Abstract
BackgroundChromosomes have territories, or preferred locales, in the cell nucleus. When these sites are taken into account, some large-scale structure of the human genome emerges.ResultsThe synoptic picture is that genes highly expressed in particular topologically compact tissues are not randomly distributed on the genome. Rather, such tissue-specific genes tend to map somatotopically onto the complete chromosome set. They seem to form a “genome homunculus”: a multi-dimensional, genome-wide body representation extending across chromosome territories of the entire spermcell nucleus. The antero-posterior axis of the body significantly corresponds to the head-tail axis of the nucleus, and the dorso-ventral body axis to the central-peripheral nucleus axis.ConclusionsThis large-scale genomic structure includes thousands of genes. One rationale for a homuncular genome structure would be to minimize connection costs in genetic networks. Somatotopic maps in cerebral cortex have been reported for over a century.
Highlights
Chromosomes have territories, or preferred locales, in the cell nucleus
For each given tissue site on a body axis, there would be a corresponding preferred zone on the chromosome set for genes expressed in that tissue (See Figure 1.)
Each tissue has the largest number of tissue-specific genes of all compact tissues analyzed
Summary
Chromosomes have territories, or preferred locales, in the cell nucleus. When these sites are taken into account, some large-scale structure of the human genome emerges. One key to revealing this structure is chromosome territories, that is, their sites in the cell nucleus. Unlike hox complexes [3] or collinearity phenomena [4], this anatomical mapping includes thousands of genes in the entire chromosome set of the genome. Such a multi-chromosomal bodymap may help as a navigation guide in uncovering genes involved in pathologies of corresponding tissues
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