequalis, PHYTOPATHOL, 89(9), 1999, pp. 748-753
Microsatellite markers of Venturia inaequalis were developed using genomic
libraries of V. inaequalis enriched for the simple sequence repeats (TC)(n)
and (AAC)(n). Seven markers, three with (TC)(n) repeats and four with (AAC
)(n) repeats, were selected for the analyses of 350 isolates of V. inaequal
is collected from 11 sites in Europe. Polymorphism in the (TC)(n) repeats w
as higher than in the (AAC)(n) repeats. Nei's expected genetic diversity (H
-H) varied between 0.52 and 0.96 for the microsatellites containing (TC)(n)
stretches and between 0.09 and 0.36 for the microsatellites containing (AA
C)(n) stretches. Within-population diversity (H-S) was very high with value
s ranging from 0.28 to 0.49, whereas differentiation among all European pop
ulations (G(ST)) was low with an average of 0.07. In the population from Ah
rensburg (northern Germany) where isolates were mainly collected from apple
varieties carrying the Vf gene, usually resistant to V. inaequalis, we sho
wed a bottleneck effect with reduced diversity and loss of alleles. The gre
at advantages of microsatellite markers over random amplified polymorphic D
NA and polymerase chain reaction-restriction fragment length polymorphism m
arkers are their high specificity, high polymorphism, good reproducibility,
and unambiguous scorability.