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In silico chromosome staining: Reconstruction of Giemsa bands from the whole human genome sequence

2002; National Academy of Sciences; Volume: 99; Issue: 2 Linguagem: Inglês

10.1073/pnas.022437999

1091-6490

Yoshihito Niimura, Takashi Gojobori,

Chromosomal and Genetic Variations

Giemsa staining has been used for identifying individual human chromosomes. Giemsa-dark and -light bands generally are thought to correspond to GC-poor and GC-rich regions; however, several experiments showed that the correspondence is quite poor. To elucidate the precise relationship between GC content and Giemsa banding patterns, we developed an “ in silico chromosome staining” method for reconstructing Giemsa bands computationally from the whole human genome sequence. Here we show that 850-level Giemsa bands are best correlated with the difference in GC content between a local window of 2.5 megabases and a regional window of 9.3 megabases along a chromosome. The correlations are of strong statistical significance for almost all 43 chromosomal arms. Our results clearly show that Giemsa-dark bands are locally GC-poor regions compared with the flanking regions. These findings are consistent with the model that matrix-associated regions, which are known to be AT-rich, are present more densely in Giemsa-dark bands than in -light bands.