剂量补偿在鸟类中比在哺乳动物中效果更差。

Dosage compensation is less effective in birds than in mammals.

作者信息

Itoh Yuichiro, Melamed Esther, Yang Xia, Kampf Kathy, Wang Susanna, Yehya Nadir, Van Nas Atila, Replogle Kirstin, Band Mark R, Clayton David F, Schadt Eric E, Lusis Aldons J, Arnold Arthur P

机构信息

Department of Physiological Science, University of California, Los Angeles, CA 90095, USA.

Department of Medicine, David Geffen School of Medicine, University of California, Los Angeles, CA 90095, USA.

出版信息

J Biol. 2007;6(1):2. doi: 10.1186/jbiol53.

DOI:10.1186/jbiol53

PMID:17352797

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2373894/

Abstract

BACKGROUND

In animals with heteromorphic sex chromosomes, dosage compensation of sex-chromosome genes is thought to be critical for species survival. Diverse molecular mechanisms have evolved to effectively balance the expressed dose of X-linked genes between XX and XY animals, and to balance expression of X and autosomal genes. Dosage compensation is not understood in birds, in which females (ZW) and males (ZZ) differ in the number of Z chromosomes.

RESULTS

Using microarray analysis, we compared the male:female ratio of expression of sets of Z-linked and autosomal genes in two bird species, zebra finch and chicken, and in two mammalian species, mouse and human. Male:female ratios of expression were significantly higher for Z genes than for autosomal genes in several finch and chicken tissues. In contrast, in mouse and human the male:female ratio of expression of X-linked genes is quite similar to that of autosomal genes, indicating effective dosage compensation even in humans, in which a significant percentage of genes escape X-inactivation.

CONCLUSION

Birds represent an unprecedented case in which genes on one sex chromosome are expressed on average at constitutively higher levels in one sex compared with the other. Sex-chromosome dosage compensation is surprisingly ineffective in birds, suggesting that some genomes can do without effective sex-specific sex-chromosome dosage compensation mechanisms.

摘要

背景

在具有异形性染色体的动物中，性染色体基因的剂量补偿被认为对物种生存至关重要。多种分子机制已经进化出来，以有效地平衡XX和XY动物之间X连锁基因的表达剂量，并平衡X染色体和常染色体基因的表达。鸟类的剂量补偿情况尚不清楚，在鸟类中，雌性（ZW）和雄性（ZZ）的Z染色体数量不同。

结果

使用微阵列分析，我们比较了两种鸟类（斑胸草雀和鸡）以及两种哺乳动物（小鼠和人类）中Z连锁基因和常染色体基因表达的雄雌比例。在几种雀类和鸡的组织中，Z基因的表达雄雌比例显著高于常染色体基因。相比之下，在小鼠和人类中，X连锁基因的表达雄雌比例与常染色体基因非常相似，这表明即使在人类中也存在有效的剂量补偿，尽管有相当比例的基因逃避了X染色体失活。

结论

鸟类代表了一种前所未有的情况，即一条性染色体上的基因在一种性别中的平均表达水平相比另一种性别持续较高。性染色体剂量补偿在鸟类中出人意料地无效，这表明一些基因组可以没有有效的性别特异性性染色体剂量补偿机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3e6b/2373894/83cf74d345b2/jbiol53-1.jpg

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SEX CHROMOSOMES AND THE EVOLUTION OF SEXUAL DIMORPHISM.性染色体与两性异形的进化

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剂量补偿在鸟类中比在哺乳动物中效果更差。

Dosage compensation is less effective in birds than in mammals.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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