X-chromosome inactivation: dosage compensation of genes or heterochromatin?

Abstract

X-chromosome inactivation (XCI) is the process by which one of two X chromosomes in mammalian female cells is inactivated. The DNA of the inactive X chromosome is packaged in transcriptionally inactive heterochromatin. It is generally accepted that XCI have evolved to enable dosage compensation in mammals as a way to equalize X-linked gene expression between XX and XY individuals. However, there remain several controversial issues regarding the causes of XCI. The most important of them, why dosage compensation of genes? An alternative hypothesis is discussed that XCI is caused by dose compensation for heterochromatin, rather than genes, in the genome of female mammals due to the lack of a sex chromosome in their karyotype with a large constitutive heterochromatin block, as in Y chromosome in males. It is for this reason that heterochromatinization of the euchromatin regions of one of the X chromosomes occurs. The biological meaning of heterochromatinization is to increase the density of condensed chromatin (??) around the interphase nucleus, responsible for removing excess heat from the nucleus into the cytoplasm, since the compaction of ?? depends on the amount of heterochromatin. The consequence of this process is the inactivation of genes that were in the area of heterochromatinization of the X chromosome. Keywords: X-chromosome inactivation; Lyonization; Gene dosage compensation; Heterochromatin dosage compensation; Cell thermoregulation