Your search keyword '"May, CA"' showing total 2 results

1. Integrated analysis of sequence evolution and population history using hypervariable compound haplotypes.

Author

Rogers EJ, Shone AC, Alonso S, May CA, and Armour JA

Subjects

Africa, Animals, Asia, Base Sequence, Chromosomes, Human, Pair 16 genetics, Europe, Gene Conversion genetics, Gorilla gorilla genetics, Humans, Microsatellite Repeats genetics, Mutation genetics, Pan troglodytes genetics, Polymorphism, Genetic genetics, Pongo pygmaeus genetics, Time Factors, DNA genetics, Evolution, Molecular, Genetic Variation genetics, Haplotypes genetics, Phylogeny

Abstract

We have examined compound haplotypes from a highly informative region of human chromosome 16, in which information from the rapid evolution of a highly unstable minisatellite is integrated with data on the longer-term evolution of this segment from 10 flanking substitutional polymorphisms. Combined with sequence data from non-human primates, analysis of relationships between these compound haplotypes allows the reconstruction of a rooted network of the evolutionary pathways between them. Most relationships can be explained via simple substitutional mutations, although the origins of some haplotypes involve recurrent events at a hotspot for substitutional mutation and/or gene conversion. For compound haplotypes including the minisatellite array, the network found in a range of world-wide populations constitutes a highly informative data set for the analysis of population history (437 different compound haplotypes were discriminated among 658 studied). Since the mutation rates and processes of the minisatellite array are known from direct studies, ages for individual lineages have been estimated using associated minisatellite diversity. These analyses suggest that the higher information content and sampling depth of these compound haplotypes may allow more precise calibration of lineage ages than is possible using coalescent analysis of DNA sequence. Using this method we have dated the oldest Eurasian lineage as 52,000-66,000 years and the oldest European specific lineage as 37,600-56,200 years.

Published

2000

2. Minisatellite diversity supports a recent African origin for modern humans.

Author

Armour JA, Anttinen T, May CA, Vega EE, Sajantila A, Kidd JR, Kidd KK, Bertranpetit J, Pääbo S, and Jeffreys AJ

Subjects

Africa, Alleles, Animals, Base Sequence, Europe, Gene Frequency, Humans, Models, Genetic, Molecular Sequence Data, Polymerase Chain Reaction methods, Biological Evolution, DNA, Satellite genetics, Genetic Variation, Hominidae genetics

Abstract

In a study of human diversity at a highly variable locus, we have mapped the internal structures of tandem-repetitive alleles from different populations at the minisatellite MS205 (D16S309). The results give an unusually detailed view of the different allelic structures represented on modern human chromosomes, and of the ancestral relationships between them. There was a clear difference in allelic diversity between African and non-African populations. A restricted set of allele families was found in non-African populations, and formed a subset of the much greater diversity seen on African chromosomes. The data strongly support a recent African origin for modern human diversity at this locus.

Published

1996