Molecular Biology and Evolution, Vol 13, 505-509, Copyright © 1996 by Society for Molecular Biology and Evolution
KA Rice
Restriction mapping is used to estimate nucleotide sequence polymorphism
when the regions to be studied are too long or too numerous to be
sequenced. Restriction mapping is less costly than DNA sequencing, but it
does not allow direct measurement of underlying nucleotide polymorphism. It
is therefore useful to be able to estimate underlying nucleotide
polymorphism from observations of polymorphism in restriction maps, as this
offers some of the resolution afforded by DNA sequencing at a reduced cost.
Previous estimators of underlying nucleotide polymorphism have assumed that
each restriction-enzyme- binding site contains, at most, a single
polymorphic nucleotide position (the low-polymorphism-frequency
assumption), and this assumption has placed an upper limit on the level of
polymorphism that can be resolved by these estimators. The present study
documents an estimator which allows relaxation of this assumption. The new
estimator more accurately estimates underlying nucleotide polymorphism when
the polymorphism level is high enough to falsify the low-polymorphism-
frequency assumption. The new estimator therefore yields good results for
data sets that are too divergent for analysis by present methods.
ORIGINAL ARTICLE
A nonlinear method for estimating nucleotide polymorphism from restriction maps
Department of Organismic and Evolutionary Biology, Harvard University, Cambridge, Massachusetts 02138, USA. rice@green.harvard.educ
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