三个被子植物属二倍体和多倍体中着丝粒组蛋白H3的进化

CenH3 evolution in diploids and polyploids of three angiosperm genera.

作者信息

Masonbrink Rick E, Gallagher Joseph P, Jareczek Josef J, Renny-Byfield Simon, Grover Corrinne E, Gong Lei, Wendel Jonathan F

出版信息

BMC Plant Biol. 2014 Dec 30;14:383. doi: 10.1186/s12870-014-0383-3.

DOI:10.1186/s12870-014-0383-3

PMID:25547313

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4308911/

Abstract

BACKGROUND

Centromeric DNA sequences alone are neither necessary nor sufficient for centromere specification. The centromere specific histone, CenH3, evolves rapidly in many species, perhaps as a coevolutionary response to rapidly evolving centromeric DNA. To gain insight into CenH3 evolution, we characterized patterns of nucleotide and protein diversity among diploids and allopolyploids within three diverse angiosperm genera, Brassica, Oryza, and Gossypium (cotton), with a focus on evidence for diversifying selection in the various domains of the CenH3 gene. In addition, we compare expression profiles and alternative splicing patterns for CenH3 in representatives of each genus.

RESULTS

All three genera retain both duplicated CenH3 copies, while Brassica and Gossypium exhibit pronounced homoeologous expression level bias. Comparisons among genera reveal shared and unique aspects of CenH3 evolution, variable levels of diversifying selection in different CenH3 domains, and that alternative splicing contributes significantly to CenH3 diversity.

CONCLUSIONS

Since the N terminus is subject to diversifying selection but the DNA binding domains do not appear to be, rapidly evolving centromere sequences are unlikely to be the primary driver of CenH3 sequence diversification. At present, the functional explanation for the diversity generated by both conventional protein evolution in the N terminal domain, as well as alternative splicing, remains unexplained.

摘要

背景

仅着丝粒DNA序列对于着丝粒的指定既非必要条件也非充分条件。着丝粒特异性组蛋白CenH3在许多物种中快速进化，这可能是对着丝粒DNA快速进化的一种协同进化反应。为了深入了解CenH3的进化，我们对三个不同被子植物属（芸苔属、稻属和棉属（棉花））的二倍体和异源多倍体内的核苷酸和蛋白质多样性模式进行了表征，重点关注CenH3基因各个结构域中多样化选择的证据。此外，我们比较了每个属代表中CenH3的表达谱和可变剪接模式。

结果

所有三个属都保留了两个重复的CenH3拷贝，而芸苔属和棉属表现出明显的同源表达水平偏差。属间比较揭示了CenH3进化的共同和独特方面、不同CenH3结构域中多样化选择的不同水平，以及可变剪接对CenH3多样性有显著贡献。

结论

由于N端受到多样化选择，而DNA结合结构域似乎没有，快速进化的着丝粒序列不太可能是CenH3序列多样化的主要驱动因素。目前，对于N端结构域中传统蛋白质进化以及可变剪接所产生的多样性的功能解释仍不明确。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2d56/4308911/129ac1e894cd/12870_2014_383_Fig1_HTML.jpg

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三个被子植物属二倍体和多倍体中着丝粒组蛋白H3的进化

CenH3 evolution in diploids and polyploids of three angiosperm genera.

作者信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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