Genome-scale analysis of positional clustering of mouse testis-specific genes

BackgroundGenes are not randomly distributed on a chromosome as they were thought even after removal of tandem repeats. The positional clustering of co-expressed genes is known in prokaryotes and recently reported in several eukaryotic organisms such as Caenorhabditis elegans, Drosophila melanogaster, and Homo sapiens. In order to further investigate the mode of tissue-specific gene clustering in higher eukaryotes, we have performed a genome-scale analysis of positional clustering of the mouse testis-specific genes.ResultsOur computational analysis shows that a large proportion of testis-specific genes are clustered in groups of 2 to 5 genes in the mouse genome. The number of clusters is much higher than expected by chance even after removal of tandem repeats.ConclusionOur result suggests that testis-specific genes tend to cluster on the mouse chromosomes. This provides another piece of evidence for the hypothesis that clusters of tissue-specific genes do exist.

[1]  P. Goodfellow,et al.  Hidden messages in genetic maps. , 1992, Science.

[2]  L. Carlsson,et al.  Partial genome scale analysis of gene expression in human adipose tissue using DNA array. , 2000, Obesity research.

[3]  V. Meller Dosage compensation: making 1X equal 2X. , 2000, Trends in cell biology.

[4]  Gerald M Rubin,et al.  Evidence for large domains of similarly expressed genes in the Drosophila genome , 2002, Journal of biology.

[5]  Thomas Blumenthal,et al.  Coexpression of neighboring genes in Caenorhabditis elegans is mostly due to operons and duplicate genes. , 2003, Genome research.

[6]  T. Blumenthal Trans-splicing and polycistronic transcription in Caenorhabditis elegans. , 1995, Trends in genetics : TIG.

[7]  J. Eppig,et al.  Genome-wide mapping of unselected transcripts from extraembryonic tissue of 7.5-day mouse embryos reveals enrichment in the t-complex and under-representation on the X chromosome. , 1998, Human molecular genetics.

[8]  B. Oliver,et al.  Gene expression neighborhoods , 2002, Journal of biology.

[9]  Martin J. Lercher,et al.  Clustering of housekeeping genes provides a unified model of gene order in the human genome , 2002, Nature Genetics.

[10]  Jotun Hein,et al.  Statistical Methods in Bioinformatics: An Introduction , 2002 .

[11]  Jean-Michel Claverie,et al.  Positional clustering of differentially expressed genes on human chromosomes 20, 21 and 22 , 2003, Genome Biology.

[12]  G. Church,et al.  A computational analysis of whole-genome expression data reveals chromosomal domains of gene expression , 2000, Nature Genetics.

[13]  B. Roe,et al.  Refinement of a chimpanzee pericentric inversion breakpoint to a segmental duplication cluster , 2003, Genome Biology.

[14]  G. Rubin,et al.  The effect of chromosomal position on the expression of the drosophila xanthine dehydrogenase gene , 1983, Cell.

[15]  Yuri Y. Shevelyov,et al.  Large clusters of co-expressed genes in the Drosophila genome , 2002, Nature.

[16]  W. J. Kent,et al.  BLAT--the BLAST-like alignment tool. , 2002, Genome research.

[17]  Ronald W. Davis,et al.  A genome-wide transcriptional analysis of the mitotic cell cycle. , 1998, Molecular cell.

[18]  F. Baas,et al.  The Human Transcriptome Map: Clustering of Highly Expressed Genes in Chromosomal Domains , 2001, Science.

[19]  F H Ruddle,et al.  Evolution of Hox genes. , 1994, Annual review of genetics.

[20]  A. Hughes,et al.  Gene duplication and the structure of eukaryotic genomes. , 2001, Genome research.

[21]  D. Dorsett,et al.  Distant liaisons: long-range enhancer-promoter interactions in Drosophila. , 1999, Current opinion in genetics & development.

[22]  C. Liew,et al.  Organization of human cardiovascular-expressed genes on chromosomes 21 and 22. , 2001, Journal of molecular and cellular cardiology.

[23]  Paul Schliekelman,et al.  Statistical Methods in Bioinformatics: An Introduction , 2001 .

[24]  Joshua M. Stuart,et al.  Chromosomal clustering of muscle-expressed genes in Caenorhabditis elegans , 2002, Nature.

[25]  T. Liesegang The human transcriptome map: Clustering of highly expressed genes in chromosomal domains. Caron H, ∗ van Schaik B, van der Mee M, et al. Science 2001;291:1289–1292. , 2001 .