Abstract

The unravelling of human genome sequence gives a new opportunity to investigate the role of repetitive sequences in gene regulation. Among the various types of repetitive sequences, the dinucleotide (TG/CA)n repeats are one of the most abundant in human genome and exhibit polymorphism. Early on, it was observed that the (TG/CA)n repeats could modulate gene expression and has the propensity to undergo conformational transitions in in vivo conditions. Recent reports describe the role of polymorphic (TG/CA)n repeats in gene regulation in several genes. In this work, we have analysed the distribution of (TG/CA)n (n ≥ 6) repeats in human ‘housekeeping genes’ on which recently released Gene Chip data is available. Our results indicate that (i) The number of short intragenic (TG/CA)n repeats is significantly higher than the number of long repeats (ii) the proportion of genes with (TG/CA)n repeats (n ≥ 12 units) had lower mean expression levels compared to those without these repeats, (iii) the genes belonging to the functional class of ‘signalling and communication’ had a positive association with repeats in contrast to the genes belonging to the ‘information’ class that were negatively associated with repeats.

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