Base substitutions, length differences and DNA strand asymmetries in the human G gamma and A gamma fetal globin gene region

Abstract

We have studied differences arising subsequent to the 5 kilobase pair (kb) duplication that led to the human G gamma and A gamma fetal globin genes. The local occurrence of base substitutions in the duplicated 5 kb region correlates positively with the local AT base pair content. This correlation also occurs in two mouse beta-globin genes and in two mouse immunoglobulin genes. The relationship is valid for transcribed or nontranscribed DNA and for DNA that contains only coding sequences. Length differences in the fetal globin duplicated regions correlate positively with the occurrence of short direct repeats of greater than or equal 5 base pairs. Path analysis of the interrelationships of base composition, base substitutions, repeats and length differences provides an integrated view of the relative effects on chromosomal changes of these variables and of selection. The distributions along the chromosome of simple sequences and of base compositions show highly significant local asymmetries between the transcribed and nontranscribed strands of the DNA, which permit us to divide the fetal globin gene region into chromosomal domains. Comparable domains are present in DNA from other sources, including the mammalian viruses SV40 and polyoma virus strain A-2 in which some of the domains appear related to discrete functions.