Avian sex chromosomes: dosage compensation matters.

Chromosome research : an international journal on the molecular, supramolecular and evolutionary aspects of chromosome biology Pub Date : 2009-01-01 DOI:10.1007/s10577-009-9056-8

Heather A McQueen, Michael Clinton

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Abstract

In 2001 it was established that, contrary to our previous understanding, a mechanism exists that equalises the expression levels of Z chromosome genes found in male (ZZ) and female (ZW) birds (McQueen et al. 2001). More recent large scale studies have revealed that avian dosage compensation is not a chromosome-wide phenomenon and that the degree of dosage compensation can vary between genes (Itoh et al. 2007; Ellegren et al. 2007). Although, surprisingly, dosage compensation has recently been described as absent in birds (Mank and Ellegren 2009b), this interpretation is not supported by the accumulated evidence, which indicates that a significant proportion of Z chromosome genes show robust dosage compensation and that a particular cluster of such dosage compensated genes can be found on the short arm of the Z chromosome. The implications of this new picture of avian dosage compensation for avian sex determination are discussed, along with a possible mechanism of avian dosage compensation.

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鸟类性染色体：剂量补偿问题。

2001年，研究人员发现，与我们之前的理解相反，存在一种机制，使雄性（ZZ）和雌性（ZW）鸟类的Z染色体基因表达水平相等（McQueen et al. 2001）。最近的大规模研究表明，鸟类剂量补偿并不是一种全染色体现象，剂量补偿的程度可能因基因而异(Itoh et al. 2007；Ellegren et al. 2007)。虽然，令人惊讶的是，剂量补偿最近在鸟类中被描述为不存在（Mank和Ellegren， 2009b），但积累的证据并不支持这种解释，这些证据表明，很大比例的Z染色体基因表现出强大的剂量补偿，并且可以在Z染色体的短臂上发现这种剂量补偿基因的特定簇。本文讨论了鸟类剂量补偿对鸟类性别决定的影响，以及鸟类剂量补偿的可能机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Chromosome research : an international journal on the molecular, supramolecular and evolutionary aspects of chromosome biology

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