贻贝H2A.Z的表征。2:新的H2A。Z变异优先在Mytilus的生发组织中表达。

C. Rivera-Casas, R. González-Romero, Ángel Vizoso-Vázquez, Manjinder S. Cheema, M. Cerdán, J. Méndez, J. Ausió, J. Eirín-López
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引用次数: 10

摘要

组蛋白是真核染色质的基本成分,促进染色体中DNA的物理组织并参与其代谢的调节。H2A家族在核心组蛋白中显示出最多的变体,包括著名的H2A。X macroH2A H2A。B (Bbd)和H2A.Z。后一种变体特别有趣,因为它的调节作用和分化成2个功能不同的变体(H2A.Z.)。1和H2A.Z.2),进一步专门化脊椎动物染色质的结构和功能。在目前的工作中,我们首次描述了第二个H2A的存在。非脊椎动物贻贝贻贝基因组中的Z变异(H2A.Z.2)。贻贝H2A.Z的分子和进化特征。1和haa。组蛋白与它们的功能专门化是一致的,这是由启动子和编码区的序列分化以及不同的基因表达模式所支持的。更准确地说,h2a。z。生殖腺组织中的2转录本及其在基因毒性应激反应中的潜在上调可能反映了该变体在DNA修复中的专门化。总的来说,这项工作的发现补充了最近的报道,这些报道描述了真核生物中广泛存在的其他组蛋白变异,支持组蛋白变异在染色质中的祖先起源和保守作用。
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Characterization of mussel H2A.Z.2: a new H2A.Z variant preferentially expressed in germinal tissues from Mytilus.
Histones are the fundamental constituents of the eukaryotic chromatin, facilitating the physical organization of DNA in chromosomes and participating in the regulation of its metabolism. The H2A family displays the largest number of variants among core histones, including the renowned H2A.X, macroH2A, H2A.B (Bbd), and H2A.Z. This latter variant is especially interesting because of its regulatory role and its differentiation into 2 functionally divergent variants (H2A.Z.1 and H2A.Z.2), further specializing the structure and function of vertebrate chromatin. In the present work we describe, for the first time, the presence of a second H2A.Z variant (H2A.Z.2) in the genome of a non-vertebrate animal, the mussel Mytilus. The molecular and evolutionary characterization of mussel H2A.Z.1 and H2A.Z.2 histones is consistent with their functional specialization, supported on sequence divergence at promoter and coding regions as well as on varying gene expression patterns. More precisely, the expression of H2A.Z.2 transcripts in gonadal tissue and its potential upregulation in response to genotoxic stress might be mirroring the specialization of this variant in DNA repair. Overall, the findings presented in this work complement recent reports describing the widespread presence of other histone variants across eukaryotes, supporting an ancestral origin and conserved role for histone variants in chromatin.
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