Abstract
BackgroundThe very recent availability of fully sequenced individual human genomes is a major revolution in biology which is certainly going to provide new insights into genetic diseases and genomic rearrangements.ResultsWe mapped the insertions, deletions and SNPs (single nucleotide polymorphisms) that are present in Craig Venter's genome, more precisely on chromosomes 17 to 22, and compared them with the human reference genome hg17. Our results show that insertions and deletions are almost absent in L1 and generally scarce in L2 isochore families (GC-poor L1+L2 isochores represent slightly over half of the human genome), whereas they increase in GC-rich isochores, largely paralleling the densities of genes, retroviral integrations and Alu sequences. The distributions of insertions/deletions are in striking contrast with those of SNPs which exhibit almost the same density across all isochore families with, however, a trend for lower concentrations in gene-rich regions.ConclusionsOur study strongly suggests that the distribution of insertions/deletions is due to the structure of chromatin which is mostly open in gene-rich, GC-rich isochores, and largely closed in gene-poor, GC-poor isochores. The different distributions of insertions/deletions and SNPs are clearly related to the two different responsible mechanisms, namely recombination and point mutations.
Highlights
The very recent availability of fully sequenced individual human genomes [1,2,3,4,5] is a major revolution in biology which is certainly going to provide new insights into genetic diseases and genomic rearrangements in the near future
We looked at the insertions, deletions and single nucleotide polymorphisms (SNPs) that are present in Craig Venter’s genome [1], more precisely on chromosomes 17 to 22 (334 megabases, about 10% of the human genome), and compared them with the human reference genome hg17 from UCSC website
We thought that our approach was acceptable in view of the fact that our primary aim was to look for the localization of insertions/deletions and SNPs on isochores
Summary
The very recent availability of fully sequenced individual human genomes [1,2,3,4,5] is a major revolution in biology which is certainly going to provide new insights into genetic diseases and genomic rearrangements in the near future. Insertions and deletions, as well as SNPs, reported in this article are, the result of the comparison of one genome, the Venter genome, with several individual genomes. Each insertion and deletion in Venter is derived from a comparison with another individual, but not necessarily the same individual. The very recent availability of fully sequenced individual human genomes is a major revolution in biology which is certainly going to provide new insights into genetic diseases and genomic rearrangements
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